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Wikipedia

Pharmaceutical industry

February 16, 2024

The pharmaceutical industry is an industry in medicine that discovers, develops, produces, and markets pharmaceutical drugs for use as medications to be administered to patients (or self-administered), with the aim to cure and prevent diseases, or alleviate symptoms.[1][2] Pharmaceutical companies may deal in generic or brand medications and medical devices. They are subject to a variety of laws and regulations that govern the patenting, testing, safety, efficacy using drug testing and marketing of drugs. The global pharmaceuticals market produced treatments worth $1,228.45 billion in 2020 and showed a compound annual growth rate (CAGR) of 1.8%.[3]

A drug manufacturer inspection by the US Food and Drug Administration

History edit

Main article: History of pharmacy

Mid-1800s – 1945: From botanicals to the first synthetic drugs edit

The modern era of pharmaceutical industry began with local apothecaries that expanded from their traditional role of distributing botanical drugs such as morphine and quinine to wholesale manufacture in the mid-1800s, and from discoveries resulting from applied research. Intentional drug discovery from plants began with the isolation between 1803 and 1805 of morphine – an analgesic and sleep-inducing agent – from opium by the German apothecary assistant Friedrich Sertürner, who named this compound after the Greek god of dreams, Morpheus.[4] By the late 1880s, German dye manufacturers had perfected the purification of individual organic compounds from tar and other mineral sources and had also established rudimentary methods in organic chemical synthesis.[5] The development of synthetic chemical methods allowed scientists to systematically vary the structure of chemical substances, and growth in the emerging science of pharmacology expanded their ability to evaluate the biological effects of these structural changes.

Epinephrine, norepinephrine, and amphetamine edit

By the 1890s, the profound effect of adrenal extracts on many different tissue types had been discovered, setting off a search both for the mechanism of chemical signalling and efforts to exploit these observations for the development of new drugs. The blood pressure raising and vasoconstrictive effects of adrenal extracts were of particular interest to surgeons as hemostatic agents and as treatment for shock, and a number of companies developed products based on adrenal extracts containing varying purities of the active substance. In 1897, John Abel of Johns Hopkins University identified the active principle as epinephrine, which he isolated in an impure state as the sulfate salt. Industrial chemist Jōkichi Takamine later developed a method for obtaining epinephrine in a pure state, and licensed the technology to Parke-Davis. Parke-Davis marketed epinephrine under the trade name Adrenalin. Injected epinephrine proved to be especially efficacious for the acute treatment of asthma attacks, and an inhaled version was sold in the United States until 2011 (Primatene Mist).[6][7] By 1929 epinephrine had been formulated into an inhaler for use in the treatment of nasal congestion.

While highly effective, the requirement for injection limited the use of epinephrine[clarification needed] and orally active derivatives were sought. A structurally similar compound, ephedrine, was identified by Japanese chemists in the Ma Huang plant and marketed by Eli Lilly as an oral treatment for asthma. Following the work of Henry Dale and George Barger at Burroughs-Wellcome, academic chemist Gordon Alles synthesized amphetamine and tested it in asthma patients in 1929. The drug proved to have only modest anti-asthma effects but produced sensations of exhilaration and palpitations. Amphetamine was developed by Smith, Kline and French as a nasal decongestant under the trade name Benzedrine Inhaler. Amphetamine was eventually developed for the treatment of narcolepsy, post-encephalitic parkinsonism, and mood elevation in depression and other psychiatric indications. It received approval as a New and Nonofficial Remedy from the American Medical Association for these uses in 1937,[8] and remained in common use for depression until the development of tricyclic antidepressants in the 1960s.[7]

Discovery and development of the barbiturates edit

 
Diethylbarbituric acid was the first marketed barbiturate. It was sold by Bayer under the trade name Veronal.

In 1903, Hermann Emil Fischer and Joseph von Mering disclosed their discovery that diethylbarbituric acid, formed from the reaction of diethylmalonic acid, phosphorus oxychloride and urea, induces sleep in dogs. The discovery was patented and licensed to Bayer pharmaceuticals, which marketed the compound under the trade name Veronal as a sleep aid beginning in 1904. Systematic investigations of the effect of structural changes on potency and duration of action led to the discovery of phenobarbital at Bayer in 1911 and the discovery of its potent anti-epileptic activity in 1912. Phenobarbital was among the most widely used drugs for the treatment of epilepsy through the 1970s, and as of 2014, remains on the World Health Organizations list of essential medications.[9][10] The 1950s and 1960s saw increased awareness of the addictive properties and abuse potential of barbiturates and amphetamines and led to increasing restrictions on their use and growing government oversight of prescribers. Today, amphetamine is largely restricted to use in the treatment of attention deficit disorder and phenobarbital in the treatment of epilepsy.[11][12]

In 1958, Leo Sternbach discovered the first benzodiazepine, chlordiazepoxide (Librium). Dozens of other benzodiazepines have been developed and are in use, some of the more popular drugs being diazepam (Valium), alprazolam (Xanax), clonazepam (Klonopin), and lorazepam (Ativan). Due to their far superior safety and therapeutic properties, benzodiazepines have largely replaced the use of barbiturates in medicine, except in certain special cases. When it was later discovered that benzodiazepines, like barbiturates, significantly lose their effectiveness and can have serious side effects when taken long-term, Heather Ashton researched benzodiazepine dependence and developed a protocol to discontinue their use.

Insulin edit

A series of experiments performed from the late 1800s to the early 1900s revealed that diabetes is caused by the absence of a substance normally produced by the pancreas. In 1869, Oskar Minkowski and Joseph von Mering found that diabetes could be induced in dogs by surgical removal of the pancreas. In 1921, Canadian professor Frederick Banting and his student Charles Best repeated this study and found that injections of pancreatic extract reversed the symptoms produced by pancreas removal. Soon, the extract was demonstrated to work in people, but development of insulin therapy as a routine medical procedure was delayed by difficulties in producing the material in sufficient quantity and with reproducible purity. The researchers sought assistance from industrial collaborators at Eli Lilly and Co. based on the company's experience with large scale purification of biological materials. Chemist George B. Walden of Eli Lilly and Company found that careful adjustment of the pH of the extract allowed a relatively pure grade of insulin to be produced. Under pressure from Toronto University and a potential patent challenge by academic scientists who had independently developed a similar purification method, an agreement was reached for non-exclusive production of insulin by multiple companies. Prior to the discovery and widespread availability of insulin therapy the life expectancy of diabetics was only a few months.[13]

Early anti-infective research: Salvarsan, Prontosil, Penicillin and vaccines edit

The development of drugs for the treatment of infectious diseases was a major focus of early research and development efforts; in 1900, pneumonia, tuberculosis, and diarrhea were the three leading causes of death in the United States and mortality in the first year of life exceeded 10%.[14][15][failed verification]

In 1911 arsphenamine, the first synthetic anti-infective drug, was developed by Paul Ehrlich and chemist Alfred Bertheim of the Institute of Experimental Therapy in Berlin. The drug was given the commercial name Salvarsan.[16] Ehrlich, noting both the general toxicity of arsenic and the selective absorption of certain dyes by bacteria, hypothesized that an arsenic-containing dye with similar selective absorption properties could be used to treat bacterial infections. Arsphenamine was prepared as part of a campaign to synthesize a series of such compounds, and was found to exhibit partially selective toxicity. Arsphenamine proved to be the first effective treatment for syphilis, a disease untl then had been incurable and led inexorably to severe skin ulceration, neurological damage, and death.[17]

Ehrlich's approach of systematically varying the chemical structure of synthetic compounds and measuring the effects of these changes on biological activity was pursued broadly by industrial scientists, including Bayer scientists Josef Klarer, Fritz Mietzsch, and Gerhard Domagk. This work, also based on the testing of compounds available from the German dye industry, led to the development of Prontosil, the first representative of the sulfonamide class of antibiotics. Compared to arsphenamine, the sulfonamides had a broader spectrum of activity and were far less toxic, rendering them useful for infections caused by pathogens such as streptococci.[18] In 1939, Domagk received the Nobel Prize in Medicine for this discovery.[19][20] Nonetheless, the dramatic decrease in deaths from infectious diseases that occurred prior to World War II was primarily the result of improved public health measures such as clean water and less crowded housing, and the impact of anti-infective drugs and vaccines was significant mainly after World War II.[21][22]

In 1928, Alexander Fleming discovered the antibacterial effects of penicillin, but its exploitation for the treatment of human disease awaited the development of methods for its large scale production and purification. These were developed by a U.S. and British government-led consortium of pharmaceutical companies during the world war.[23]

There was early progress toward the development of vaccines throughout this period, primarily in the form of academic and government-funded basic research directed toward the identification of the pathogens responsible for common communicable diseases. In 1885, Louis Pasteur and Pierre Paul Émile Roux created the first rabies vaccine. The first diphtheria vaccines were produced in 1914 from a mixture of diphtheria toxin and antitoxin (produced from the serum of an inoculated animal), but the safety of the inoculation was marginal and it was not widely used. The United States recorded 206,000 cases of diphtheria in 1921, resulting in 15,520 deaths. In 1923, parallel efforts by Gaston Ramon at the Pasteur Institute and Alexander Glenny at the Wellcome Research Laboratories (later part of GlaxoSmithKline) led to the discovery that a safer vaccine could be produced by treating diphtheria toxin with formaldehyde.[24] In 1944, Maurice Hilleman of Squibb Pharmaceuticals developed the first vaccine against Japanese Encephalitis.[25] Hilleman later moved to Merck, where he played a key role in the development of vaccines against measles, mumps, chickenpox, rubella, hepatitis A, hepatitis B, and meningitis.

Unsafe drugs and early industry regulation edit

 
In 1937 over 100 people died after ingesting a solution of the antibacterial sulfanilamide formulated in the toxic solvent diethylene glycol.

Prior to the 20th century, drugs were generally produced by small scale manufacturers with little regulatory control over manufacturing or claims of safety and efficacy. To the extent that such laws did exist, enforcement was lax. In the United States, increased regulation of vaccines and other biological drugs was spurred by tetanus outbreaks and deaths caused by the distribution of contaminated smallpox vaccine and diphtheria antitoxin.[26] The Biologics Control Act of 1902 required that federal government grant premarket approval for every biological drug and for the process and facility producing such drugs. This was followed in 1906 by the Pure Food and Drugs Act, which forbade the interstate distribution of adulterated or misbranded foods and drugs. A drug was considered misbranded if it contained alcohol, morphine, opium, cocaine, or any of several other potentially dangerous or addictive drugs, and if its label failed to indicate the quantity or proportion of such drugs. The government's attempts to use the law to prosecute manufacturers for making unsupported claims of efficacy were undercut by a Supreme Court ruling restricting the federal government's enforcement powers to cases of incorrect specification of the drug's ingredients.[27]

In 1937 over 100 people died after ingesting "Elixir Sulfanilamide" manufactured by S.E. Massengill Company of Tennessee. The product was formulated in diethylene glycol, a highly toxic solvent that is now widely used as antifreeze.[28] Under the laws extant at that time, prosecution of the manufacturer was possible only under the technicality that the product had been called an "elixir", which literally implied a solution in ethanol. In response to this episode, the U.S. Congress passed the Federal Food, Drug, and Cosmetic Act of 1938, which for the first time required pre-market demonstration of safety before a drug could be sold, and explicitly prohibited false therapeutic claims.[29]

The post-war years, 1945–1970 edit

Further advances in anti-infective research edit

The aftermath of World War II saw an explosion in the discovery of new classes of antibacterial drugs[30] including the cephalosporins (developed by Eli Lilly based on the seminal work of Giuseppe Brotzu and Edward Abraham),[31][32] streptomycin (discovered during a Merck-funded research program in Selman Waksman's laboratory[33]), the tetracyclines[34] (discovered at Lederle Laboratories, now a part of Pfizer), erythromycin (discovered at Eli Lilly and Co.)[35] and their extension to an increasingly wide range of bacterial pathogens. Streptomycin, discovered during a Merck-funded research program in Selman Waksman's laboratory at Rutgers in 1943, became the first effective treatment for tuberculosis. At the time of its discovery, sanitoriums for the isolation of tuberculosis-infected people were an ubiquitous feature of cities in developed countries, with 50% dying within 5 years of admission.[33][36]

A Federal Trade Commission report issued in 1958 attempted to quantify the effect of antibiotic development on American public health. The report found that over the period 1946–1955, there was a 42% drop in the incidence of diseases for which antibiotics were effective and only a 20% drop in those for which antibiotics were not effective. The report concluded that "it appears that the use of antibiotics, early diagnosis, and other factors have limited the epidemic spread and thus the number of these diseases which have occurred". The study further examined mortality rates for eight common diseases for which antibiotics offered effective therapy (syphilis, tuberculosis, dysentery, scarlet fever, whooping cough, meningococcal infections, and pneumonia), and found a 56% decline over the same period.[37] Notable among these was a 75% decline in deaths due to tuberculosis.[38]

 
Measles cases reported in the United States before and after introduction of the vaccine
 
Percent surviving by age in 1900, 1950, and 1997[39]

During the years 1940–1955, the rate of decline in the U.S. death rate accelerated from 2% per year to 8% per year, then returned to the historical rate of 2% per year. The dramatic decline in the immediate post-war years has been attributed to the rapid development of new treatments and vaccines for infectious disease that occurred during these years.[40][22] Vaccine development continued to accelerate, with the most notable achievement of the period being Jonas Salk's 1954 development of the polio vaccine under the funding of the non-profit National Foundation for Infantile Paralysis. The vaccine process was never patented but was instead given to pharmaceutical companies to manufacture as a low-cost generic. In 1960 Maurice Hilleman of Merck Sharp & Dohme identified the SV40 virus, which was later shown to cause tumors in many mammalian species. It was later determined that SV40 was present as a contaminant in polio vaccine lots that had been administered to 90% of the children in the United States.[41][42] The contamination appears to have originated both in the original cell stock and in monkey tissue used for production. In 2004 the National Cancer Institute announced that it had concluded that SV40 is not associated with cancer in people.[43]

Other notable new vaccines of the period include those for measles (1962, John Franklin Enders of Children's Medical Center Boston, later refined by Maurice Hilleman at Merck), Rubella (1969, Hilleman, Merck) and mumps (1967, Hilleman, Merck)[44] The United States incidences of rubella, congenital rubella syndrome, measles, and mumps all fell by >95% in the immediate aftermath of widespread vaccination.[45] The first 20 years of licensed measles vaccination in the U.S. prevented an estimated 52 million cases of the disease, 17,400 cases of mental retardation, and 5,200 deaths.[46]

Development and marketing of antihypertensive drugs edit

Hypertension is a risk factor for atherosclerosis,[47] heart failure,[48] coronary artery disease,[49][50] stroke,[51] renal disease,[52][53] and peripheral arterial disease,[54][55] and is the most important risk factor for cardiovascular morbidity and mortality, in industrialized countries.[56] Prior to 1940 approximately 23% of all deaths among persons over age 50 were attributed to hypertension. Severe cases of hypertension were treated by surgery.[57]

Early developments in the field of treating hypertension included quaternary ammonium ion sympathetic nervous system blocking agents, but these compounds were never widely used due to their severe side effects, because the long-term health consequences of high blood pressure had not yet been established, and because they had to be administered by injection.

In 1952 researchers at Ciba discovered the first orally available vasodilator, hydralazine.[58] A major shortcoming of hydralazine monotherapy was that it lost its effectiveness over time (tachyphylaxis). In the mid-1950s Karl H. Beyer, James M. Sprague, John E. Baer, and Frederick C. Novello of Merck and Co. discovered and developed chlorothiazide, which remains the most widely used antihypertensive drug today.[59] This development was associated with a substantial decline in the mortality rate among people with hypertension.[60] The inventors were recognized by a Public Health Lasker Award in 1975 for "the saving of untold thousands of lives and the alleviation of the suffering of millions of victims of hypertension".[61]

A 2009 Cochrane review concluded that thiazide antihypertensive drugs reduce the risk of death (RR 0.89), stroke (RR 0.63), coronary heart disease (RR 0.84), and cardiovascular events (RR 0.70) in people with high blood pressure.[62] In the ensuring years other classes of antihypertensive drug were developed and found wide acceptance in combination therapy, including loop diuretics (Lasix/furosemide, Hoechst Pharmaceuticals, 1963),[63] beta blockers (ICI Pharmaceuticals, 1964)[64] ACE inhibitors, and angiotensin receptor blockers. ACE inhibitors reduce the risk of new onset kidney disease [RR 0.71] and death [RR 0.84] in diabetic patients, irrespective of whether they have hypertension.[65]

Oral Contraceptives edit

Prior to the Second World war, birth control was prohibited in many countries, and in the United States even the discussion of contraceptive methods sometimes led to prosecution under Comstock laws. The history of the development of oral contraceptives is thus closely tied to the birth control movement and the efforts of activists Margaret Sanger, Mary Dennett, and Emma Goldman. Based on fundamental research performed by Gregory Pincus and synthetic methods for progesterone developed by Carl Djerassi at Syntex and by Frank Colton at G.D. Searle & Co., the first oral contraceptive, Enovid, was developed by G.D. Searle & Co. and approved by the FDA in 1960. The original formulation incorporated vastly excessive doses of hormones, and caused severe side effects. Nonetheless, by 1962, 1.2 million American women were on the pill, and by 1965 the number had increased to 6.5 million.[66][67][68][69] The availability of a convenient form of temporary contraceptive led to dramatic changes in social mores including expanding the range of lifestyle options available to women, reducing the reliance of women on men for contraceptive practice, encouraging the delay of marriage, and increasing pre-marital co-habitation.[70]

Thalidomide and the Kefauver-Harris Amendments edit

 
Malformation of a baby born to a mother who had taken thalidomide while pregnant

In the U.S., a push for revisions of the FD&C Act emerged from Congressional hearings led by Senator Estes Kefauver of Tennessee in 1959. The hearings covered a wide range of policy issues, including advertising abuses, questionable efficacy of drugs, and the need for greater regulation of the industry. While momentum for new legislation temporarily flagged under extended debate, a new tragedy emerged that underscored the need for more comprehensive regulation and provided the driving force for the passage of new laws.

On 12 September 1960, an American licensee, the William S. Merrell Company of Cincinnati, submitted a new drug application for Kevadon (thalidomide), a sedative that had been marketed in Europe since 1956. The FDA medical officer in charge of reviewing the compound, Frances Kelsey, believed that the data supporting the safety of thalidomide was incomplete. The firm continued to pressure Kelsey and the FDA to approve the application until November 1961, when the drug was pulled off the German market because of its association with grave congenital abnormalities. Several thousand newborns in Europe and elsewhere suffered the teratogenic effects of thalidomide. Without approval from the FDA, the firm distributed Kevadon to over 1,000 physicians there under the guise of investigational use. Over 20,000 Americans received thalidomide in this "study," including 624 pregnant patients, and about 17 known newborns suffered the effects of the drug.[citation needed]

The thalidomide tragedy resurrected Kefauver's bill to enhance drug regulation that had stalled in Congress, and the Kefauver-Harris Amendment became law on 10 October 1962. Manufacturers henceforth had to prove to FDA that their drugs were effective as well as safe before they could go on the US market. The FDA received authority to regulate advertising of prescription drugs and to establish good manufacturing practices. The law required that all drugs introduced between 1938 and 1962 had to be effective. An FDA - National Academy of Sciences collaborative study showed that nearly 40 percent of these products were not effective. A similarly comprehensive study of over-the-counter products began ten years later.[71]

1970–1990s edit

Statins edit

Main article: Discovery and development of statins

In 1971, Akira Endo, a Japanese biochemist working for the pharmaceutical company Sankyo, identified mevastatin (ML-236B), a molecule produced by the fungus Penicillium citrinum, as an inhibitor of HMG-CoA reductase, a critical enzyme used by the body to produce cholesterol. Animal trials showed very good inhibitory effect as in clinical trials, however a long-term study in dogs found toxic effects at higher doses and as a result mevastatin was believed to be too toxic for human use. Mevastatin was never marketed, because of its adverse effects of tumors, muscle deterioration, and sometimes death in laboratory dogs.

P. Roy Vagelos, chief scientist and later CEO of Merck & Co, was interested, and made several trips to Japan starting in 1975. By 1978, Merck had isolated lovastatin (mevinolin, MK803) from the fungus Aspergillus terreus, first marketed in 1987 as Mevacor.[72][73][74]

In April 1994, the results of a Merck-sponsored study, the Scandinavian Simvastatin Survival Study, were announced. Researchers tested simvastatin, later sold by Merck as Zocor, on 4,444 patients with high cholesterol and heart disease. After five years, the study concluded the patients saw a 35% reduction in their cholesterol, and their chances of dying of a heart attack were reduced by 42%.[75] In 1995, Zocor and Mevacor both made Merck over US$1 billion. Endo was awarded the 2006 Japan Prize, and the Lasker-DeBakey Clinical Medical Research Award in 2008. For his "pioneering research into a new class of molecules" for "lowering cholesterol,"[sentence fragment][76][77]

21st Century edit

Since several decades, biologics have been rising in importance in comparison with small molecules treatments. The biotech subsector, animal health and the Chinese pharmaceutical sector have also grown substantially. On the organisational side, big international pharma corporations have experienced a substantial decline of their value share. Also, the core generic sector (substitutions for off-patent brands) has been downvalued due to competition.[78]

Torreya estimated the pharmaceutical industry to have a market valuation of US$7.03 trillion by February 2021 from which US$6.1 trillion is the value of the publicly traded companies. Small Molecules modality had 58.2% of the valuation share down from 84.6% in 2003. Biologics was up at 30.5% from 14.5%. The valuation share of Chinese Pharma grew from 2003 to 2021 from 1% to 12% overtaking Switzerland who is now ranked number 3 with 7.7%. The United States had still by far the most valued pharmaceutical industry with 40% of global valuation.[79] 2023 was a year of layoffs for at least 10,000 people across 129 public biotech firms globally, albeit most small firms; this was a significant increase in reductions versus 2022 was in part due to worsening global financial conditions and a reduction in investment by "generalist investors".[80] Private firms also saw a significant reduction in venture capital investment in 2023, continuing a downward trend started in 2021, which also led to a reduction in initial public offerings being floated.[80]

Impact of Mergers and Acquisitions edit

A 2022 article articulated this notion succinctly by saying "In the business of drug development, deals can be just as important as scientific breakthroughs", typically referred to as pharmaceutical M&A (for mergers and acquisitions).[81] It highlighted that some of the most impactful of the remedies of the early 21st Century were only made possible through M&A activities, specifically noting Keytruda and Humira.[81]

Research and development edit

Main articles: Drug discovery and Drug development

Drug discovery is the process by which potential drugs are discovered or designed. In the past, most drugs have been discovered either by isolating the active ingredient from traditional remedies or by serendipitous discovery. Modern biotechnology often focuses on understanding the metabolic pathways related to a disease state or pathogen, and manipulating these pathways using molecular biology or biochemistry. A great deal of early-stage drug discovery has traditionally been carried out by universities and research institutions.

Drug development refers to activities undertaken after a compound is identified as a potential drug in order to establish its suitability as a medication. Objectives of drug development are to determine appropriate formulation and dosing, as well as to establish safety. Research in these areas generally includes a combination of in vitro studies, in vivo studies, and clinical trials. The cost of late stage development has meant it is usually done by the larger pharmaceutical companies.[82] The pharmaceuticals and biotechnology industry spends more than 15% of its net sales for Research & Development which is in comparison with other industries by far the highest share.[83]

Often, large multinational corporations exhibit vertical integration, participating in a broad range of drug discovery and development, manufacturing and quality control, marketing, sales, and distribution. Smaller organizations, on the other hand, often focus on a specific aspect such as discovering drug candidates or developing formulations. Often, collaborative agreements between research organizations and large pharmaceutical companies are formed to explore the potential of new drug substances. More recently, multi-nationals are increasingly relying on contract research organizations to manage drug development.[84]

The cost of innovation edit

Drug discovery and development are very expensive; of all compounds investigated for use in humans only a small fraction are eventually approved in most nations by government-appointed medical institutions or boards, who have to approve new drugs before they can be marketed in those countries. In 2010 18 NMEs (New Molecular Entities) were approved and three biologics by the FDA, or 21 in total, which is down from 26 in 2009 and 24 in 2008. On the other hand, there were only 18 approvals in total in 2007 and 22 back in 2006. Since 2001, the Center for Drug Evaluation and Research has averaged 22.9 approvals a year.[85] This approval comes only after heavy investment in pre-clinical development and clinical trials, as well as a commitment to ongoing safety monitoring. Drugs which fail part-way through this process often incur large costs, while generating no revenue in return. If the cost of these failed drugs is taken into account, the cost of developing a successful new drug (new chemical entity, or NCE), has been estimated at US$1.3 billion[86] (not including marketing expenses). Professors Light and Lexchin reported in 2012, however, that the rate of approval for new drugs has been a relatively stable average rate of 15 to 25 for decades.[87]

Industry-wide research and investment reached a record $65.3 billion in 2009.[88] While the cost of research in the U.S. was about $34.2 billion between 1995 and 2010, revenues rose faster (revenues rose by $200.4 billion in that time).[87]

A study by the consulting firm Bain & Company reported that the cost for discovering, developing and launching (which factored in marketing and other business expenses) a new drug (along with the prospective drugs that fail) rose over a five-year period to nearly $1.7 billion in 2003.[89] According to Forbes, by 2010 development costs were between $4 billion to $11 billion per drug.[90]

Some of these estimates also take into account the opportunity cost of investing capital many years before revenues are realized (see Time-value of money). Because of the very long time needed for discovery, development, and approval of pharmaceuticals, these costs can accumulate to nearly half the total expense. A direct consequence within the pharmaceutical industry value chain is that major pharmaceutical multinationals tend to increasingly outsource risks related to fundamental research, which somewhat reshapes the industry ecosystem with biotechnology companies playing an increasingly important role, and overall strategies being redefined accordingly.[91] Some approved drugs, such as those based on re-formulation of an existing active ingredient (also referred to as Line-extensions) are much less expensive to develop.

Product approval edit

In the United States, new pharmaceutical products must be approved by the Food and Drug Administration (FDA) as being both safe and effective. This process generally involves submission of an Investigational New Drug filing with sufficient pre-clinical data to support proceeding with human trials. Following IND approval, three phases of progressively larger human clinical trials may be conducted. Phase I generally studies toxicity using healthy volunteers. Phase II can include pharmacokinetics and dosing in patients, and Phase III is a very large study of efficacy in the intended patient population. Following the successful completion of phase III testing, a New Drug Application is submitted to the FDA. The FDA reviews the data and if the product is seen as having a positive benefit-risk assessment, approval to market the product in the US is granted.[92]

A fourth phase of post-approval surveillance is also often required due to the fact that even the largest clinical trials cannot effectively predict the prevalence of rare side-effects. Postmarketing surveillance ensures that after marketing the safety of a drug is monitored closely. In certain instances, its indication may need to be limited to particular patient groups, and in others the substance is withdrawn from the market completely.

The FDA provides information about approved drugs at the Orange Book site.[93]

In the UK, the Medicines and Healthcare products Regulatory Agency approves and evaluates drugs for use. Normally an approval in the UK and other European countries comes later than one in the USA. Then it is the National Institute for Health and Care Excellence (NICE), for England and Wales, who decides if and how the National Health Service (NHS) will allow (in the sense of paying for) their use. The British National Formulary is the core guide for pharmacists and clinicians.

In many non-US western countries, a 'fourth hurdle' of cost effectiveness analysis has developed before new technologies can be provided. This focuses on the 'efficacy price tag' (in terms of, for example, the cost per QALY) of the technologies in question. In England and Wales NICE decides whether and in what circumstances drugs and technologies will be made available by the NHS, whilst similar arrangements exist with the Scottish Medicines Consortium in Scotland, and the Pharmaceutical Benefits Advisory Committee in Australia. A product must pass the threshold for cost-effectiveness if it is to be approved. Treatments must represent 'value for money' and a net benefit to society.

Orphan drugs edit

Main article: Orphan drug

There are special rules for certain rare diseases ("orphan diseases") in several major drug regulatory territories. For example, diseases involving fewer than 200,000 patients in the United States, or larger populations in certain circumstances are subject to the Orphan Drug Act.[94] Because medical research and development of drugs to treat such diseases is financially disadvantageous, companies that do so are rewarded with tax reductions, fee waivers, and market exclusivity on that drug for a limited time (seven years), regardless of whether the drug is protected by patents.

Global sales edit

Top 20 drug companies by revenue (2022)[95]
Company Pharma revenue
($ million)
Pfizer   100,330
Johnson & Johnson   94,940
Roche   66,260
Merck & Co   59,280
Abbvie   58,050
Novartis   50,540
Bristol Myers Squibb   46,160
Sanofi   45,220
AstraZeneca  /  44,350
GSK   36,150
Takeda   30,000
Eli Lilly and Company   28,550
Gilead Sciences   27,280
Bayer   26,640
Amgen   26,320
Boehringer Ingelheim   25,280
Novo Nordisk   25,000
Moderna   19,260
Merck KGaA   19,160
BioNTech   18,200

In 2011, global spending on prescription drugs topped $954 billion, even as growth slowed somewhat in Europe and North America. The United States accounts for more than a third of the global pharmaceutical market, with $340 billion in annual sales followed by the EU and Japan.[96] Emerging markets such as China, Russia, South Korea and Mexico outpaced that market, growing a huge 81 percent.[97][98]

The top ten best-selling drugs of 2013 totaled $75.6 billion in sales, with the anti-inflammatory drug Humira being the best-selling drug worldwide at $10.7 billion in sales. The second and third best selling were Enbrel and Remicade, respectively.[99] The top three best-selling drugs in the United States in 2013 were Abilify ($6.3 billion,) Nexium ($6 billion) and Humira ($5.4 billion).[100] The best-selling drug ever, Lipitor, averaged $13 billion annually and netted $141 billion total over its lifetime before Pfizer's patent expired in November 2011.

IMS Health publishes an analysis of trends expected in the pharmaceutical industry in 2007, including increasing profits in most sectors despite loss of some patents, and new 'blockbuster' drugs on the horizon.[101]

Patents and generics edit

Depending on a number of considerations, a company may apply for and be granted a patent for the drug, or the process of producing the drug, granting exclusivity rights typically for about 20 years.[102] However, only after rigorous study and testing, which takes 10 to 15 years on average, will governmental authorities grant permission for the company to market and sell the drug.[103] Patent protection enables the owner of the patent to recover the costs of research and development through high profit margins for the branded drug. When the patent protection for the drug expires, a generic drug is usually developed and sold by a competing company. The development and approval of generics is less expensive, allowing them to be sold at a lower price. Often the owner of the branded drug will introduce a generic version before the patent expires in order to get a head start in the generic market.[104] Restructuring has therefore become routine, driven by the patent expiration of products launched during the industry's "golden era" in the 1990s and companies' failure to develop sufficient new blockbuster products to replace lost revenues.[105]

Prescriptions edit

In the U.S., the value of prescriptions increased over the period of 1995 to 2005 by 3.4 billion annually, a 61 percent increase. Retail sales of prescription drugs jumped 250 percent from $72 billion to $250 billion, while the average price of prescriptions more than doubled from $30 to $68.[106]

Marketing edit

Main article: Pharmaceutical marketing

Advertising is common in healthcare journals as well as through more mainstream media routes. In some countries, notably the US, they are allowed to advertise directly to the general public. Pharmaceutical companies generally employ salespeople (often called 'drug reps' or, an older term, 'detail men') to market directly and personally to physicians and other healthcare providers. In some countries, notably the US, pharmaceutical companies also employ lobbyists to influence politicians. Marketing of prescription drugs in the US is regulated by the federal Prescription Drug Marketing Act of 1987. The pharmaceutical marketing plan incorporates the spending plans, channels, and thoughts which will take the drug association, and its items and administrations, forward in the current scene.

To healthcare professionals edit

The book Bad Pharma also discusses the influence of drug representatives, how ghostwriters are employed by the drug companies to write papers for academics to publish, how independent the academic journals really are, how the drug companies finance doctors' continuing education, and how patients' groups are often funded by industry.[107]

Direct to consumer advertising edit

Main article: Direct-to-consumer advertising

Since the 1980s, new methods of marketing for prescription drugs to consumers have become important. Direct-to-consumer media advertising was legalised in the FDA Guidance for Industry on Consumer-Directed Broadcast Advertisements.

Controversies edit

Drug marketing and lobbying edit

Main articles: Pharmaceutical marketing and Pharmaceutical lobby

There has been increasing controversy surrounding pharmaceutical marketing and influence. There have been accusations and findings of influence on doctors and other health professionals through drug reps including the constant provision of marketing 'gifts' and biased information to health professionals;[108] highly prevalent advertising in journals and conferences; funding independent healthcare organizations and health promotion campaigns; lobbying physicians and politicians (more than any other industry in the US[109]); sponsorship of medical schools or nurse training; sponsorship of continuing educational events, with influence on the curriculum;[110] and hiring physicians as paid consultants on medical advisory boards.

Some advocacy groups, such as No Free Lunch and AllTrials, have criticized the effect of drug marketing to physicians because they say it biases physicians to prescribe the marketed drugs even when others might be cheaper or better for the patient.[111]

There have been related accusations of disease mongering[112] (over-medicalising) to expand the market for medications. An inaugural conference on that subject took place in Australia in 2006.[113] In 2009, the Government-funded National Prescribing Service launched the "Finding Evidence – Recognising Hype" program, aimed at educating GPs on methods for independent drug analysis.[114]

Meta-analyses have shown that psychiatric studies sponsored by pharmaceutical companies are several times more likely to report positive results, and if a drug company employee is involved the effect is even larger.[115][116][117] Influence has also extended to the training of doctors and nurses in medical schools, which is being fought.

It has been argued that the design of the Diagnostic and Statistical Manual of Mental Disorders and the expansion of the criteria represents an increasing medicalization of human nature, or "disease mongering", driven by drug company influence on psychiatry.[118] The potential for direct conflict of interest has been raised, partly because roughly half the authors who selected and defined the DSM-IV psychiatric disorders had or previously had financial relationships with the pharmaceutical industry.[119]

In the US, starting in 2013, under the Physician Financial Transparency Reports (part of the Sunshine Act), the Centers for Medicare & Medicaid Services has to collect information from applicable manufacturers and group purchasing organizations in order to report information about their financial relationships with physicians and hospitals. Data are made public in the Centers for Medicare & Medicaid Services website. The expectation is that relationship between doctors and Pharmaceutical industry will become fully transparent.[120]

In a report conducted by OpenSecrets, there were more than 1,100 lobbyists working in some capacity for the pharmaceutical business in 2017. In the first quarter of 2017, the health products and pharmaceutical industry spent $78 million on lobbying members of the United States Congress.[121]

Medication pricing edit

Further information: Medication costs § Factors

The pricing of pharmaceuticals is becoming a major challenge for health systems.[122] A November 2020 study by the West Health Policy Center stated that more than 1.1 million senior citizens in the U.S. Medicare program are expected to die prematurely over the next decade because they will be unable to afford their prescription medications, requiring an additional $17.7 billion to be spent annually on avoidable medical costs due to health complications.[123]

Regulatory issues edit

Ben Goldacre has argued that regulators – such as the Medicines and Healthcare products Regulatory Agency (MHRA) in the UK, or the Food and Drug Administration (FDA) in the United States – advance the interests of the drug companies rather than the interests of the public due to revolving door exchange of employees between the regulator and the companies and friendships develop between regulator and company employees.[124] He argues that regulators do not require that new drugs offer an improvement over what is already available, or even that they be particularly effective.[124]

Others have argued that excessive regulation suppresses therapeutic innovation and that the current cost of regulator-required clinical trials prevents the full exploitation of new genetic and biological knowledge for the treatment of human disease. A 2012 report by the President's Council of Advisors on Science and Technology made several key recommendations to reduce regulatory burdens to new drug development, including 1) expanding the FDA's use of accelerated approval processes, 2) creating an expedited approval pathway for drugs intended for use in narrowly defined populations, and 3) undertaking pilot projects designed to evaluate the feasibility of a new, adaptive drug approval process.[125]

Pharmaceutical fraud edit

See also: List of largest pharmaceutical settlements in the United States

Pharmaceutical fraud involves deceptions which bring financial gain to a pharmaceutical company. It affects individuals and public and private insurers. There are several different schemes[126] used to defraud the health care system which are particular to the pharmaceutical industry. These include: Good Manufacturing Practice (GMP) Violations, Off Label Marketing, Best Price Fraud, CME Fraud, Medicaid Price Reporting, and Manufactured Compound Drugs.[127] Of this amount $2.5 billion was recovered through False Claims Act cases in FY 2010. Examples of fraud cases include the GlaxoSmithKline $3 billion settlement, Pfizer $2.3 billion settlement and Merck & Co. $650 million settlement. Damages from fraud can be recovered by use of the False Claims Act, most commonly under the qui tam provisions which rewards an individual for being a "whistleblower", or relator (law).[128]

Every major company selling atypical antipsychotics—Bristol-Myers Squibb, Eli Lilly and Company, Pfizer, AstraZeneca and Johnson & Johnson—has either settled recent government cases, under the False Claims Act, for hundreds of millions of dollars or is currently under investigation for possible health care fraud. Following charges of illegal marketing, two of the settlements set records in 2009 for the largest criminal fines ever imposed on corporations. One involved Eli Lilly's antipsychotic Zyprexa, and the other involved Bextra, an anti-inflammatory medication used for arthritis. In the Bextra case, the government also charged Pfizer with illegally marketing another antipsychotic, Geodon; Pfizer settled that part of the claim for $301 million, without admitting any wrongdoing.[129]

On 2 July 2012, GlaxoSmithKline pleaded guilty to criminal charges and agreed to a $3 billion settlement of the largest health-care fraud case in the U.S. and the largest payment by a drug company.[130] The settlement is related to the company's illegal promotion of prescription drugs, its failure to report safety data,[131] bribing doctors, and promoting medicines for uses for which they were not licensed. The drugs involved were Paxil, Wellbutrin, Advair, Lamictal, and Zofran for off-label, non-covered uses. Those and the drugs Imitrex, Lotronex, Flovent, and Valtrex were involved in the kickback scheme.[132][133][134]

The following is a list of the four largest settlements reached with pharmaceutical companies from 1991 to 2012, rank ordered by the size of the total settlement. Legal claims against the pharmaceutical industry have varied widely over the past two decades, including Medicare and Medicaid fraud, off-label promotion, and inadequate manufacturing practices.[135][136]

Company Settlement Violation(s) Year Product(s) Laws allegedly violated
(if applicable)
GlaxoSmithKline[137] $3 billion Off-label promotion/
failure to disclose safety data		 2012 Avandia/Wellbutrin/Paxil False Claims Act/FDCA
Pfizer[138] $2.3 billion Off-label promotion/kickbacks 2009 Bextra/Geodon/
Zyvox/Lyrica		 False Claims Act/FDCA
Abbott Laboratories[139] $1.5 billion Off-label promotion 2012 Depakote False Claims Act/FDCA
Eli Lilly[140] $1.4 billion Off-label promotion 2009 Zyprexa False Claims Act/FDCA

Physician roles edit

In May 2015, the New England Journal of Medicine emphasized the importance of pharmaceutical industry-physician interactions for the development of novel treatments, and argued that moral outrage over industry malfeasance had unjustifiably led many to overemphasize the problems created by financial conflicts of interest. The article noted that major healthcare organizations, such as National Center for Advancing Translational Sciences of the National Institutes of Health, the President's Council of Advisors on Science and Technology, the World Economic Forum, the Gates Foundation, the Wellcome Trust, and the Food and Drug Administration had encouraged greater interactions between physicians and industry in order to improve benefits to patients.[141][142]

Response to COVID-19 edit

In November 2020 several pharmaceutical companies announced successful trials of COVID-19 vaccines, with efficacy of 90 to 95% in preventing infection. Per company announcements and data reviewed by external analysts, these vaccines are priced at $3 to $37 per dose.[143] The Wall Street Journal ran an editorial calling for this achievement to be recognized with a Nobel Peace Prize.[144]

Doctors Without Borders warned that high prices and monopolies on medicines, tests, and vaccines would prolong the pandemic and cost lives. They urged governments to prevent profiteering, using compulsory licenses as needed, as had already been done by Canada, Chile, Ecuador, Germany, and Israel.[145]

On 20 February, 46 US lawmakers called for the US government not to grant monopoly rights when giving out taxpayer development money for any coronavirus vaccines and treatments, to avoid giving exclusive control of prices and availability to private manufacturers.[146]

In the United States the government signed agreements in which research and development and/or the building of manufacturing plants for potential COVID-19 therapeutics was subsidized. Typically, the agreement involved the government taking ownership of a certain number of doses of the product without further payment. For example, under the auspices of Operation Warp Speed in the United States, the government subsidized research related to COVID-19 vaccines and therapeutics at Regeneron,[147] Johnson and Johnson, Moderna, AstraZeneca, Novavax, Pfizer, and GSK. Typical terms involved research subsidies of $400 million to $2 billion, and included government ownership of the first 100 million doses of any COVID-19 vaccine successfully developed.[148]

American pharmaceutical company Gilead sought and obtained orphan drug status for remdesivir from the US Food and Drug Administration (FDA) on 23 March 2020. This provision is intended to encourage the development of drugs affecting fewer than 200,000 Americans by granting strengthened and extended legal monopoly rights to the manufacturer, along with waivers on taxes and government fees.[149][150] Remdesivir is a candidate for treating COVID-19; at the time the status was granted, fewer than 200,000 Americans had COVID-19, but numbers were climbing rapidly as the COVID-19 pandemic reached the US, and crossing the threshold soon was considered inevitable.[149][150] Remdesivir was developed by Gilead with over $79 million in U.S. government funding.[150] In May 2020, Gilead announced that it would provide the first 940,000 doses of remdesivir to the federal government free of charge.[151] After facing strong public reactions, Gilead gave up the "orphan drug" status for remdesivir on 25 March.[152] Gilead retains 20-year remdesivir patents in more than 70 countries.[145] In May 2020, the company further announced that it was in discussions with several generics companies to provide rights to produce remdesivir for developing countries, and with the Medicines Patent Pool to provide broader generic access.[153]

Developing world edit

Patents edit

Patents have been criticized in the developing world, as they are thought[who?] to reduce access to existing medicines.[154] Reconciling patents and universal access to medicine would require an efficient international policy of price discrimination. Moreover, under the TRIPS agreement of the World Trade Organization, countries must allow pharmaceutical products to be patented. In 2001, the WTO adopted the Doha Declaration, which indicates that the TRIPS agreement should be read with the goals of public health in mind, and allows some methods for circumventing pharmaceutical monopolies: via compulsory licensing or parallel imports, even before patent expiration.[155]

In March 2001, 40 multi-national pharmaceutical companies brought litigation against South Africa for its Medicines Act, which allowed the generic production of antiretroviral drugs (ARVs) for treating HIV, despite the fact that these drugs were on-patent.[156] HIV was and is an epidemic in South Africa, and ARVs at the time cost between US$10,000 and US$15,000 per patient per year. This was unaffordable for most South African citizens, and so the South African government committed to providing ARVs at prices closer to what people could afford. To do so, they would need to ignore the patents on drugs and produce generics within the country (using a compulsory license), or import them from abroad. After international protest in favour of public health rights (including the collection of 250,000 signatures by Médecins Sans Frontières), the governments of several developed countries (including The Netherlands, Germany, France, and later the US) backed the South African government, and the case was dropped in April of that year.[157]

In 2016, GlaxoSmithKline (the world's sixth largest pharmaceutical company) announced that it would be dropping its patents in poor countries so as to allow independent companies to make and sell versions of its drugs in those areas, thereby widening the public access to them.[158] GlaxoSmithKline published a list of 50 countries they would no longer hold patents in, affecting one billion people worldwide.

Charitable programs edit

In 2011 four of the top 20 corporate charitable donations and eight of the top 30 corporate charitable donations came from pharmaceutical manufacturers. The bulk of corporate charitable donations (69% as of 2012) comes by way of non-cash charitable donations, the majority of which again were donations contributed by pharmaceutical companies.[159]

Charitable programs and drug discovery & development efforts by pharmaceutical companies include:

  • "Merck's Gift", wherein billions of river blindness drugs were donated in Africa[160]
  • Pfizer's gift of free/discounted fluconazole and other drugs for AIDS in South Africa[161]
  • GSK's commitment to give free albendazole tablets to the WHO for, and until, the elimination of lymphatic filariasis worldwide.
  • In 2006, Novartis committed US$755 million in corporate citizenship initiatives around the world, particularly focusing on improving access to medicines in the developing world through its Access to Medicine projects, including donations of medicines to patients affected by leprosy, tuberculosis, and malaria; Glivec patient assistance programs; and relief to support major humanitarian organisations with emergency medical needs.[162]

See also edit

References edit

  1. ^ McGuire, John L.; Hasskarl, Horst; Bode, Gerd; Klingmann, Ingrid; Zahn, Manuel (2007). "Pharmaceuticals, General Survey". Ullmann's Encyclopedia of Industrial Chemistry. Wiley. doi:10.1002/14356007.a19_273.pub2. ISBN 978-3527306732.
  2. ^ Bozenhardt, Erich H.; Bozenhardt, Herman F. (18 October 2018). "Are You Asking Too Much From Your Filler?". Pharmaceutical Online (Guest column). VertMarkets. from the original on 17 November 2020. Retrieved 30 October 2018. The core mission of the pharmaceutical industry is to manufacture products for patients to cure them, vaccinate them, or alleviate a symptom, often by manufacturing a liquid injectable or an oral solid, among other therapies.
  3. ^ Markets, Research and (31 March 2021). "Global Pharmaceuticals Market Report 2021: Market is Expected to Grow from $1228.45 Billion in 2020 to $1250.24 Billion in 2021 - Long-term Forecast to 2025 & 2030". GlobeNewswire News Room (Press release). from the original on 29 November 2021. Retrieved 29 November 2021.
  4. ^ Multinational corporations including Merck, Hoffman-La Roche, Burroughs-Wellcome (now part of Glaxo Smith Kline), Abbott Laboratories, Eli Lilly and Upjohn (now part of Pfizer) began as local apothecary shops in the mid-1800s.
  5. ^ "Emergence of Pharmaceutical Science and Industry: 1870-1930". Chem Eng News. 83 (25). 20 June 2005. from the original on 10 November 2018. Retrieved 23 July 2022.
  6. ^ Sneader, Walter (31 October 2005). "13 Neurohormones". Drug Discovery: A History. John Wiley & Sons. pp. 155–156. ISBN 978-0-470-01552-0. Retrieved 23 July 2022.
  7. ^ a b Rasmussen, Nicolas (2006). "Making the First Anti-Depressant: Amphetamine in American Medicine, 1929-1950". J Hist Med Allied Sci. 61 (3): 288–323. doi:10.1093/jhmas/jrj039. PMID 16492800. S2CID 24974454.
  8. ^ Rasmussen N (June 2008). "America's First Amphetamine Epidemic 1929–1971". Am J Public Health. 98 (6): 974–985. doi:10.2105/AJPH.2007.110593. PMC 2377281. PMID 18445805.
  9. ^ Yasiry Z, Shorvon SD (December 2012). "How phenobarbital revolutionized epilepsy therapy: the story of phenobarbital therapy in epilepsy in the last 100 years". Epilepsia. 53 (Suppl 8): 26–39. doi:10.1111/epi.12026. PMID 23205960. S2CID 8934654.
  10. ^ López-Muñoz F, Ucha-Udabe R, Alamo C (December 2005). "The history of barbiturates a century after their clinical introduction". Neuropsychiatr Dis Treat. 1 (4): 329–43. PMC 2424120. PMID 18568113.
  11. ^ "Drug Abuse Control Amendments of 1965". NEJM (Editorial). 273 (22): 1222–1223. 25 November 1965. doi:10.1056/NEJM196511252732213. Officers of the Food and Drug Administration, aware of the seriousness of the problem, estimate that approximately half the 9,000,000,000 barbiturate and amphetamine capsules and tablets manufactured annually in this country are diverted to illegal use. The profits to be gained from the illegal sale of these drugs have proved an attraction to organized crime, for amphetamine can be purchased at wholesale for less than $1 per 1000 capsules, but when sold on the illegal market, it brings $30 to $50 per 1000 and when retailed to the individual buyer, a tablet may bring as much as 10 to 25 cents.
  12. ^ "Sedative-Hypnotic Drugs — The Barbiturates — I". NEJM. 255 (24): 1150–1151. 1956. doi:10.1056/NEJM195612132552409. PMID 13378632. The barbiturates, introduced into medicine by E. Fischer and J. von Mering in 1903, are certainly among the most widely used and abused drugs in medicine. Approximately 400 tons of these agents are manufactured each year; this is enough to put approximately 9,000,000 people to sleep each night for that period if each were given a 0.1-gm. dose
  13. ^ Rosenfeld L (December 2002). "Insulin: discovery and controversy". Clin Chem. 48 (12): 2270–88. doi:10.1093/clinchem/48.12.2270. PMID 12446492.
  14. ^ "Leading Causes of Death, 1900-1998" (PDF). CDC.gov. (PDF) from the original on 13 December 2020. Retrieved 23 July 2022.
  15. ^ Anderson, Robert N. (13 December 1999). (PDF). National Vital Statistics Reports. 47 (28): 1–37. PMID 10635683. Archived from the original (PDF) on 25 October 2020. Retrieved 23 July 2022.
  16. ^ Sepkowitz, Kent A. (July 2011). "One hundred years of Salvarsan". N. Engl. J. Med. (Perspective). 365 (4): 291–3. doi:10.1056/NEJMp1105345. PMID 21793743.
  17. ^ Williams, KJ (1 August 2009). "The introduction of 'chemotherapy' using arsphenamine – the first magic bullet". J. R. Soc. Med. 102 (8): 343–348. doi:10.1258/jrsm.2009.09k036. ISSN 0141-0768. PMC 2726818. PMID 19679737.
  18. ^ Aminov, Rustam I. (8 December 2010). "A brief history of the antibiotic era: lessons learned and challenges for the future". Front. Microbiol. 1: 134. doi:10.3389/fmicb.2010.00134. PMC 3109405. PMID 21687759.
  19. ^ Hager, Thomas (2006). The Demon Under the Microscope (1st ed.). New York: Harmony Books. ISBN 978-1-4000-8213-1.
  20. ^ "All Nobel Prizes in Physiology or Medicine". The Nobel Prize. Retrieved 22 July 2022.
  21. ^ Cutler, David M.; Meara, Ellen (October 2001). Changes in the Age Distribution of Mortality Over the 20th Century (PDF) (Report). National Bureau of Economic Research. doi:10.3386/w8556. Retrieved 23 July 2022.
  22. ^ a b Klein, Herbert (2012). A Population History of the United States. Cambridge University Press. p. 167.
  23. ^ Parascandola, John (1980). The History of antibiotics: a symposium. American Institute of the History of Pharmacy No. 5. ISBN 978-0-931292-08-8.
  24. ^ "Diphtheria — Timelines — History of Vaccines". from the original on 14 May 2016. Retrieved 24 February 2022.
  25. ^ Ii, Thomas H. Maugh (13 April 2005). "Maurice R. Hilleman, 85; Scientist Developed Many Vaccines That Saved Millions of Lives - Los Angeles Times". Los Angeles Times. Archived from the original on 7 November 2014.
  26. ^ "Significant Dates in U.S. Food and Drug Law History". Food and Drug Administration. from the original on 6 March 2013. Retrieved 16 December 2019.
  27. ^ "FDAReview.org, a project of The Independent Institute". from the original on 2 December 2015. Retrieved 24 February 2022.
  28. ^ "Sulfanilamide Disaster". Food and Drug Administration. from the original on 25 November 2020. Retrieved 16 December 2019.
  29. ^ "FDA History - Part II". Food and Drug Administration. from the original on 1 January 2018. Retrieved 16 December 2019.
  30. ^ Zaffiri L, Gardner J, Toledo-Pereyra LH (April 2012). "History of antibiotics. From salvarsan to cephalosporins". J Invest Surg. 25 (2): 67–77. doi:10.3109/08941939.2012.664099. PMID 22439833. S2CID 30538825.
  31. ^ Hamilton-Miller JM (March 2008). "Development of the semi-synthetic penicillins and cephalosporins". Int. J. Antimicrob. Agents. 31 (3): 189–92. doi:10.1016/j.ijantimicag.2007.11.010. PMID 18248798.
  32. ^ Abraham EP (1987). "Cephalosporins 1945-1986". Drugs. 34 Suppl 2 (Supplement 2): 1–14. doi:10.2165/00003495-198700342-00003. PMID 3319494. S2CID 12014890.
  33. ^ a b Kingston W (July 2004). "Streptomycin, Schatz v. Waksman, and the balance of credit for discovery". J Hist Med Allied Sci. 59 (3): 441–62. doi:10.1093/jhmas/jrh091. PMID 15270337. S2CID 27465970.
  34. ^ Nelson ML, Levy SB (December 2011). "The history of the tetracyclines". Ann. N. Y. Acad. Sci. 1241 (1): 17–32. Bibcode:2011NYASA1241...17N. doi:10.1111/j.1749-6632.2011.06354.x. PMID 22191524. S2CID 34647314.
  35. ^ "ERYTHROMYCIN". Br Med J. 2 (4793): 1085–6. November 1952. doi:10.1136/bmj.2.4793.1085. PMC 2022076. PMID 12987755.
  36. ^ Anderson, Rosaleen (2012). Antibacterial agents chemistry, mode of action, mechanisms of resistance, and clinical applications. Oxford: WiBlackwell. ISBN 9780470972458.
  37. ^ Federal Trade Commission Report of Antibiotics Manufacture, June 1958 (Washington D.C., Government Printing Office, 1958) pages 98-120
  38. ^ Federal Trade Commission Report of Antibiotics Manufacture, June 1958 (Washington D.C., Government Printing Office, 1958) page 277
  39. ^ Anderson, Robert N. (13 December 1999). "United States Life Tables, 1997" (PDF). National Vital Statistics Reports: From the Centers for Disease Control and Prevention, National Center for Health Statistics, National Vital Statistics System. 47 (28): 1–37. PMID 10635683. (PDF) from the original on 25 October 2020. Retrieved 8 September 2017.
  40. ^ Cutler, David; Meara, Ellen (October 2001). "Changes in the Age Distribution of Mortality Over the 20th Century" (PDF). NBER Working Paper No. 8556. doi:10.3386/w8556. (PDF) from the original on 30 July 2020. Retrieved 24 February 2022.
  41. ^ SWEET BH, HILLEMAN MR (November 1960). "The vacuolating virus, S.V. 40". Proc. Soc. Exp. Biol. Med. 105 (2): 420–7. doi:10.3181/00379727-105-26128. PMID 13774265. S2CID 38744505.
  42. ^ Shah K, Nathanson N (January 1976). "Human exposure to SV40: review and comment". Am. J. Epidemiol. 103 (1): 1–12. doi:10.1093/oxfordjournals.aje.a112197. PMID 174424.
  43. ^ . Archived from the original on 28 October 2014.
  44. ^ "History of Vaccines — A Vaccine History Project of The College of Physicians of Philadelphia". from the original on 19 February 2022. Retrieved 24 February 2022.
  45. ^ "Prevention of Measles, Rubella, Congenital Rubella Syndrome, and Mumps, 2013". from the original on 10 November 2014. Retrieved 8 September 2017.
  46. ^ Bloch AB, Orenstein WA, Stetler HC, et al. (1985). "Health impact of measles vaccination in the United States". Pediatrics. 76 (4): 524–32. doi:10.1542/peds.76.4.524. PMID 3931045. S2CID 6512947.
  47. ^ Insull W (January 2009). "The pathology of atherosclerosis: plaque development and plaque responses to medical treatment". The American Journal of Medicine. 122 (1 Suppl): S3–S14. doi:10.1016/j.amjmed.2008.10.013. PMID 19110086.
  48. ^ Gaddam KK, Verma A, Thompson M, Amin R, Ventura H (May 2009). "Hypertension and cardiac failure in its various forms". The Medical Clinics of North America. 93 (3): 665–80. doi:10.1016/j.mcna.2009.02.005. PMID 19427498. Retrieved 20 June 2009.
  49. ^ Agabiti-Rosei E (September 2008). "From macro- to microcirculation: benefits in hypertension and diabetes". Journal of Hypertension. 26 (Suppl 3): S15–21. doi:10.1097/01.hjh.0000334602.71005.52. PMID 19363848.
  50. ^ Murphy BP, Stanton T, Dunn FG (May 2009). "Hypertension and myocardial ischemia". The Medical Clinics of North America. 93 (3): 681–95. doi:10.1016/j.mcna.2009.02.003. PMID 19427499. Retrieved 20 June 2009.
  51. ^ White WB (May 2009). "Defining the problem of treating the patient with hypertension and arthritis pain". The American Journal of Medicine. 122 (5 Suppl): S3–9. doi:10.1016/j.amjmed.2009.03.002. PMID 19393824.
  52. ^ Truong LD, Shen SS, Park MH, Krishnan B (February 2009). "Diagnosing nonneoplastic lesions in nephrectomy specimens". Archives of Pathology & Laboratory Medicine. 133 (2): 189–200. doi:10.5858/133.2.189. PMID 19195963. Retrieved 20 June 2009.
  53. ^ Tracy RE, White S (February 2002). "A method for quantifying adrenocortical nodular hyperplasia at autopsy: some use of the method in illuminating hypertension and atherosclerosis". Annals of Diagnostic Pathology. 6 (1): 20–9. doi:10.1053/adpa.2002.30606. PMID 11842376.
  54. ^ Aronow WS (August 2008). "Hypertension and the older diabetic". Clinics in Geriatric Medicine. 24 (3): 489–501, vi–vii. doi:10.1016/j.cger.2008.03.001. PMID 18672184. Retrieved 20 June 2009.
  55. ^ Gardner AW, Afaq A (2008). "Management of Lower Extremity Peripheral Arterial Disease". Journal of Cardiopulmonary Rehabilitation and Prevention. 28 (6): 349–57. doi:10.1097/HCR.0b013e31818c3b96. PMC 2743684. PMID 19008688.
  56. ^ Novo S, Lunetta M, Evola S, Novo G (January 2009). "Role of ARBs in the blood hypertension therapy and prevention of cardiovascular events". Current Drug Targets. 10 (1): 20–5. doi:10.2174/138945009787122897. PMID 19149532. Archived from the original on 12 January 2013. Retrieved 20 June 2009.
  57. ^ Craig WM (1939). "Surgical Treatment of Hypertension". Br Med J. 2 (4120): 1215–9. doi:10.1136/bmj.2.4120.1215. PMC 2178707. PMID 20782854.
  58. ^ Sneader, Walter (2005). Drug Discovery. A History. New York: Wiley. p. 371.
  59. ^ Beyer KH (1993). "Chlorothiazide. How the thiazides evolved as antihypertensive therapy". Hypertension. 22 (3): 388–91. doi:10.1161/01.hyp.22.3.388. PMID 8349332.
  60. ^ BORHANI NO, HECHTER HH (1964). "Recent Changes in CVR Disease Mortality in California: An Epidemiologic Appraisal". Public Health Rep. 79 (2): 147–60. doi:10.2307/4592077. JSTOR 4592077. PMC 1915335. PMID 14119789.
  61. ^ "The Lasker Foundation - Awards". from the original on 23 December 2015. Retrieved 24 February 2022.
  62. ^ Wright, James M.; Musini, Vijaya M.; Gill, Rupam (18 April 2018). "First-line drugs for hypertension". The Cochrane Database of Systematic Reviews. 2018 (4): CD001841. doi:10.1002/14651858.CD001841.pub3. ISSN 1469-493X. PMC 6513559. PMID 29667175.
  63. ^ Stason WB, Cannon PJ, Heinemann HO, Laragh JH (November 1966). "Furosemide. A clinical evaluation of its diuretic action". Circulation. 34 (5): 910–20. doi:10.1161/01.cir.34.5.910. PMID 5332332. S2CID 886870.
  64. ^ Black JW, Crowther AF, Shanks RG, Smith LH, Dornhorst AC (1964). "A new adrenergic betareceptor antagonist". The Lancet. 283 (7342): 1080–1081. doi:10.1016/S0140-6736(64)91275-9. PMID 14132613.
  65. ^ Lv J, Perkovic V, Foote CV, Craig ME, Craig JC, Strippoli GF (2012). "Antihypertensive agents for preventing diabetic kidney disease". Cochrane Database Syst Rev. 12: CD004136. doi:10.1002/14651858.CD004136.pub3. PMID 23235603.
  66. ^ "A brief history of the birth control pill - The pill timeline | Need to Know | PBS". PBS. 7 May 2010. from the original on 19 January 2018. Retrieved 8 September 2017.
  67. ^ Magazine, Smithsonian. "Why the Oral Contraceptive Is Just Known as "The Pill"". Smithsonian Magazine. smithsonianmag.com. from the original on 28 April 2021. Retrieved 24 February 2022.
  68. ^ "BBC News | HEALTH | A short history of the pill". from the original on 6 July 2021. Retrieved 24 February 2022.
  69. ^ "FDA's Approval of the First Oral Contraceptive, Enovid". Food and Drug Administration. from the original on 23 July 2017. Retrieved 16 December 2019.
  70. ^ Cafe, Rebecca (4 December 2011). "BBC News - How the contraceptive pill changed Britain". BBC News. from the original on 16 June 2019. Retrieved 21 June 2018.
  71. ^ "Brochure: The History of Drug Regulation in the United States". Food and Drug Administration. from the original on 23 July 2017. Retrieved 16 December 2019.
  72. ^ Tobert, Jonathan A. (July 2003). "Lovastatin and beyond: the history of the HMG-CoA reductase inhibitors". Nature Reviews Drug Discovery. 2 (7): 517–526. doi:10.1038/nrd1112. ISSN 1474-1776. PMID 12815379. S2CID 3344720.
  73. ^ Endo A (1 November 1992). "The discovery and development of HMG-CoA reductase inhibitors". Journal of Lipid Research. 33 (11): 1569–82. doi:10.1016/S0022-2275(20)41379-3. PMID 1464741.
  74. ^ Endo, Akira (2004). "The origin of the statins". International Congress Series. 1262: 3–8. doi:10.1016/j.ics.2003.12.099.
  75. ^ Scandinaviansimvastatinsurvival (November 1994). "Randomised trial of cholesterol lowering in 4444 patients with coronary heart disease: the Scandinavian Simvastatin Survival Study (4S)". Lancet. 344 (8934): 1383–9. doi:10.1016/S0140-6736(94)90566-5. PMID 7968073. S2CID 5965882.
  76. ^ "National Inventors Hall of Fame Honors 2012 Inductees". PRNewswire. from the original on 12 May 2014. Retrieved 11 May 2014.
  77. ^ "How One Scientist Intrigued by Molds Found First Statin". Wall Street Journal. from the original on 24 February 2022. Retrieved 11 May 2014.
  78. ^ "Top Global Pharmaceutical Company Report - The Pharma 1000" (PDF). Torreya. Retrieved 19 August 2022.
  79. ^ "Top Global Pharmaceutical Company Report" (PDF). The Pharma 1000. November 2021. Retrieved 29 December 2022.
  80. ^ a b Alvarado, Delilah; Pagliarulo, Ned (8 January 2024). "Year of biotech layoffs leaves industry looking for spark". BioPharma Dive. Retrieved 10 January 2024.
  81. ^ a b Bell, Jacob (20 December 2022). "Biotech M&A is picking back up. Here are the latest deal". BiopharmaDive. from the original on 24 December 2022. Retrieved 23 December 2022.
  82. ^ "Annual Impact Report". Tufts Center for the Study of Drug Development. from the original on 3 February 2022. Retrieved 24 February 2022.
  83. ^ "The Pharmaceutical Industry in Figures Key Data 2021" (PDF). European Federation of Pharmaceutical Industries and Associations. Retrieved 30 April 2022.
  84. ^ Outsourcing-Pharma.com (25 May 2011). "Pfizer teams with Parexel and Icon in CRO sector's latest strategic deals". Outsourcing-Pharma.com. from the original on 11 October 2013. Retrieved 24 February 2022.
  85. ^ . pharmalot.com. Archived from the original on 8 May 2011. Retrieved 23 April 2011.
  86. ^ . Archived from the original on 20 July 2011. Retrieved 24 November 2006.
  87. ^ a b Perry, Susan (8 August 2012). "Donald Light and Joel Lexchin in BMJ 2012;345:e4348, quoted in: Big Pharma's claim of an 'innovation crisis' is a myth, BMJ authors say". MinnPost. from the original on 11 August 2012. Retrieved 8 August 2012.
  88. ^ . Archived from the original on 4 January 2013. Retrieved 23 April 2011.
  89. ^ "Has the Pharmaceutical Blockbuster Model Gone Bust?". bain.com. from the original on 24 March 2016. Retrieved 19 May 2016.
  90. ^ Harper, Matthew (10 February 2012). "The Truly Staggering Cost Of Inventing New Drugs". Forbes. from the original on 9 December 2020. Retrieved 8 September 2017.
  91. ^ IMS Health (18 June 2015). . Portal of Competitive Intelligence. Archived from the original on 30 June 2015. Retrieved 27 June 2015.
  92. ^ Liberti L, McAuslane JN, Walker S (2011). . Pharm Med. 25 (3): 139–46. doi:10.1007/BF03256855. S2CID 45729390. Archived from the original on 6 February 2012. Retrieved 18 October 2011.
  93. ^ "Electronic Orange Book". U.S. Food and Drug Administration. from the original on 7 April 2020. Retrieved 31 May 2007.
  94. ^ "The Orphan Drug Act (as amended)". U.S. Food and Drug Administration. from the original on 7 April 2020. Retrieved 24 September 2007.
  95. ^ "The top 20 pharma companies by 2022 revenue".
  96. ^ (PDF). Archived from the original (PDF) on 11 August 2016. Retrieved 24 March 2008.
  97. ^ Herper, Matthew & Kang, Peter (22 March 2006). . Forbes. Archived from the original on 5 May 2006. Retrieved 31 May 2007.
  98. ^ . IMS Health. Archived from the original (PDF) on 10 May 2020. Retrieved 23 February 2022.
  99. ^ Kollewe, Julia (27 March 2014). "World's 10 bestselling prescription drugs made $75bn last year". the Guardian. from the original on 7 April 2020. Retrieved 12 December 2016.
  100. ^ "Top 100 Drugs for 2013 by Sales - U.S. Pharmaceutical Statistics". from the original on 31 March 2014. Retrieved 23 January 2018.
  101. ^ "IMS Health Forecasts 5 to 6 Percent Growth for Global Pharmaceutical Market in 2007". IMS Health. 24 October 2006. from the original on 3 May 2011. Retrieved 19 June 2007.
  102. ^ Frequently Asked Questions (FAQs) 25 February 2013 at the Wayback Machine
  103. ^ (PDF). March 2007. Archived from the original (PDF) on 28 February 2008. Retrieved 23 February 2008.
  104. ^ (PDF). IMS Consulting. June 2006. Archived from the original (PDF) on 28 February 2008. Retrieved 23 February 2008.
  105. ^ "Sanofi Laying Off 1,700 in US". Drug Discovery & Development. from the original on 11 September 2011. Retrieved 24 February 2022.
  106. ^ "2007 Health and Nutrition - Census" (PDF). U.S. Census Bureau. (PDF) from the original on 31 July 2020. Retrieved 19 May 2016.
  107. ^ Goldacre, Ben (2014). Bad pharma: how drug companies mislead doctors and harm patients (First American Paperback ed.). Macmillan. ISBN 9780865478060.
  108. ^ Kaufman, Marc (6 May 2005). "Merck CEO Resigns as Drug Probe Continues". Washington Post. from the original on 9 November 2020. Retrieved 23 May 2007.
  109. ^ . publicintegrity.org. 7 July 2005. Archived from the original on 9 June 2007. Retrieved 23 May 2007.
  110. ^ Moynihan, R. (29 May 2003). "Drug company sponsorship of education could be replaced at a fraction of its cost". BMJ. 326 (7400): 1163. doi:10.1136/bmj.326.7400.1163. PMC 1126044. PMID 12775595.
  111. ^ "Dr. No Free Lunch". Mother Jones. from the original on 16 November 2020. Retrieved 19 May 2016.
  112. ^ Moynihan, Ray; Cassels, Alan (2005). Selling Sickness: How the Drug Companies are Turning Us All into Patients. Crows Nest, N.S.W.: Allen & Unwin. ISBN 978-1-74114-579-3.
  113. ^ . Public Library of Science. Archived from the original on 7 June 2007. Retrieved 23 May 2007.
  114. ^ . literated.com. Archived from the original on 19 January 2016. Retrieved 17 January 2016.
  115. ^ Buchkowsky, SS; Jewesson, PJ (April 2004). "Industry sponsorship and authorship of clinical trials over 20 years". Ann Pharmacother. 38 (4): 579–85. doi:10.1345/aph.1D267. PMID 14982982. S2CID 43544256.
  116. ^ Perlis RH, Perlis CS, Wu Y, Hwang C, Joseph M, Nierenberg AA (October 2005). "Industry sponsorship and financial conflict of interest in the reporting of clinical trials in psychiatry". Am J Psychiatry. 162 (10): 1957–60. doi:10.1176/appi.ajp.162.10.1957. PMID 16199844.
  117. ^ Tungaraza, T; Poole, R (July 2007). "Influence of drug company authorship and sponsorship on drug trial outcomes". Br J Psychiatry. 191 (1): 82–3. doi:10.1192/bjp.bp.106.024547. PMID 17602130.
  118. ^ Healy, D (2006). "The Latest Mania: Selling Bipolar Disorder". PLOS Med. 3 (4): e185. doi:10.1371/journal.pmed.0030185. PMC 1434505. PMID 16597178.
  119. ^ Cosgrove, Lisa; Krimsky, Sheldon; Vijayaraghavan, Manisha; Schneider, Lisa (2006). "Financial Ties between DSM-IV Panel Members and the Pharmaceutical Industry". Psychotherapy and Psychosomatics. 75 (3): 154–160. doi:10.1159/000091772. PMID 16636630. S2CID 11909535.
  120. ^ "Open Payments". February 2019. from the original on 22 February 2022. Retrieved 24 February 2022.
  121. ^ Lipton, Eric; Thomas, Katie (29 May 2017). "Drug Lobbyists' Battle Cry Over Prices: Blame the Others". New York Times. from the original on 20 November 2020. Retrieved 30 May 2017.
  122. ^ Morgan, Steven G.; Bathula, Hannah S.; Moon, Suerie (2020). "Pricing of pharmaceuticals is becoming a major challenge for health systems". BMJ. 368: l4627. doi:10.1136/bmj.l4627. PMID 31932289. S2CID 210192662. from the original on 27 November 2020. Retrieved 14 November 2020.
  123. ^ "High Drug Prices and Patient Costs: Millions of Lives and Billions of Dollars Lost". www.cidsa.org. West Health Council for Informed Drug Spending Analysis. 18 November 2020. Retrieved 20 February 2023.
  124. ^ a b Goldacre, Ben (2014). Bad pharma: how drug companies mislead doctors and harm patients (First American Paperback ed.). Macmillan. pp. 123–124. ISBN 9780865478060.
  125. ^ "Archived copy" (PDF). Office of Science and Technology Policy. (PDF) from the original on 21 January 2017. Retrieved 1 March 2021 – via National Archives.{{cite web}}: CS1 maint: archived copy as title (link)
  126. ^ "Financial Crimes to the Public Report 2006". FBI. 2006. from the original on 29 May 2016. Retrieved 28 July 2016.
  127. ^ "FBI-Health Care Fraud". FBI. from the original on 2 July 2016. Retrieved 28 July 2016.
  128. ^ "Department of Justice". Department of Justice. 19 March 2015. from the original on 9 November 2014. Retrieved 22 November 2020.
  129. ^ Wilson, Duff (2 October 2010). "Side Effects May Include Lawsuits". The New York Times. from the original on 23 June 2017. Retrieved 25 February 2017.
  130. ^ "GlaxoSmithKline". BBC News. 4 July 2012. from the original on 17 November 2020. Retrieved 21 June 2018.
  131. ^ "GlaxoSmithKline Agrees to Pay $3 Billion in U.S. Drug Settlement". Bloomberg. 2 July 2012. from the original on 14 May 2014. Retrieved 11 March 2017.
  132. ^ Mogul, Fred (2 July 2012). . WNYC. Archived from the original on 19 April 2013. Retrieved 2 July 2012.
  133. ^ "BBC News -GlaxoSmithKline to pay $3bn in US drug fraud scandal". BBC Online. 2 July 2012. from the original on 17 November 2020. Retrieved 2 July 2012.
  134. ^ Thomas, Katie & Schmidt, Michael S. (2 July 2012). "Glaxo Agrees to Pay $3 Billion in Fraud Settlement". The New York Times. from the original on 2 March 2017. Retrieved 3 July 2012.
  135. ^ . citizen.org. Archived from the original on 16 May 2016. Retrieved 19 May 2016.
  136. ^ Thomas, Katie; Schmidt, Michael S. (2 July 2012). "GlaxoSmithKline Agrees to Pay $3 Billion in Fraud Settlement". The New York Times. from the original on 12 November 2020. Retrieved 25 February 2017.
  137. ^ "GlaxoSmithKline to Plead Guilty and Pay $3 Billion to Resolve Fraud Allegations and Failure to Report Safety Data". 2 July 2012. from the original on 9 September 2014. Retrieved 22 November 2020.
  138. ^ "JUSTICE DEPARTMENT ANNOUNCES LARGEST HEALTH CARE FRAUD" (PDF). US department of Justice. (PDF) from the original on 2 December 2020. Retrieved 19 May 2016.
  139. ^ "Abbott Labs to Pay $1.5 Billion to Resolve Criminal & Civil Investigations of Off-label Promotion of Depakote". 7 May 2012. from the original on 21 August 2014. Retrieved 22 November 2020.
  140. ^ "#09-038: Eli Lilly and Company Agrees to Pay $1.415 Billion to Resolve Allegationsof Off-label Promotion of Zyprexa (2009-01-15)". from the original on 13 March 2016. Retrieved 22 November 2020.
  141. ^ Drazen, Jeffrey M. (2015). "Revisiting the Commercial–Academic Interface". New England Journal of Medicine. 372 (19): 1853–1854. doi:10.1056/NEJMe1503623. PMID 25946285.
  142. ^ Rosenbaum, Lisa (2015). "Reconnecting the Dots — Reinterpreting Industry–Physician Relations". New England Journal of Medicine. 372 (19): 1860–1864. doi:10.1056/NEJMms1502493. PMID 25946288.
  143. ^ "Covid vaccine front-runners: How much they cost, who's bought them and how they're stored". CNBC. 17 November 2020. from the original on 1 December 2020. Retrieved 2 December 2020.
  144. ^ Henninger, Daniel (2 December 2020). "Opinion | Pharma Deserves the Nobel Peace Prize for the Covid Vaccines". Wall Street Journal. from the original on 3 February 2021. Retrieved 4 December 2020.
  145. ^ a b "No profiteering on COVID-19 drugs and vaccines, says MSF". Médecins Sans Frontières (MSF) International. from the original on 26 November 2021. Retrieved 22 April 2020.
  146. ^ Mazzucato, Mariana; Momenghalibaf, Azzi (18 March 2020). "Drug Companies Will Make a Killing From Coronavirus". The New York Times. from the original on 23 November 2020. Retrieved 22 April 2020.
  147. ^ . 6 July 2020. Archived from the original on 18 December 2020. Retrieved 2 December 2020.
  148. ^ "COVID-19 Vaccines". 12 December 2020. from the original on 19 December 2020. Retrieved 2 December 2020.
  149. ^ a b Lupkin, Sydney (24 March 2020). "FDA Grants Experimental Coronavirus Drug Benefits For Rare Disease Treatments". NPR. from the original on 14 December 2020. Retrieved 24 March 2020.
  150. ^ a b c Conley, Julia (24 March 2020). "'This Is a Massive Scandal': Trump FDA Grants Drug Company Exclusive Claim on Promising Coronavirus Drug". Common Dreams. from the original on 8 December 2020. Retrieved 22 April 2020.
  151. ^ Boodman, Eric (18 May 2020). "Gilead ups its donation of the Covid-19 drug remdesivir for U.S. hospitals". statnews.com. from the original on 20 December 2020. Retrieved 19 July 2020.
  152. ^ Lawson, Alex (25 March 2020). "Don't Let Big Pharma Make a Killing by Profiteering Off COVID-19 Treatments". Common Dreams. from the original on 9 November 2020. Retrieved 22 April 2020.
  153. ^ "Gilead Sciences Statement on Expanding Global Supply of Investigational Antiviral Remdesivir | Gilead". from the original on 11 December 2020. Retrieved 16 July 2020.
  154. ^ See for example: 't Hoen, Ellen. "TRIPS, Pharmaceutical Patents, and Access to Essential Medicines: A Long Way from Seattle to Doha". Chicago Journal of International Law, 27(43), 2002; Musungu, Sisule F., and Cecilia Oh. "The Use of Flexibilities in TRIPS by Developing Countries: Can They Provide Access to Medicines?" Commission on Intellectual Property Rights, Innovation and Public Health, The World Health Organization, 2005.
  155. ^ "Declaration on the TRIPS agreement and public health". World Trade Organization. from the original on 20 June 2016. Retrieved 19 May 2016.
  156. ^ Pharmaceutical Manufacturer's Association v. The President of South Africa (PMA), 2002 (2) SA 674 (CC) (S. Africa).
  157. ^ Helfer, Laurence R.; Austin, Graeme W. (7 March 2011). Human Rights and Intellectual Property: Mapping the Global Interface. Cambridge University Press. pp. 145–148. ISBN 978-1-139-49691-9. from the original on 16 November 2020. Retrieved 28 July 2016.
  158. ^ "GlaxoSmithKline to 'drop patents in poor countries for better drug access'". BBC News. from the original on 9 November 2020. Retrieved 19 May 2016.
  159. ^ "Bumper Year for Corporate Donations Reveals Profit Motives". corpwatch.org. from the original on 11 November 2017. Retrieved 24 February 2022.
  160. ^ . Archived from the original on 26 August 2006. Retrieved 30 August 2006.
  161. ^ . Archived from the original on 24 October 2010. Retrieved 30 August 2006.
  162. ^ "Corporate Responsibility: Novartis". novartis.com. from the original on 1 September 2017. Retrieved 19 May 2016.

External links edit

February 16, 2024
pharmaceutical, industry, pharmaceutical, industry, industry, medicine, that, discovers, develops, produces, markets, pharmaceutical, drugs, medications, administered, patients, self, administered, with, cure, prevent, diseases, alleviate, symptoms, pharmaceut. The pharmaceutical industry is an industry in medicine that discovers develops produces and markets pharmaceutical drugs for use as medications to be administered to patients or self administered with the aim to cure and prevent diseases or alleviate symptoms 1 2 Pharmaceutical companies may deal in generic or brand medications and medical devices They are subject to a variety of laws and regulations that govern the patenting testing safety efficacy using drug testing and marketing of drugs The global pharmaceuticals market produced treatments worth 1 228 45 billion in 2020 and showed a compound annual growth rate CAGR of 1 8 3 A drug manufacturer inspection by the US Food and Drug Administration Contents 1 History 1 1 Mid 1800s 1945 From botanicals to the first synthetic drugs 1 1 1 Epinephrine norepinephrine and amphetamine 1 1 2 Discovery and development of the barbiturates 1 1 3 Insulin 1 1 4 Early anti infective research Salvarsan Prontosil Penicillin and vaccines 1 1 5 Unsafe drugs and early industry regulation 1 2 The post war years 1945 1970 1 2 1 Further advances in anti infective research 1 2 2 Development and marketing of antihypertensive drugs 1 2 3 Oral Contraceptives 1 2 4 Thalidomide and the Kefauver Harris Amendments 1 3 1970 1990s 1 3 1 Statins 1 4 21st Century 1 5 Impact of Mergers and Acquisitions 2 Research and development 2 1 The cost of innovation 3 Product approval 3 1 Orphan drugs 4 Global sales 4 1 Patents and generics 4 2 Prescriptions 5 Marketing 5 1 To healthcare professionals 5 2 Direct to consumer advertising 6 Controversies 6 1 Drug marketing and lobbying 6 2 Medication pricing 6 3 Regulatory issues 6 4 Pharmaceutical fraud 6 5 Physician roles 6 6 Response to COVID 19 7 Developing world 7 1 Patents 7 2 Charitable programs 8 See also 9 References 10 External linksHistory editMain article History of pharmacy Mid 1800s 1945 From botanicals to the first synthetic drugs edit The modern era of pharmaceutical industry began with local apothecaries that expanded from their traditional role of distributing botanical drugs such as morphine and quinine to wholesale manufacture in the mid 1800s and from discoveries resulting from applied research Intentional drug discovery from plants began with the isolation between 1803 and 1805 of morphine an analgesic and sleep inducing agent from opium by the German apothecary assistant Friedrich Serturner who named this compound after the Greek god of dreams Morpheus 4 By the late 1880s German dye manufacturers had perfected the purification of individual organic compounds from tar and other mineral sources and had also established rudimentary methods in organic chemical synthesis 5 The development of synthetic chemical methods allowed scientists to systematically vary the structure of chemical substances and growth in the emerging science of pharmacology expanded their ability to evaluate the biological effects of these structural changes Epinephrine norepinephrine and amphetamine edit By the 1890s the profound effect of adrenal extracts on many different tissue types had been discovered setting off a search both for the mechanism of chemical signalling and efforts to exploit these observations for the development of new drugs The blood pressure raising and vasoconstrictive effects of adrenal extracts were of particular interest to surgeons as hemostatic agents and as treatment for shock and a number of companies developed products based on adrenal extracts containing varying purities of the active substance In 1897 John Abel of Johns Hopkins University identified the active principle as epinephrine which he isolated in an impure state as the sulfate salt Industrial chemist Jōkichi Takamine later developed a method for obtaining epinephrine in a pure state and licensed the technology to Parke Davis Parke Davis marketed epinephrine under the trade name Adrenalin Injected epinephrine proved to be especially efficacious for the acute treatment of asthma attacks and an inhaled version was sold in the United States until 2011 Primatene Mist 6 7 By 1929 epinephrine had been formulated into an inhaler for use in the treatment of nasal congestion While highly effective the requirement for injection limited the use of epinephrine clarification needed and orally active derivatives were sought A structurally similar compound ephedrine was identified by Japanese chemists in the Ma Huang plant and marketed by Eli Lilly as an oral treatment for asthma Following the work of Henry Dale and George Barger at Burroughs Wellcome academic chemist Gordon Alles synthesized amphetamine and tested it in asthma patients in 1929 The drug proved to have only modest anti asthma effects but produced sensations of exhilaration and palpitations Amphetamine was developed by Smith Kline and French as a nasal decongestant under the trade name Benzedrine Inhaler Amphetamine was eventually developed for the treatment of narcolepsy post encephalitic parkinsonism and mood elevation in depression and other psychiatric indications It received approval as a New and Nonofficial Remedy from the American Medical Association for these uses in 1937 8 and remained in common use for depression until the development of tricyclic antidepressants in the 1960s 7 Discovery and development of the barbiturates edit nbsp Diethylbarbituric acid was the first marketed barbiturate It was sold by Bayer under the trade name Veronal In 1903 Hermann Emil Fischer and Joseph von Mering disclosed their discovery that diethylbarbituric acid formed from the reaction of diethylmalonic acid phosphorus oxychloride and urea induces sleep in dogs The discovery was patented and licensed to Bayer pharmaceuticals which marketed the compound under the trade name Veronal as a sleep aid beginning in 1904 Systematic investigations of the effect of structural changes on potency and duration of action led to the discovery of phenobarbital at Bayer in 1911 and the discovery of its potent anti epileptic activity in 1912 Phenobarbital was among the most widely used drugs for the treatment of epilepsy through the 1970s and as of 2014 remains on the World Health Organizations list of essential medications 9 10 The 1950s and 1960s saw increased awareness of the addictive properties and abuse potential of barbiturates and amphetamines and led to increasing restrictions on their use and growing government oversight of prescribers Today amphetamine is largely restricted to use in the treatment of attention deficit disorder and phenobarbital in the treatment of epilepsy 11 12 In 1958 Leo Sternbach discovered the first benzodiazepine chlordiazepoxide Librium Dozens of other benzodiazepines have been developed and are in use some of the more popular drugs being diazepam Valium alprazolam Xanax clonazepam Klonopin and lorazepam Ativan Due to their far superior safety and therapeutic properties benzodiazepines have largely replaced the use of barbiturates in medicine except in certain special cases When it was later discovered that benzodiazepines like barbiturates significantly lose their effectiveness and can have serious side effects when taken long term Heather Ashton researched benzodiazepine dependence and developed a protocol to discontinue their use Insulin edit A series of experiments performed from the late 1800s to the early 1900s revealed that diabetes is caused by the absence of a substance normally produced by the pancreas In 1869 Oskar Minkowski and Joseph von Mering found that diabetes could be induced in dogs by surgical removal of the pancreas In 1921 Canadian professor Frederick Banting and his student Charles Best repeated this study and found that injections of pancreatic extract reversed the symptoms produced by pancreas removal Soon the extract was demonstrated to work in people but development of insulin therapy as a routine medical procedure was delayed by difficulties in producing the material in sufficient quantity and with reproducible purity The researchers sought assistance from industrial collaborators at Eli Lilly and Co based on the company s experience with large scale purification of biological materials Chemist George B Walden of Eli Lilly and Company found that careful adjustment of the pH of the extract allowed a relatively pure grade of insulin to be produced Under pressure from Toronto University and a potential patent challenge by academic scientists who had independently developed a similar purification method an agreement was reached for non exclusive production of insulin by multiple companies Prior to the discovery and widespread availability of insulin therapy the life expectancy of diabetics was only a few months 13 Early anti infective research Salvarsan Prontosil Penicillin and vaccines edit The development of drugs for the treatment of infectious diseases was a major focus of early research and development efforts in 1900 pneumonia tuberculosis and diarrhea were the three leading causes of death in the United States and mortality in the first year of life exceeded 10 14 15 failed verification In 1911 arsphenamine the first synthetic anti infective drug was developed by Paul Ehrlich and chemist Alfred Bertheim of the Institute of Experimental Therapy in Berlin The drug was given the commercial name Salvarsan 16 Ehrlich noting both the general toxicity of arsenic and the selective absorption of certain dyes by bacteria hypothesized that an arsenic containing dye with similar selective absorption properties could be used to treat bacterial infections Arsphenamine was prepared as part of a campaign to synthesize a series of such compounds and was found to exhibit partially selective toxicity Arsphenamine proved to be the first effective treatment for syphilis a disease untl then had been incurable and led inexorably to severe skin ulceration neurological damage and death 17 Ehrlich s approach of systematically varying the chemical structure of synthetic compounds and measuring the effects of these changes on biological activity was pursued broadly by industrial scientists including Bayer scientists Josef Klarer Fritz Mietzsch and Gerhard Domagk This work also based on the testing of compounds available from the German dye industry led to the development of Prontosil the first representative of the sulfonamide class of antibiotics Compared to arsphenamine the sulfonamides had a broader spectrum of activity and were far less toxic rendering them useful for infections caused by pathogens such as streptococci 18 In 1939 Domagk received the Nobel Prize in Medicine for this discovery 19 20 Nonetheless the dramatic decrease in deaths from infectious diseases that occurred prior to World War II was primarily the result of improved public health measures such as clean water and less crowded housing and the impact of anti infective drugs and vaccines was significant mainly after World War II 21 22 In 1928 Alexander Fleming discovered the antibacterial effects of penicillin but its exploitation for the treatment of human disease awaited the development of methods for its large scale production and purification These were developed by a U S and British government led consortium of pharmaceutical companies during the world war 23 There was early progress toward the development of vaccines throughout this period primarily in the form of academic and government funded basic research directed toward the identification of the pathogens responsible for common communicable diseases In 1885 Louis Pasteur and Pierre Paul Emile Roux created the first rabies vaccine The first diphtheria vaccines were produced in 1914 from a mixture of diphtheria toxin and antitoxin produced from the serum of an inoculated animal but the safety of the inoculation was marginal and it was not widely used The United States recorded 206 000 cases of diphtheria in 1921 resulting in 15 520 deaths In 1923 parallel efforts by Gaston Ramon at the Pasteur Institute and Alexander Glenny at the Wellcome Research Laboratories later part of GlaxoSmithKline led to the discovery that a safer vaccine could be produced by treating diphtheria toxin with formaldehyde 24 In 1944 Maurice Hilleman of Squibb Pharmaceuticals developed the first vaccine against Japanese Encephalitis 25 Hilleman later moved to Merck where he played a key role in the development of vaccines against measles mumps chickenpox rubella hepatitis A hepatitis B and meningitis Unsafe drugs and early industry regulation edit nbsp In 1937 over 100 people died after ingesting a solution of the antibacterial sulfanilamide formulated in the toxic solvent diethylene glycol Prior to the 20th century drugs were generally produced by small scale manufacturers with little regulatory control over manufacturing or claims of safety and efficacy To the extent that such laws did exist enforcement was lax In the United States increased regulation of vaccines and other biological drugs was spurred by tetanus outbreaks and deaths caused by the distribution of contaminated smallpox vaccine and diphtheria antitoxin 26 The Biologics Control Act of 1902 required that federal government grant premarket approval for every biological drug and for the process and facility producing such drugs This was followed in 1906 by the Pure Food and Drugs Act which forbade the interstate distribution of adulterated or misbranded foods and drugs A drug was considered misbranded if it contained alcohol morphine opium cocaine or any of several other potentially dangerous or addictive drugs and if its label failed to indicate the quantity or proportion of such drugs The government s attempts to use the law to prosecute manufacturers for making unsupported claims of efficacy were undercut by a Supreme Court ruling restricting the federal government s enforcement powers to cases of incorrect specification of the drug s ingredients 27 In 1937 over 100 people died after ingesting Elixir Sulfanilamide manufactured by S E Massengill Company of Tennessee The product was formulated in diethylene glycol a highly toxic solvent that is now widely used as antifreeze 28 Under the laws extant at that time prosecution of the manufacturer was possible only under the technicality that the product had been called an elixir which literally implied a solution in ethanol In response to this episode the U S Congress passed the Federal Food Drug and Cosmetic Act of 1938 which for the first time required pre market demonstration of safety before a drug could be sold and explicitly prohibited false therapeutic claims 29 The post war years 1945 1970 edit Further advances in anti infective research edit The aftermath of World War II saw an explosion in the discovery of new classes of antibacterial drugs 30 including the cephalosporins developed by Eli Lilly based on the seminal work of Giuseppe Brotzu and Edward Abraham 31 32 streptomycin discovered during a Merck funded research program in Selman Waksman s laboratory 33 the tetracyclines 34 discovered at Lederle Laboratories now a part of Pfizer erythromycin discovered at Eli Lilly and Co 35 and their extension to an increasingly wide range of bacterial pathogens Streptomycin discovered during a Merck funded research program in Selman Waksman s laboratory at Rutgers in 1943 became the first effective treatment for tuberculosis At the time of its discovery sanitoriums for the isolation of tuberculosis infected people were an ubiquitous feature of cities in developed countries with 50 dying within 5 years of admission 33 36 A Federal Trade Commission report issued in 1958 attempted to quantify the effect of antibiotic development on American public health The report found that over the period 1946 1955 there was a 42 drop in the incidence of diseases for which antibiotics were effective and only a 20 drop in those for which antibiotics were not effective The report concluded that it appears that the use of antibiotics early diagnosis and other factors have limited the epidemic spread and thus the number of these diseases which have occurred The study further examined mortality rates for eight common diseases for which antibiotics offered effective therapy syphilis tuberculosis dysentery scarlet fever whooping cough meningococcal infections and pneumonia and found a 56 decline over the same period 37 Notable among these was a 75 decline in deaths due to tuberculosis 38 nbsp Measles cases reported in the United States before and after introduction of the vaccine nbsp Percent surviving by age in 1900 1950 and 1997 39 During the years 1940 1955 the rate of decline in the U S death rate accelerated from 2 per year to 8 per year then returned to the historical rate of 2 per year The dramatic decline in the immediate post war years has been attributed to the rapid development of new treatments and vaccines for infectious disease that occurred during these years 40 22 Vaccine development continued to accelerate with the most notable achievement of the period being Jonas Salk s 1954 development of the polio vaccine under the funding of the non profit National Foundation for Infantile Paralysis The vaccine process was never patented but was instead given to pharmaceutical companies to manufacture as a low cost generic In 1960 Maurice Hilleman of Merck Sharp amp Dohme identified the SV40 virus which was later shown to cause tumors in many mammalian species It was later determined that SV40 was present as a contaminant in polio vaccine lots that had been administered to 90 of the children in the United States 41 42 The contamination appears to have originated both in the original cell stock and in monkey tissue used for production In 2004 the National Cancer Institute announced that it had concluded that SV40 is not associated with cancer in people 43 Other notable new vaccines of the period include those for measles 1962 John Franklin Enders of Children s Medical Center Boston later refined by Maurice Hilleman at Merck Rubella 1969 Hilleman Merck and mumps 1967 Hilleman Merck 44 The United States incidences of rubella congenital rubella syndrome measles and mumps all fell by gt 95 in the immediate aftermath of widespread vaccination 45 The first 20 years of licensed measles vaccination in the U S prevented an estimated 52 million cases of the disease 17 400 cases of mental retardation and 5 200 deaths 46 Development and marketing of antihypertensive drugs edit Hypertension is a risk factor for atherosclerosis 47 heart failure 48 coronary artery disease 49 50 stroke 51 renal disease 52 53 and peripheral arterial disease 54 55 and is the most important risk factor for cardiovascular morbidity and mortality in industrialized countries 56 Prior to 1940 approximately 23 of all deaths among persons over age 50 were attributed to hypertension Severe cases of hypertension were treated by surgery 57 Early developments in the field of treating hypertension included quaternary ammonium ion sympathetic nervous system blocking agents but these compounds were never widely used due to their severe side effects because the long term health consequences of high blood pressure had not yet been established and because they had to be administered by injection In 1952 researchers at Ciba discovered the first orally available vasodilator hydralazine 58 A major shortcoming of hydralazine monotherapy was that it lost its effectiveness over time tachyphylaxis In the mid 1950s Karl H Beyer James M Sprague John E Baer and Frederick C Novello of Merck and Co discovered and developed chlorothiazide which remains the most widely used antihypertensive drug today 59 This development was associated with a substantial decline in the mortality rate among people with hypertension 60 The inventors were recognized by a Public Health Lasker Award in 1975 for the saving of untold thousands of lives and the alleviation of the suffering of millions of victims of hypertension 61 A 2009 Cochrane review concluded that thiazide antihypertensive drugs reduce the risk of death RR 0 89 stroke RR 0 63 coronary heart disease RR 0 84 and cardiovascular events RR 0 70 in people with high blood pressure 62 In the ensuring years other classes of antihypertensive drug were developed and found wide acceptance in combination therapy including loop diuretics Lasix furosemide Hoechst Pharmaceuticals 1963 63 beta blockers ICI Pharmaceuticals 1964 64 ACE inhibitors and angiotensin receptor blockers ACE inhibitors reduce the risk of new onset kidney disease RR 0 71 and death RR 0 84 in diabetic patients irrespective of whether they have hypertension 65 Oral Contraceptives edit Prior to the Second World war birth control was prohibited in many countries and in the United States even the discussion of contraceptive methods sometimes led to prosecution under Comstock laws The history of the development of oral contraceptives is thus closely tied to the birth control movement and the efforts of activists Margaret Sanger Mary Dennett and Emma Goldman Based on fundamental research performed by Gregory Pincus and synthetic methods for progesterone developed by Carl Djerassi at Syntex and by Frank Colton at G D Searle amp Co the first oral contraceptive Enovid was developed by G D Searle amp Co and approved by the FDA in 1960 The original formulation incorporated vastly excessive doses of hormones and caused severe side effects Nonetheless by 1962 1 2 million American women were on the pill and by 1965 the number had increased to 6 5 million 66 67 68 69 The availability of a convenient form of temporary contraceptive led to dramatic changes in social mores including expanding the range of lifestyle options available to women reducing the reliance of women on men for contraceptive practice encouraging the delay of marriage and increasing pre marital co habitation 70 Thalidomide and the Kefauver Harris Amendments edit nbsp Malformation of a baby born to a mother who had taken thalidomide while pregnantIn the U S a push for revisions of the FD amp C Act emerged from Congressional hearings led by Senator Estes Kefauver of Tennessee in 1959 The hearings covered a wide range of policy issues including advertising abuses questionable efficacy of drugs and the need for greater regulation of the industry While momentum for new legislation temporarily flagged under extended debate a new tragedy emerged that underscored the need for more comprehensive regulation and provided the driving force for the passage of new laws On 12 September 1960 an American licensee the William S Merrell Company of Cincinnati submitted a new drug application for Kevadon thalidomide a sedative that had been marketed in Europe since 1956 The FDA medical officer in charge of reviewing the compound Frances Kelsey believed that the data supporting the safety of thalidomide was incomplete The firm continued to pressure Kelsey and the FDA to approve the application until November 1961 when the drug was pulled off the German market because of its association with grave congenital abnormalities Several thousand newborns in Europe and elsewhere suffered the teratogenic effects of thalidomide Without approval from the FDA the firm distributed Kevadon to over 1 000 physicians there under the guise of investigational use Over 20 000 Americans received thalidomide in this study including 624 pregnant patients and about 17 known newborns suffered the effects of the drug citation needed The thalidomide tragedy resurrected Kefauver s bill to enhance drug regulation that had stalled in Congress and the Kefauver Harris Amendment became law on 10 October 1962 Manufacturers henceforth had to prove to FDA that their drugs were effective as well as safe before they could go on the US market The FDA received authority to regulate advertising of prescription drugs and to establish good manufacturing practices The law required that all drugs introduced between 1938 and 1962 had to be effective An FDA National Academy of Sciences collaborative study showed that nearly 40 percent of these products were not effective A similarly comprehensive study of over the counter products began ten years later 71 1970 1990s edit Statins edit Main article Discovery and development of statins In 1971 Akira Endo a Japanese biochemist working for the pharmaceutical company Sankyo identified mevastatin ML 236B a molecule produced by the fungus Penicillium citrinum as an inhibitor of HMG CoA reductase a critical enzyme used by the body to produce cholesterol Animal trials showed very good inhibitory effect as in clinical trials however a long term study in dogs found toxic effects at higher doses and as a result mevastatin was believed to be too toxic for human use Mevastatin was never marketed because of its adverse effects of tumors muscle deterioration and sometimes death in laboratory dogs P Roy Vagelos chief scientist and later CEO of Merck amp Co was interested and made several trips to Japan starting in 1975 By 1978 Merck had isolated lovastatin mevinolin MK803 from the fungus Aspergillus terreus first marketed in 1987 as Mevacor 72 73 74 In April 1994 the results of a Merck sponsored study the Scandinavian Simvastatin Survival Study were announced Researchers tested simvastatin later sold by Merck as Zocor on 4 444 patients with high cholesterol and heart disease After five years the study concluded the patients saw a 35 reduction in their cholesterol and their chances of dying of a heart attack were reduced by 42 75 In 1995 Zocor and Mevacor both made Merck over US 1 billion Endo was awarded the 2006 Japan Prize and the Lasker DeBakey Clinical Medical Research Award in 2008 For his pioneering research into a new class of molecules for lowering cholesterol sentence fragment 76 77 21st Century edit Since several decades biologics have been rising in importance in comparison with small molecules treatments The biotech subsector animal health and the Chinese pharmaceutical sector have also grown substantially On the organisational side big international pharma corporations have experienced a substantial decline of their value share Also the core generic sector substitutions for off patent brands has been downvalued due to competition 78 Torreya estimated the pharmaceutical industry to have a market valuation of US 7 03 trillion by February 2021 from which US 6 1 trillion is the value of the publicly traded companies Small Molecules modality had 58 2 of the valuation share down from 84 6 in 2003 Biologics was up at 30 5 from 14 5 The valuation share of Chinese Pharma grew from 2003 to 2021 from 1 to 12 overtaking Switzerland who is now ranked number 3 with 7 7 The United States had still by far the most valued pharmaceutical industry with 40 of global valuation 79 2023 was a year of layoffs for at least 10 000 people across 129 public biotech firms globally albeit most small firms this was a significant increase in reductions versus 2022 was in part due to worsening global financial conditions and a reduction in investment by generalist investors 80 Private firms also saw a significant reduction in venture capital investment in 2023 continuing a downward trend started in 2021 which also led to a reduction in initial public offerings being floated 80 Impact of Mergers and Acquisitions edit A 2022 article articulated this notion succinctly by saying In the business of drug development deals can be just as important as scientific breakthroughs typically referred to as pharmaceutical M amp A for mergers and acquisitions 81 It highlighted that some of the most impactful of the remedies of the early 21st Century were only made possible through M amp A activities specifically noting Keytruda and Humira 81 Research and development editMain articles Drug discovery and Drug development Drug discovery is the process by which potential drugs are discovered or designed In the past most drugs have been discovered either by isolating the active ingredient from traditional remedies or by serendipitous discovery Modern biotechnology often focuses on understanding the metabolic pathways related to a disease state or pathogen and manipulating these pathways using molecular biology or biochemistry A great deal of early stage drug discovery has traditionally been carried out by universities and research institutions Drug development refers to activities undertaken after a compound is identified as a potential drug in order to establish its suitability as a medication Objectives of drug development are to determine appropriate formulation and dosing as well as to establish safety Research in these areas generally includes a combination of in vitro studies in vivo studies and clinical trials The cost of late stage development has meant it is usually done by the larger pharmaceutical companies 82 The pharmaceuticals and biotechnology industry spends more than 15 of its net sales for Research amp Development which is in comparison with other industries by far the highest share 83 Often large multinational corporations exhibit vertical integration participating in a broad range of drug discovery and development manufacturing and quality control marketing sales and distribution Smaller organizations on the other hand often focus on a specific aspect such as discovering drug candidates or developing formulations Often collaborative agreements between research organizations and large pharmaceutical companies are formed to explore the potential of new drug substances More recently multi nationals are increasingly relying on contract research organizations to manage drug development 84 The cost of innovation edit Drug discovery and development are very expensive of all compounds investigated for use in humans only a small fraction are eventually approved in most nations by government appointed medical institutions or boards who have to approve new drugs before they can be marketed in those countries In 2010 18 NMEs New Molecular Entities were approved and three biologics by the FDA or 21 in total which is down from 26 in 2009 and 24 in 2008 On the other hand there were only 18 approvals in total in 2007 and 22 back in 2006 Since 2001 the Center for Drug Evaluation and Research has averaged 22 9 approvals a year 85 This approval comes only after heavy investment in pre clinical development and clinical trials as well as a commitment to ongoing safety monitoring Drugs which fail part way through this process often incur large costs while generating no revenue in return If the cost of these failed drugs is taken into account the cost of developing a successful new drug new chemical entity or NCE has been estimated at US 1 3 billion 86 not including marketing expenses Professors Light and Lexchin reported in 2012 however that the rate of approval for new drugs has been a relatively stable average rate of 15 to 25 for decades 87 Industry wide research and investment reached a record 65 3 billion in 2009 88 While the cost of research in the U S was about 34 2 billion between 1995 and 2010 revenues rose faster revenues rose by 200 4 billion in that time 87 A study by the consulting firm Bain amp Company reported that the cost for discovering developing and launching which factored in marketing and other business expenses a new drug along with the prospective drugs that fail rose over a five year period to nearly 1 7 billion in 2003 89 According to Forbes by 2010 development costs were between 4 billion to 11 billion per drug 90 Some of these estimates also take into account the opportunity cost of investing capital many years before revenues are realized see Time value of money Because of the very long time needed for discovery development and approval of pharmaceuticals these costs can accumulate to nearly half the total expense A direct consequence within the pharmaceutical industry value chain is that major pharmaceutical multinationals tend to increasingly outsource risks related to fundamental research which somewhat reshapes the industry ecosystem with biotechnology companies playing an increasingly important role and overall strategies being redefined accordingly 91 Some approved drugs such as those based on re formulation of an existing active ingredient also referred to as Line extensions are much less expensive to develop Product approval editIn the United States new pharmaceutical products must be approved by the Food and Drug Administration FDA as being both safe and effective This process generally involves submission of an Investigational New Drug filing with sufficient pre clinical data to support proceeding with human trials Following IND approval three phases of progressively larger human clinical trials may be conducted Phase I generally studies toxicity using healthy volunteers Phase II can include pharmacokinetics and dosing in patients and Phase III is a very large study of efficacy in the intended patient population Following the successful completion of phase III testing a New Drug Application is submitted to the FDA The FDA reviews the data and if the product is seen as having a positive benefit risk assessment approval to market the product in the US is granted 92 A fourth phase of post approval surveillance is also often required due to the fact that even the largest clinical trials cannot effectively predict the prevalence of rare side effects Postmarketing surveillance ensures that after marketing the safety of a drug is monitored closely In certain instances its indication may need to be limited to particular patient groups and in others the substance is withdrawn from the market completely The FDA provides information about approved drugs at the Orange Book site 93 In the UK the Medicines and Healthcare products Regulatory Agency approves and evaluates drugs for use Normally an approval in the UK and other European countries comes later than one in the USA Then it is the National Institute for Health and Care Excellence NICE for England and Wales who decides if and how the National Health Service NHS will allow in the sense of paying for their use The British National Formulary is the core guide for pharmacists and clinicians In many non US western countries a fourth hurdle of cost effectiveness analysis has developed before new technologies can be provided This focuses on the efficacy price tag in terms of for example the cost per QALY of the technologies in question In England and Wales NICE decides whether and in what circumstances drugs and technologies will be made available by the NHS whilst similar arrangements exist with the Scottish Medicines Consortium in Scotland and the Pharmaceutical Benefits Advisory Committee in Australia A product must pass the threshold for cost effectiveness if it is to be approved Treatments must represent value for money and a net benefit to society Orphan drugs edit Main article Orphan drug There are special rules for certain rare diseases orphan diseases in several major drug regulatory territories For example diseases involving fewer than 200 000 patients in the United States or larger populations in certain circumstances are subject to the Orphan Drug Act 94 Because medical research and development of drugs to treat such diseases is financially disadvantageous companies that do so are rewarded with tax reductions fee waivers and market exclusivity on that drug for a limited time seven years regardless of whether the drug is protected by patents Global sales editTop 20 drug companies by revenue 2022 95 Company Pharma revenue million Pfizer nbsp 100 330Johnson amp Johnson nbsp 94 940Roche nbsp 66 260Merck amp Co nbsp 59 280Abbvie nbsp 58 050Novartis nbsp 50 540Bristol Myers Squibb nbsp 46 160Sanofi nbsp 45 220AstraZeneca nbsp nbsp 44 350GSK nbsp 36 150Takeda nbsp 30 000Eli Lilly and Company nbsp 28 550Gilead Sciences nbsp 27 280Bayer nbsp 26 640Amgen nbsp 26 320Boehringer Ingelheim nbsp 25 280Novo Nordisk nbsp 25 000Moderna nbsp 19 260Merck KGaA nbsp 19 160BioNTech nbsp 18 200In 2011 global spending on prescription drugs topped 954 billion even as growth slowed somewhat in Europe and North America The United States accounts for more than a third of the global pharmaceutical market with 340 billion in annual sales followed by the EU and Japan 96 Emerging markets such as China Russia South Korea and Mexico outpaced that market growing a huge 81 percent 97 98 The top ten best selling drugs of 2013 totaled 75 6 billion in sales with the anti inflammatory drug Humira being the best selling drug worldwide at 10 7 billion in sales The second and third best selling were Enbrel and Remicade respectively 99 The top three best selling drugs in the United States in 2013 were Abilify 6 3 billion Nexium 6 billion and Humira 5 4 billion 100 The best selling drug ever Lipitor averaged 13 billion annually and netted 141 billion total over its lifetime before Pfizer s patent expired in November 2011 IMS Health publishes an analysis of trends expected in the pharmaceutical industry in 2007 including increasing profits in most sectors despite loss of some patents and new blockbuster drugs on the horizon 101 Patents and generics edit Depending on a number of considerations a company may apply for and be granted a patent for the drug or the process of producing the drug granting exclusivity rights typically for about 20 years 102 However only after rigorous study and testing which takes 10 to 15 years on average will governmental authorities grant permission for the company to market and sell the drug 103 Patent protection enables the owner of the patent to recover the costs of research and development through high profit margins for the branded drug When the patent protection for the drug expires a generic drug is usually developed and sold by a competing company The development and approval of generics is less expensive allowing them to be sold at a lower price Often the owner of the branded drug will introduce a generic version before the patent expires in order to get a head start in the generic market 104 Restructuring has therefore become routine driven by the patent expiration of products launched during the industry s golden era in the 1990s and companies failure to develop sufficient new blockbuster products to replace lost revenues 105 Prescriptions edit In the U S the value of prescriptions increased over the period of 1995 to 2005 by 3 4 billion annually a 61 percent increase Retail sales of prescription drugs jumped 250 percent from 72 billion to 250 billion while the average price of prescriptions more than doubled from 30 to 68 106 Marketing editMain article Pharmaceutical marketing Advertising is common in healthcare journals as well as through more mainstream media routes In some countries notably the US they are allowed to advertise directly to the general public Pharmaceutical companies generally employ salespeople often called drug reps or an older term detail men to market directly and personally to physicians and other healthcare providers In some countries notably the US pharmaceutical companies also employ lobbyists to influence politicians Marketing of prescription drugs in the US is regulated by the federal Prescription Drug Marketing Act of 1987 The pharmaceutical marketing plan incorporates the spending plans channels and thoughts which will take the drug association and its items and administrations forward in the current scene To healthcare professionals edit The book Bad Pharma also discusses the influence of drug representatives how ghostwriters are employed by the drug companies to write papers for academics to publish how independent the academic journals really are how the drug companies finance doctors continuing education and how patients groups are often funded by industry 107 Direct to consumer advertising edit Main article Direct to consumer advertising Since the 1980s new methods of marketing for prescription drugs to consumers have become important Direct to consumer media advertising was legalised in the FDA Guidance for Industry on Consumer Directed Broadcast Advertisements Controversies editDrug marketing and lobbying edit Main articles Pharmaceutical marketing and Pharmaceutical lobby There has been increasing controversy surrounding pharmaceutical marketing and influence There have been accusations and findings of influence on doctors and other health professionals through drug reps including the constant provision of marketing gifts and biased information to health professionals 108 highly prevalent advertising in journals and conferences funding independent healthcare organizations and health promotion campaigns lobbying physicians and politicians more than any other industry in the US 109 sponsorship of medical schools or nurse training sponsorship of continuing educational events with influence on the curriculum 110 and hiring physicians as paid consultants on medical advisory boards Some advocacy groups such as No Free Lunch and AllTrials have criticized the effect of drug marketing to physicians because they say it biases physicians to prescribe the marketed drugs even when others might be cheaper or better for the patient 111 There have been related accusations of disease mongering 112 over medicalising to expand the market for medications An inaugural conference on that subject took place in Australia in 2006 113 In 2009 the Government funded National Prescribing Service launched the Finding Evidence Recognising Hype program aimed at educating GPs on methods for independent drug analysis 114 Meta analyses have shown that psychiatric studies sponsored by pharmaceutical companies are several times more likely to report positive results and if a drug company employee is involved the effect is even larger 115 116 117 Influence has also extended to the training of doctors and nurses in medical schools which is being fought It has been argued that the design of the Diagnostic and Statistical Manual of Mental Disorders and the expansion of the criteria represents an increasing medicalization of human nature or disease mongering driven by drug company influence on psychiatry 118 The potential for direct conflict of interest has been raised partly because roughly half the authors who selected and defined the DSM IV psychiatric disorders had or previously had financial relationships with the pharmaceutical industry 119 In the US starting in 2013 under the Physician Financial Transparency Reports part of the Sunshine Act the Centers for Medicare amp Medicaid Services has to collect information from applicable manufacturers and group purchasing organizations in order to report information about their financial relationships with physicians and hospitals Data are made public in the Centers for Medicare amp Medicaid Services website The expectation is that relationship between doctors and Pharmaceutical industry will become fully transparent 120 In a report conducted by OpenSecrets there were more than 1 100 lobbyists working in some capacity for the pharmaceutical business in 2017 In the first quarter of 2017 the health products and pharmaceutical industry spent 78 million on lobbying members of the United States Congress 121 Medication pricing edit Further information Medication costs Factors The pricing of pharmaceuticals is becoming a major challenge for health systems 122 A November 2020 study by the West Health Policy Center stated that more than 1 1 million senior citizens in the U S Medicare program are expected to die prematurely over the next decade because they will be unable to afford their prescription medications requiring an additional 17 7 billion to be spent annually on avoidable medical costs due to health complications 123 Regulatory issues edit Ben Goldacre has argued that regulators such as the Medicines and Healthcare products Regulatory Agency MHRA in the UK or the Food and Drug Administration FDA in the United States advance the interests of the drug companies rather than the interests of the public due to revolving door exchange of employees between the regulator and the companies and friendships develop between regulator and company employees 124 He argues that regulators do not require that new drugs offer an improvement over what is already available or even that they be particularly effective 124 Others have argued that excessive regulation suppresses therapeutic innovation and that the current cost of regulator required clinical trials prevents the full exploitation of new genetic and biological knowledge for the treatment of human disease A 2012 report by the President s Council of Advisors on Science and Technology made several key recommendations to reduce regulatory burdens to new drug development including 1 expanding the FDA s use of accelerated approval processes 2 creating an expedited approval pathway for drugs intended for use in narrowly defined populations and 3 undertaking pilot projects designed to evaluate the feasibility of a new adaptive drug approval process 125 Pharmaceutical fraud edit See also List of largest pharmaceutical settlements in the United States The examples and perspective in this section deal primarily with the United States and do not represent a worldwide view of the subject You may improve this section discuss the issue on the talk page or create a new section as appropriate August 2015 Learn how and when to remove this template message Pharmaceutical fraud involves deceptions which bring financial gain to a pharmaceutical company It affects individuals and public and private insurers There are several different schemes 126 used to defraud the health care system which are particular to the pharmaceutical industry These include Good Manufacturing Practice GMP Violations Off Label Marketing Best Price Fraud CME Fraud Medicaid Price Reporting and Manufactured Compound Drugs 127 Of this amount 2 5 billion was recovered through False Claims Act cases in FY 2010 Examples of fraud cases include the GlaxoSmithKline 3 billion settlement Pfizer 2 3 billion settlement and Merck amp Co 650 million settlement Damages from fraud can be recovered by use of the False Claims Act most commonly under the qui tam provisions which rewards an individual for being a whistleblower or relator law 128 Every major company selling atypical antipsychotics Bristol Myers Squibb Eli Lilly and Company Pfizer AstraZeneca and Johnson amp Johnson has either settled recent government cases under the False Claims Act for hundreds of millions of dollars or is currently under investigation for possible health care fraud Following charges of illegal marketing two of the settlements set records in 2009 for the largest criminal fines ever imposed on corporations One involved Eli Lilly s antipsychotic Zyprexa and the other involved Bextra an anti inflammatory medication used for arthritis In the Bextra case the government also charged Pfizer with illegally marketing another antipsychotic Geodon Pfizer settled that part of the claim for 301 million without admitting any wrongdoing 129 On 2 July 2012 GlaxoSmithKline pleaded guilty to criminal charges and agreed to a 3 billion settlement of the largest health care fraud case in the U S and the largest payment by a drug company 130 The settlement is related to the company s illegal promotion of prescription drugs its failure to report safety data 131 bribing doctors and promoting medicines for uses for which they were not licensed The drugs involved were Paxil Wellbutrin Advair Lamictal and Zofran for off label non covered uses Those and the drugs Imitrex Lotronex Flovent and Valtrex were involved in the kickback scheme 132 133 134 The following is a list of the four largest settlements reached with pharmaceutical companies from 1991 to 2012 rank ordered by the size of the total settlement Legal claims against the pharmaceutical industry have varied widely over the past two decades including Medicare and Medicaid fraud off label promotion and inadequate manufacturing practices 135 136 Company Settlement Violation s Year Product s Laws allegedly violated if applicable GlaxoSmithKline 137 3 billion Off label promotion failure to disclose safety data 2012 Avandia Wellbutrin Paxil False Claims Act FDCAPfizer 138 2 3 billion Off label promotion kickbacks 2009 Bextra Geodon Zyvox Lyrica False Claims Act FDCAAbbott Laboratories 139 1 5 billion Off label promotion 2012 Depakote False Claims Act FDCAEli Lilly 140 1 4 billion Off label promotion 2009 Zyprexa False Claims Act FDCAPhysician roles edit In May 2015 the New England Journal of Medicine emphasized the importance of pharmaceutical industry physician interactions for the development of novel treatments and argued that moral outrage over industry malfeasance had unjustifiably led many to overemphasize the problems created by financial conflicts of interest The article noted that major healthcare organizations such as National Center for Advancing Translational Sciences of the National Institutes of Health the President s Council of Advisors on Science and Technology the World Economic Forum the Gates Foundation the Wellcome Trust and the Food and Drug Administration had encouraged greater interactions between physicians and industry in order to improve benefits to patients 141 142 Response to COVID 19 edit In November 2020 several pharmaceutical companies announced successful trials of COVID 19 vaccines with efficacy of 90 to 95 in preventing infection Per company announcements and data reviewed by external analysts these vaccines are priced at 3 to 37 per dose 143 The Wall Street Journal ran an editorial calling for this achievement to be recognized with a Nobel Peace Prize 144 Doctors Without Borders warned that high prices and monopolies on medicines tests and vaccines would prolong the pandemic and cost lives They urged governments to prevent profiteering using compulsory licenses as needed as had already been done by Canada Chile Ecuador Germany and Israel 145 On 20 February 46 US lawmakers called for the US government not to grant monopoly rights when giving out taxpayer development money for any coronavirus vaccines and treatments to avoid giving exclusive control of prices and availability to private manufacturers 146 In the United States the government signed agreements in which research and development and or the building of manufacturing plants for potential COVID 19 therapeutics was subsidized Typically the agreement involved the government taking ownership of a certain number of doses of the product without further payment For example under the auspices of Operation Warp Speed in the United States the government subsidized research related to COVID 19 vaccines and therapeutics at Regeneron 147 Johnson and Johnson Moderna AstraZeneca Novavax Pfizer and GSK Typical terms involved research subsidies of 400 million to 2 billion and included government ownership of the first 100 million doses of any COVID 19 vaccine successfully developed 148 American pharmaceutical company Gilead sought and obtained orphan drug status for remdesivir from the US Food and Drug Administration FDA on 23 March 2020 This provision is intended to encourage the development of drugs affecting fewer than 200 000 Americans by granting strengthened and extended legal monopoly rights to the manufacturer along with waivers on taxes and government fees 149 150 Remdesivir is a candidate for treating COVID 19 at the time the status was granted fewer than 200 000 Americans had COVID 19 but numbers were climbing rapidly as the COVID 19 pandemic reached the US and crossing the threshold soon was considered inevitable 149 150 Remdesivir was developed by Gilead with over 79 million in U S government funding 150 In May 2020 Gilead announced that it would provide the first 940 000 doses of remdesivir to the federal government free of charge 151 After facing strong public reactions Gilead gave up the orphan drug status for remdesivir on 25 March 152 Gilead retains 20 year remdesivir patents in more than 70 countries 145 In May 2020 the company further announced that it was in discussions with several generics companies to provide rights to produce remdesivir for developing countries and with the Medicines Patent Pool to provide broader generic access 153 Developing world editPatents edit Patents have been criticized in the developing world as they are thought who to reduce access to existing medicines 154 Reconciling patents and universal access to medicine would require an efficient international policy of price discrimination Moreover under the TRIPS agreement of the World Trade Organization countries must allow pharmaceutical products to be patented In 2001 the WTO adopted the Doha Declaration which indicates that the TRIPS agreement should be read with the goals of public health in mind and allows some methods for circumventing pharmaceutical monopolies via compulsory licensing or parallel imports even before patent expiration 155 In March 2001 40 multi national pharmaceutical companies brought litigation against South Africa for its Medicines Act which allowed the generic production of antiretroviral drugs ARVs for treating HIV despite the fact that these drugs were on patent 156 HIV was and is an epidemic in South Africa and ARVs at the time cost between US 10 000 and US 15 000 per patient per year This was unaffordable for most South African citizens and so the South African government committed to providing ARVs at prices closer to what people could afford To do so they would need to ignore the patents on drugs and produce generics within the country using a compulsory license or import them from abroad After international protest in favour of public health rights including the collection of 250 000 signatures by Medecins Sans Frontieres the governments of several developed countries including The Netherlands Germany France and later the US backed the South African government and the case was dropped in April of that year 157 In 2016 GlaxoSmithKline the world s sixth largest pharmaceutical company announced that it would be dropping its patents in poor countries so as to allow independent companies to make and sell versions of its drugs in those areas thereby widening the public access to them 158 GlaxoSmithKline published a list of 50 countries they would no longer hold patents in affecting one billion people worldwide Charitable programs edit In 2011 four of the top 20 corporate charitable donations and eight of the top 30 corporate charitable donations came from pharmaceutical manufacturers The bulk of corporate charitable donations 69 as of 2012 comes by way of non cash charitable donations the majority of which again were donations contributed by pharmaceutical companies 159 Charitable programs and drug discovery amp development efforts by pharmaceutical companies include Merck s Gift wherein billions of river blindness drugs were donated in Africa 160 Pfizer s gift of free discounted fluconazole and other drugs for AIDS in South Africa 161 GSK s commitment to give free albendazole tablets to the WHO for and until the elimination of lymphatic filariasis worldwide In 2006 Novartis committed US 755 million in corporate citizenship initiatives around the world particularly focusing on improving access to medicines in the developing world through its Access to Medicine projects including donations of medicines to patients affected by leprosy tuberculosis and malaria Glivec patient assistance programs and relief to support major humanitarian organisations with emergency medical needs 162 See also edit nbsp Chemistry portal nbsp Biology portal nbsp Medicine portal nbsp Companies portalList of industrial complexes Economic conceptPages displaying short descriptions of redirect targets Big Pharma conspiracy theory Conspiracy theories about the pharmaceutical industryPages displaying short descriptions of redirect targets Clinical trial Phase of clinical research in medicine Drug development Process of bringing a new pharmaceutical drug to the market Drug discovery Pharmaceutical procedure Legal drug trade manufacture and sale of pharmaceutical drugsPages displaying wikidata descriptions as a fallback List of pharmaceutical companies Licensed production Production under license of technology developed elsewhere Outsourcing Contracting formerly internal tasks to an external organization Pharmaceutical marketing Advertising by pharmaceutical companies Pharmacy Clinical health science Pharmacy benefit management Administration of prescription drug programs in the United States Unitaid Global health initiative Valuation finance Valuation of intangible assetsReferences edit McGuire John L Hasskarl Horst Bode Gerd Klingmann Ingrid Zahn Manuel 2007 Pharmaceuticals General Survey Ullmann s Encyclopedia of Industrial Chemistry Wiley doi 10 1002 14356007 a19 273 pub2 ISBN 978 3527306732 Bozenhardt Erich H Bozenhardt Herman F 18 October 2018 Are You Asking Too Much From Your Filler Pharmaceutical Online Guest column VertMarkets Archived from the original on 17 November 2020 Retrieved 30 October 2018 The core mission of the pharmaceutical industry is to manufacture products for patients to cure them vaccinate them or alleviate a symptom often by manufacturing a liquid injectable or an oral solid among other therapies Markets Research and 31 March 2021 Global Pharmaceuticals Market Report 2021 Market is Expected to Grow from 1228 45 Billion in 2020 to 1250 24 Billion in 2021 Long term Forecast to 2025 amp 2030 GlobeNewswire News Room Press release Archived from the original on 29 November 2021 Retrieved 29 November 2021 Multinational corporations including Merck Hoffman La Roche Burroughs Wellcome now part of Glaxo Smith Kline Abbott Laboratories Eli Lilly and Upjohn now part of Pfizer began as local apothecary shops in the mid 1800s Emergence of Pharmaceutical Science and Industry 1870 1930 Chem Eng News 83 25 20 June 2005 Archived from the original on 10 November 2018 Retrieved 23 July 2022 Sneader Walter 31 October 2005 13 Neurohormones Drug Discovery A History John Wiley amp Sons pp 155 156 ISBN 978 0 470 01552 0 Retrieved 23 July 2022 a b Rasmussen Nicolas 2006 Making the First Anti Depressant Amphetamine in American Medicine 1929 1950 J Hist Med Allied Sci 61 3 288 323 doi 10 1093 jhmas jrj039 PMID 16492800 S2CID 24974454 Rasmussen N June 2008 America s First Amphetamine Epidemic 1929 1971 Am J Public Health 98 6 974 985 doi 10 2105 AJPH 2007 110593 PMC 2377281 PMID 18445805 Yasiry Z Shorvon SD December 2012 How phenobarbital revolutionized epilepsy therapy the story of phenobarbital therapy in epilepsy in the last 100 years Epilepsia 53 Suppl 8 26 39 doi 10 1111 epi 12026 PMID 23205960 S2CID 8934654 Lopez Munoz F Ucha Udabe R Alamo C December 2005 The history of barbiturates a century after their clinical introduction Neuropsychiatr Dis Treat 1 4 329 43 PMC 2424120 PMID 18568113 Drug Abuse Control Amendments of 1965 NEJM Editorial 273 22 1222 1223 25 November 1965 doi 10 1056 NEJM196511252732213 Officers of the Food and Drug Administration aware of the seriousness of the problem estimate that approximately half the 9 000 000 000 barbiturate and amphetamine capsules and tablets manufactured annually in this country are diverted to illegal use The profits to be gained from the illegal sale of these drugs have proved an attraction to organized crime for amphetamine can be purchased at wholesale for less than 1 per 1000 capsules but when sold on the illegal market it brings 30 to 50 per 1000 and when retailed to the individual buyer a tablet may bring as much as 10 to 25 cents Sedative Hypnotic Drugs The Barbiturates I NEJM 255 24 1150 1151 1956 doi 10 1056 NEJM195612132552409 PMID 13378632 The barbiturates introduced into medicine by E Fischer and J von Mering in 1903 are certainly among the most widely used and abused drugs in medicine Approximately 400 tons of these agents are manufactured each year this is enough to put approximately 9 000 000 people to sleep each night for that period if each were given a 0 1 gm dose Rosenfeld L December 2002 Insulin discovery and controversy Clin Chem 48 12 2270 88 doi 10 1093 clinchem 48 12 2270 PMID 12446492 Leading Causes of Death 1900 1998 PDF CDC gov Archived PDF from the original on 13 December 2020 Retrieved 23 July 2022 Anderson Robert N 13 December 1999 United States Life Tables 1997 PDF National Vital Statistics Reports 47 28 1 37 PMID 10635683 Archived from the original PDF on 25 October 2020 Retrieved 23 July 2022 Sepkowitz Kent A July 2011 One hundred years of Salvarsan N Engl J Med Perspective 365 4 291 3 doi 10 1056 NEJMp1105345 PMID 21793743 Williams KJ 1 August 2009 The introduction of chemotherapy using arsphenamine the first magic bullet J R Soc Med 102 8 343 348 doi 10 1258 jrsm 2009 09k036 ISSN 0141 0768 PMC 2726818 PMID 19679737 Aminov Rustam I 8 December 2010 A brief history of the antibiotic era lessons learned and challenges for the future Front Microbiol 1 134 doi 10 3389 fmicb 2010 00134 PMC 3109405 PMID 21687759 Hager Thomas 2006 The Demon Under the Microscope 1st ed New York Harmony Books ISBN 978 1 4000 8213 1 All Nobel Prizes in Physiology or Medicine The Nobel Prize Retrieved 22 July 2022 Cutler David M Meara Ellen October 2001 Changes in the Age Distribution of Mortality Over the 20th Century PDF Report National Bureau of Economic Research doi 10 3386 w8556 Retrieved 23 July 2022 a b Klein Herbert 2012 A Population History of the United States Cambridge University Press p 167 Parascandola John 1980 The History of antibiotics a symposium American Institute of the History of Pharmacy No 5 ISBN 978 0 931292 08 8 Diphtheria Timelines History of Vaccines Archived from the original on 14 May 2016 Retrieved 24 February 2022 Ii Thomas H Maugh 13 April 2005 Maurice R Hilleman 85 Scientist Developed Many Vaccines That Saved Millions of Lives Los Angeles Times Los Angeles Times Archived from the original on 7 November 2014 Significant Dates in U S Food and Drug Law History Food and Drug Administration Archived from the original on 6 March 2013 Retrieved 16 December 2019 FDAReview org a project of The Independent Institute Archived from the original on 2 December 2015 Retrieved 24 February 2022 Sulfanilamide Disaster Food and Drug Administration Archived from the original on 25 November 2020 Retrieved 16 December 2019 FDA History Part II Food and Drug Administration Archived from the original on 1 January 2018 Retrieved 16 December 2019 Zaffiri L Gardner J Toledo Pereyra LH April 2012 History of antibiotics From salvarsan to cephalosporins J Invest Surg 25 2 67 77 doi 10 3109 08941939 2012 664099 PMID 22439833 S2CID 30538825 Hamilton Miller JM March 2008 Development of the semi synthetic penicillins and cephalosporins Int J Antimicrob Agents 31 3 189 92 doi 10 1016 j ijantimicag 2007 11 010 PMID 18248798 Abraham EP 1987 Cephalosporins 1945 1986 Drugs 34 Suppl 2 Supplement 2 1 14 doi 10 2165 00003495 198700342 00003 PMID 3319494 S2CID 12014890 a b Kingston W July 2004 Streptomycin Schatz v Waksman and the balance of credit for discovery J Hist Med Allied Sci 59 3 441 62 doi 10 1093 jhmas jrh091 PMID 15270337 S2CID 27465970 Nelson ML Levy SB December 2011 The history of the tetracyclines Ann N Y Acad Sci 1241 1 17 32 Bibcode 2011NYASA1241 17N doi 10 1111 j 1749 6632 2011 06354 x PMID 22191524 S2CID 34647314 ERYTHROMYCIN Br Med J 2 4793 1085 6 November 1952 doi 10 1136 bmj 2 4793 1085 PMC 2022076 PMID 12987755 Anderson Rosaleen 2012 Antibacterial agents chemistry mode of action mechanisms of resistance and clinical applications Oxford WiBlackwell ISBN 9780470972458 Federal Trade Commission Report of Antibiotics Manufacture June 1958 Washington D C Government Printing Office 1958 pages 98 120 Federal Trade Commission Report of Antibiotics Manufacture June 1958 Washington D C Government Printing Office 1958 page 277 Anderson Robert N 13 December 1999 United States Life Tables 1997 PDF National Vital Statistics Reports From the Centers for Disease Control and Prevention National Center for Health Statistics National Vital Statistics System 47 28 1 37 PMID 10635683 Archived PDF from the original on 25 October 2020 Retrieved 8 September 2017 Cutler David Meara Ellen October 2001 Changes in the Age Distribution of Mortality Over the 20th Century PDF NBER Working Paper No 8556 doi 10 3386 w8556 Archived PDF from the original on 30 July 2020 Retrieved 24 February 2022 SWEET BH HILLEMAN MR November 1960 The vacuolating virus S V 40 Proc Soc Exp Biol Med 105 2 420 7 doi 10 3181 00379727 105 26128 PMID 13774265 S2CID 38744505 Shah K Nathanson N January 1976 Human exposure to SV40 review and comment Am J Epidemiol 103 1 1 12 doi 10 1093 oxfordjournals aje a112197 PMID 174424 Studies No Evidence That SV40 is Related to Cancer National Cancer Institute Archived from the original on 28 October 2014 History of Vaccines A Vaccine History Project of The College of Physicians of Philadelphia Archived from the original on 19 February 2022 Retrieved 24 February 2022 Prevention of Measles Rubella Congenital Rubella Syndrome and Mumps 2013 Archived from the original on 10 November 2014 Retrieved 8 September 2017 Bloch AB Orenstein WA Stetler HC et al 1985 Health impact of measles vaccination in the United States Pediatrics 76 4 524 32 doi 10 1542 peds 76 4 524 PMID 3931045 S2CID 6512947 Insull W January 2009 The pathology of atherosclerosis plaque development and plaque responses to medical treatment The American Journal of Medicine 122 1 Suppl S3 S14 doi 10 1016 j amjmed 2008 10 013 PMID 19110086 Gaddam KK Verma A Thompson M Amin R Ventura H May 2009 Hypertension and cardiac failure in its various forms The Medical Clinics of North America 93 3 665 80 doi 10 1016 j mcna 2009 02 005 PMID 19427498 Retrieved 20 June 2009 Agabiti Rosei E September 2008 From macro to microcirculation benefits in hypertension and diabetes Journal of Hypertension 26 Suppl 3 S15 21 doi 10 1097 01 hjh 0000334602 71005 52 PMID 19363848 Murphy BP Stanton T Dunn FG May 2009 Hypertension and myocardial ischemia The Medical Clinics of North America 93 3 681 95 doi 10 1016 j mcna 2009 02 003 PMID 19427499 Retrieved 20 June 2009 White WB May 2009 Defining the problem of treating the patient with hypertension and arthritis pain The American Journal of Medicine 122 5 Suppl S3 9 doi 10 1016 j amjmed 2009 03 002 PMID 19393824 Truong LD Shen SS Park MH Krishnan B February 2009 Diagnosing nonneoplastic lesions in nephrectomy specimens Archives of Pathology amp Laboratory Medicine 133 2 189 200 doi 10 5858 133 2 189 PMID 19195963 Retrieved 20 June 2009 Tracy RE White S February 2002 A method for quantifying adrenocortical nodular hyperplasia at autopsy some use of the method in illuminating hypertension and atherosclerosis Annals of Diagnostic Pathology 6 1 20 9 doi 10 1053 adpa 2002 30606 PMID 11842376 Aronow WS August 2008 Hypertension and the older diabetic Clinics in Geriatric Medicine 24 3 489 501 vi vii doi 10 1016 j cger 2008 03 001 PMID 18672184 Retrieved 20 June 2009 Gardner AW Afaq A 2008 Management of Lower Extremity Peripheral Arterial Disease Journal of Cardiopulmonary Rehabilitation and Prevention 28 6 349 57 doi 10 1097 HCR 0b013e31818c3b96 PMC 2743684 PMID 19008688 Novo S Lunetta M Evola S Novo G January 2009 Role of ARBs in the blood hypertension therapy and prevention of cardiovascular events Current Drug Targets 10 1 20 5 doi 10 2174 138945009787122897 PMID 19149532 Archived from the original on 12 January 2013 Retrieved 20 June 2009 Craig WM 1939 Surgical Treatment of Hypertension Br Med J 2 4120 1215 9 doi 10 1136 bmj 2 4120 1215 PMC 2178707 PMID 20782854 Sneader Walter 2005 Drug Discovery A History New York Wiley p 371 Beyer KH 1993 Chlorothiazide How the thiazides evolved as antihypertensive therapy Hypertension 22 3 388 91 doi 10 1161 01 hyp 22 3 388 PMID 8349332 BORHANI NO HECHTER HH 1964 Recent Changes in CVR Disease Mortality in California An Epidemiologic Appraisal Public Health Rep 79 2 147 60 doi 10 2307 4592077 JSTOR 4592077 PMC 1915335 PMID 14119789 The Lasker Foundation Awards Archived from the original on 23 December 2015 Retrieved 24 February 2022 Wright James M Musini Vijaya M Gill Rupam 18 April 2018 First line drugs for hypertension The Cochrane Database of Systematic Reviews 2018 4 CD001841 doi 10 1002 14651858 CD001841 pub3 ISSN 1469 493X PMC 6513559 PMID 29667175 Stason WB Cannon PJ Heinemann HO Laragh JH November 1966 Furosemide A clinical evaluation of its diuretic action Circulation 34 5 910 20 doi 10 1161 01 cir 34 5 910 PMID 5332332 S2CID 886870 Black JW Crowther AF Shanks RG Smith LH Dornhorst AC 1964 A new adrenergic betareceptor antagonist The Lancet 283 7342 1080 1081 doi 10 1016 S0140 6736 64 91275 9 PMID 14132613 Lv J Perkovic V Foote CV Craig ME Craig JC Strippoli GF 2012 Antihypertensive agents for preventing diabetic kidney disease Cochrane Database Syst Rev 12 CD004136 doi 10 1002 14651858 CD004136 pub3 PMID 23235603 A brief history of the birth control pill The pill timeline Need to Know PBS PBS 7 May 2010 Archived from the original on 19 January 2018 Retrieved 8 September 2017 Magazine Smithsonian Why the Oral Contraceptive Is Just Known as The Pill Smithsonian Magazine smithsonianmag com Archived from the original on 28 April 2021 Retrieved 24 February 2022 BBC News HEALTH A short history of the pill Archived from the original on 6 July 2021 Retrieved 24 February 2022 FDA s Approval of the First Oral Contraceptive Enovid Food and Drug Administration Archived from the original on 23 July 2017 Retrieved 16 December 2019 Cafe Rebecca 4 December 2011 BBC News How the contraceptive pill changed Britain BBC News Archived from the original on 16 June 2019 Retrieved 21 June 2018 Brochure The History of Drug Regulation in the United States Food and Drug Administration Archived from the original on 23 July 2017 Retrieved 16 December 2019 Tobert Jonathan A July 2003 Lovastatin and beyond the history of the HMG CoA reductase inhibitors Nature Reviews Drug Discovery 2 7 517 526 doi 10 1038 nrd1112 ISSN 1474 1776 PMID 12815379 S2CID 3344720 Endo A 1 November 1992 The discovery and development of HMG CoA reductase inhibitors Journal of Lipid Research 33 11 1569 82 doi 10 1016 S0022 2275 20 41379 3 PMID 1464741 Endo Akira 2004 The origin of the statins International Congress Series 1262 3 8 doi 10 1016 j ics 2003 12 099 Scandinaviansimvastatinsurvival November 1994 Randomised trial of cholesterol lowering in 4444 patients with coronary heart disease the Scandinavian Simvastatin Survival Study 4S Lancet 344 8934 1383 9 doi 10 1016 S0140 6736 94 90566 5 PMID 7968073 S2CID 5965882 National Inventors Hall of Fame Honors 2012 Inductees PRNewswire Archived from the original on 12 May 2014 Retrieved 11 May 2014 How One Scientist Intrigued by Molds Found First Statin Wall Street Journal Archived from the original on 24 February 2022 Retrieved 11 May 2014 Top Global Pharmaceutical Company Report The Pharma 1000 PDF Torreya Retrieved 19 August 2022 Top Global Pharmaceutical Company Report PDF The Pharma 1000 November 2021 Retrieved 29 December 2022 a b Alvarado Delilah Pagliarulo Ned 8 January 2024 Year of biotech layoffs leaves industry looking for spark BioPharma Dive Retrieved 10 January 2024 a b Bell Jacob 20 December 2022 Biotech M amp A is picking back up Here are the latest deal BiopharmaDive Archived from the original on 24 December 2022 Retrieved 23 December 2022 Annual Impact Report Tufts Center for the Study of Drug Development Archived from the original on 3 February 2022 Retrieved 24 February 2022 The Pharmaceutical Industry in Figures Key Data 2021 PDF European Federation of Pharmaceutical Industries and Associations Retrieved 30 April 2022 Outsourcing Pharma com 25 May 2011 Pfizer teams with Parexel and Icon in CRO sector s latest strategic deals Outsourcing Pharma com Archived from the original on 11 October 2013 Retrieved 24 February 2022 How Many New Drugs Did FDA Approve Last Year pharmalot com Archived from the original on 8 May 2011 Retrieved 23 April 2011 Research Archived from the original on 20 July 2011 Retrieved 24 November 2006 a b Perry Susan 8 August 2012 Donald Light and Joel Lexchin in BMJ 2012 345 e4348 quoted in Big Pharma s claim of an innovation crisis is a myth BMJ authors say MinnPost Archived from the original on 11 August 2012 Retrieved 8 August 2012 About PhRMA PhRMA Archived from the original on 4 January 2013 Retrieved 23 April 2011 Has the Pharmaceutical Blockbuster Model Gone Bust bain com Archived from the original on 24 March 2016 Retrieved 19 May 2016 Harper Matthew 10 February 2012 The Truly Staggering Cost Of Inventing New Drugs Forbes Archived from the original on 9 December 2020 Retrieved 8 September 2017 IMS Health 18 June 2015 Are European biotechnology companies sufficiently protected Portal of Competitive Intelligence Archived from the original on 30 June 2015 Retrieved 27 June 2015 Liberti L McAuslane JN Walker S 2011 Standardizing the Benefit Risk Assessment of New Medicines Practical Applications of Frameworks for the Pharmaceutical Healthcare Professional Pharm Med 25 3 139 46 doi 10 1007 BF03256855 S2CID 45729390 Archived from the original on 6 February 2012 Retrieved 18 October 2011 Electronic Orange Book U S Food and Drug Administration Archived from the original on 7 April 2020 Retrieved 31 May 2007 The Orphan Drug Act as amended U S Food and Drug Administration Archived from the original on 7 April 2020 Retrieved 24 September 2007 The top 20 pharma companies by 2022 revenue Standardseite der Domain www vfa de PDF Archived from the original PDF on 11 August 2016 Retrieved 24 March 2008 Herper Matthew amp Kang Peter 22 March 2006 The World s Ten Best Selling Drugs Forbes Archived from the original on 5 May 2006 Retrieved 31 May 2007 Creating Connected Solutions for Better Healthcare Performance IMS Health Archived from the original PDF on 10 May 2020 Retrieved 23 February 2022 Kollewe Julia 27 March 2014 World s 10 bestselling prescription drugs made 75bn last year the Guardian Archived from the original on 7 April 2020 Retrieved 12 December 2016 Top 100 Drugs for 2013 by Sales U S Pharmaceutical Statistics Archived from the original on 31 March 2014 Retrieved 23 January 2018 IMS Health Forecasts 5 to 6 Percent Growth for Global Pharmaceutical Market in 2007 IMS Health 24 October 2006 Archived from the original on 3 May 2011 Retrieved 19 June 2007 Frequently Asked Questions FAQs Archived 25 February 2013 at the Wayback Machine New Drug Approvals in 2006 PDF March 2007 Archived from the original PDF on 28 February 2008 Retrieved 23 February 2008 Assessment of Authorized Generics in the U S PDF IMS Consulting June 2006 Archived from the original PDF on 28 February 2008 Retrieved 23 February 2008 Sanofi Laying Off 1 700 in US Drug Discovery amp Development Archived from the original on 11 September 2011 Retrieved 24 February 2022 2007 Health and Nutrition Census PDF U S Census Bureau Archived PDF from the original on 31 July 2020 Retrieved 19 May 2016 Goldacre Ben 2014 Bad pharma how drug companies mislead doctors and harm patients First American Paperback ed Macmillan ISBN 9780865478060 Kaufman Marc 6 May 2005 Merck CEO Resigns as Drug Probe Continues Washington Post Archived from the original on 9 November 2020 Retrieved 23 May 2007 Drug Lobby Second to None How the pharmaceutical industry gets its way in Washington publicintegrity org 7 July 2005 Archived from the original on 9 June 2007 Retrieved 23 May 2007 Moynihan R 29 May 2003 Drug company sponsorship of education could be replaced at a fraction of its cost BMJ 326 7400 1163 doi 10 1136 bmj 326 7400 1163 PMC 1126044 PMID 12775595 Dr No Free Lunch Mother Jones Archived from the original on 16 November 2020 Retrieved 19 May 2016 Moynihan Ray Cassels Alan 2005 Selling Sickness How the Drug Companies are Turning Us All into Patients Crows Nest N S W Allen amp Unwin ISBN 978 1 74114 579 3 A Collection of Articles on Disease Mongering Public Library of Science Archived from the original on 7 June 2007 Retrieved 23 May 2007 Pharmaceutical Market Research Trends And Analysis Reports literated com Archived from the original on 19 January 2016 Retrieved 17 January 2016 Buchkowsky SS Jewesson PJ April 2004 Industry sponsorship and authorship of clinical trials over 20 years Ann Pharmacother 38 4 579 85 doi 10 1345 aph 1D267 PMID 14982982 S2CID 43544256 Perlis RH Perlis CS Wu Y Hwang C Joseph M Nierenberg AA October 2005 Industry sponsorship and financial conflict of interest in the reporting of clinical trials in psychiatry Am J Psychiatry 162 10 1957 60 doi 10 1176 appi ajp 162 10 1957 PMID 16199844 Tungaraza T Poole R July 2007 Influence of drug company authorship and sponsorship on drug trial outcomes Br J Psychiatry 191 1 82 3 doi 10 1192 bjp bp 106 024547 PMID 17602130 Healy D 2006 The Latest Mania Selling Bipolar Disorder PLOS Med 3 4 e185 doi 10 1371 journal pmed 0030185 PMC 1434505 PMID 16597178 Cosgrove Lisa Krimsky Sheldon Vijayaraghavan Manisha Schneider Lisa 2006 Financial Ties between DSM IV Panel Members and the Pharmaceutical Industry Psychotherapy and Psychosomatics 75 3 154 160 doi 10 1159 000091772 PMID 16636630 S2CID 11909535 Open Payments February 2019 Archived from the original on 22 February 2022 Retrieved 24 February 2022 Lipton Eric Thomas Katie 29 May 2017 Drug Lobbyists Battle Cry Over Prices Blame the Others New York Times Archived from the original on 20 November 2020 Retrieved 30 May 2017 Morgan Steven G Bathula Hannah S Moon Suerie 2020 Pricing of pharmaceuticals is becoming a major challenge for health systems BMJ 368 l4627 doi 10 1136 bmj l4627 PMID 31932289 S2CID 210192662 Archived from the original on 27 November 2020 Retrieved 14 November 2020 High Drug Prices and Patient Costs Millions of Lives and Billions of Dollars Lost www cidsa org West Health Council for Informed Drug Spending Analysis 18 November 2020 Retrieved 20 February 2023 a b Goldacre Ben 2014 Bad pharma how drug companies mislead doctors and harm patients First American Paperback ed Macmillan pp 123 124 ISBN 9780865478060 Archived copy PDF Office of Science and Technology Policy Archived PDF from the original on 21 January 2017 Retrieved 1 March 2021 via National Archives a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Financial Crimes to the Public Report 2006 FBI 2006 Archived from the original on 29 May 2016 Retrieved 28 July 2016 FBI Health Care Fraud FBI Archived from the original on 2 July 2016 Retrieved 28 July 2016 Department of Justice Department of Justice 19 March 2015 Archived from the original on 9 November 2014 Retrieved 22 November 2020 Wilson Duff 2 October 2010 Side Effects May Include Lawsuits The New York Times Archived from the original on 23 June 2017 Retrieved 25 February 2017 GlaxoSmithKline BBC News 4 July 2012 Archived from the original on 17 November 2020 Retrieved 21 June 2018 GlaxoSmithKline Agrees to Pay 3 Billion in U S Drug Settlement Bloomberg 2 July 2012 Archived from the original on 14 May 2014 Retrieved 11 March 2017 Mogul Fred 2 July 2012 NY to Get Millions in GlaxoSmithKlein Settlement WNYC Archived from the original on 19 April 2013 Retrieved 2 July 2012 BBC News GlaxoSmithKline to pay 3bn in US drug fraud scandal BBC Online 2 July 2012 Archived from the original on 17 November 2020 Retrieved 2 July 2012 Thomas Katie amp Schmidt Michael S 2 July 2012 Glaxo Agrees to Pay 3 Billion in Fraud Settlement The New York Times Archived from the original on 2 March 2017 Retrieved 3 July 2012 Rapidly Increasing Criminal and Civil Penalties Against the Pharmaceutical Industry 1991 2010 citizen org Archived from the original on 16 May 2016 Retrieved 19 May 2016 Thomas Katie Schmidt Michael S 2 July 2012 GlaxoSmithKline Agrees to Pay 3 Billion in Fraud Settlement The New York Times Archived from the original on 12 November 2020 Retrieved 25 February 2017 GlaxoSmithKline to Plead Guilty and Pay 3 Billion to Resolve Fraud Allegations and Failure to Report Safety Data 2 July 2012 Archived from the original on 9 September 2014 Retrieved 22 November 2020 JUSTICE DEPARTMENT ANNOUNCES LARGEST HEALTH CARE FRAUD PDF US department of Justice Archived PDF from the original on 2 December 2020 Retrieved 19 May 2016 Abbott Labs to Pay 1 5 Billion to Resolve Criminal amp Civil Investigations of Off label Promotion of Depakote 7 May 2012 Archived from the original on 21 August 2014 Retrieved 22 November 2020 09 038 Eli Lilly and Company Agrees to Pay 1 415 Billion to Resolve Allegationsof Off label Promotion of Zyprexa 2009 01 15 Archived from the original on 13 March 2016 Retrieved 22 November 2020 Drazen Jeffrey M 2015 Revisiting the Commercial Academic Interface New England Journal of Medicine 372 19 1853 1854 doi 10 1056 NEJMe1503623 PMID 25946285 Rosenbaum Lisa 2015 Reconnecting the Dots Reinterpreting Industry Physician Relations New England Journal of Medicine 372 19 1860 1864 doi 10 1056 NEJMms1502493 PMID 25946288 Covid vaccine front runners How much they cost who s bought them and how they re stored CNBC 17 November 2020 Archived from the original on 1 December 2020 Retrieved 2 December 2020 Henninger Daniel 2 December 2020 Opinion Pharma Deserves the Nobel Peace Prize for the Covid Vaccines Wall Street Journal Archived from the original on 3 February 2021 Retrieved 4 December 2020 a b No profiteering on COVID 19 drugs and vaccines says MSF Medecins Sans Frontieres MSF International Archived from the original on 26 November 2021 Retrieved 22 April 2020 Mazzucato Mariana Momenghalibaf Azzi 18 March 2020 Drug Companies Will Make a Killing From Coronavirus The New York Times Archived from the original on 23 November 2020 Retrieved 22 April 2020 HHS DOD Collaborate with Regeneron on Large Scale Manufacturing Demonstration Project of COVID 19 Investigational Therapeutic Treatment 6 July 2020 Archived from the original on 18 December 2020 Retrieved 2 December 2020 COVID 19 Vaccines 12 December 2020 Archived from the original on 19 December 2020 Retrieved 2 December 2020 a b Lupkin Sydney 24 March 2020 FDA Grants Experimental Coronavirus Drug Benefits For Rare Disease Treatments NPR Archived from the original on 14 December 2020 Retrieved 24 March 2020 a b c Conley Julia 24 March 2020 This Is a Massive Scandal Trump FDA Grants Drug Company Exclusive Claim on Promising Coronavirus Drug Common Dreams Archived from the original on 8 December 2020 Retrieved 22 April 2020 Boodman Eric 18 May 2020 Gilead ups its donation of the Covid 19 drug remdesivir for U S hospitals statnews com Archived from the original on 20 December 2020 Retrieved 19 July 2020 Lawson Alex 25 March 2020 Don t Let Big Pharma Make a Killing by Profiteering Off COVID 19 Treatments Common Dreams Archived from the original on 9 November 2020 Retrieved 22 April 2020 Gilead Sciences Statement on Expanding Global Supply of Investigational Antiviral Remdesivir Gilead Archived from the original on 11 December 2020 Retrieved 16 July 2020 See for example t Hoen Ellen TRIPS Pharmaceutical Patents and Access to Essential Medicines A Long Way from Seattle to Doha Chicago Journal of International Law 27 43 2002 Musungu Sisule F and Cecilia Oh The Use of Flexibilities in TRIPS by Developing Countries Can They Provide Access to Medicines Commission on Intellectual Property Rights Innovation and Public Health The World Health Organization 2005 Declaration on the TRIPS agreement and public health World Trade Organization Archived from the original on 20 June 2016 Retrieved 19 May 2016 Pharmaceutical Manufacturer s Association v The President of South Africa PMA 2002 2 SA 674 CC S Africa Helfer Laurence R Austin Graeme W 7 March 2011 Human Rights and Intellectual Property Mapping the Global Interface Cambridge University Press pp 145 148 ISBN 978 1 139 49691 9 Archived from the original on 16 November 2020 Retrieved 28 July 2016 GlaxoSmithKline to drop patents in poor countries for better drug access BBC News Archived from the original on 9 November 2020 Retrieved 19 May 2016 Bumper Year for Corporate Donations Reveals Profit Motives corpwatch org Archived from the original on 11 November 2017 Retrieved 24 February 2022 Merk Archived from the original on 26 August 2006 Retrieved 30 August 2006 Pfizer Will Donate Fluconazole to South Africa Archived from the original on 24 October 2010 Retrieved 30 August 2006 Corporate Responsibility Novartis novartis com Archived from the original on 1 September 2017 Retrieved 19 May 2016 External links edit nbsp Quotations related to Pharmaceutical industry at Wikiquote Global Medicines Use in 2020 IMS Institute for Healthcare Informatics November 2015 The pharmaceutical industry and global health Facts amp figures 2017 PDF International Federation of Pharmaceutical Manufacturers amp Associations February 2017 Licensing Agreements in the Pharmaceutical Industry The Pharmaceutical Industry in Figures Key Data 2018 PDF European Federation of Pharmaceutical Industries and Associations Retrieved from https en wikipedia org w index php title Pharmaceutical industry amp oldid 1206937763, wikipedia, wiki, book, books, library,

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