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Wikipedia

Anthrax vaccine adsorbed

January 01, 1970

This article is about the US-licensed vaccine product. For the US government program, see Anthrax Vaccine Immunization Program.

Anthrax vaccine adsorbed, sold under the brand name Biothrax among others, is a vaccine intended to provide acquired immunity against Bacillus anthracis.[3][5][4]

Anthrax vaccine adsorbed
Vaccine description
TargetBacillus anthracis
Vaccine typeSubunit
Clinical data
Trade namesBiothrax, Cyfendus
Other namesrPA102
AHFS/Drugs.comMonograph
MedlinePlusa607013
License data
Routes of
administration		Subcutaneous, intramuscular
ATC code
Legal status
Legal status
Identifiers
DrugBank
  • DB11003 Y
ChemSpider
  • none
UNII
  • 873OI62848
 NY (what is this?)  (verify)

Anthrax vaccine adsorbed originated in studies done in the 1950s and was first licensed for use in humans in 1970. In the US, the principal purchasers of the vaccine are the Department of Defense and Department of Health and Human Services. Ten million courses (60 million doses) of the vaccine have been purchased for the US Strategic National Stockpile in anticipation of the need for mass vaccinations owing to a future bio-terrorist anthrax attack. The product has attracted some controversy owing to alleged adverse events and questions as to whether it is effective against the inhalational form of anthrax.

Medical uses edit

Anthrax vaccine adsorbed (Biothrax) is indicated for the active immunization for the prevention of disease caused by Bacillus anthracis in people aged 18 through 65 years of age.[4] It is approved for both pre-exposure prophylaxis of disease in persons at high risk of exposure and post-exposure prophylaxis of disease following suspected or confirmed Bacillus anthracis exposure, when administered in conjunction with recommended antibacterial drugs.[3][4]

Anthrax vaccine adsorbed, adjuvanted (Cyfendus) is indicated for post-exposure prophylaxis of disease following suspected or confirmed exposure to Bacillus anthracis in people aged 18 through 65 years of age when administered in conjunction with recommended antibacterial drugs.[5]

Description edit

Anthrax vaccine adsorbed was developed by Emergent Biodefense Operations.

Antigen edit

Anthrax vaccine adsorbed is classified as a subunit vaccine that is cell-free and containing no whole or live anthrax bacteria.[7] The antigen (immunologically active) portions are produced from culture filtrates of a toxigenic, but avirulent, nonencapsulated mutant — known as V770-NP1-R — of the B. anthracis Vollum strain.[8] (The Vollum strain was the same one weaponized by the old U.S. biological warfare program.) As with the Sterne (veterinary) anthrax vaccine strain and the similar British anthrax vaccine (known as AVP), anthrax vaccine adsorbed lacks the capsule plasmid pXO2 (required for full virulence) and is composed chiefly of the anthrax protective antigen (PA)[9] with small amounts of edema factor (EF) and lethal factor (LF) that may vary from lot to lot. Other uncharacterized bacterial byproducts are also present. Whether or not the EF and LF contribute to the vaccine's efficacy is not known.[10] Anthrax vaccine adsorbed has smaller amounts of EF and LF than AVP.[11]

Adjuvant edit

Anthrax vaccine adsorbed contains aluminium hydroxide (alhydrogel) to adsorb PA as well as to serve as an adjuvant (immune enhancer).[7] As such it is believed to stimulate humoral, but not cell-mediated, immunity.[12] Each dose of the vaccine contains no more than 0.83 mg aluminum per 0.5 mL dose. (This is near the allowed upper limit of 0.85 mg/dose.[13]) It also contains 0.0025% benzethonium chloride as a preservative and 0.0037% formaldehyde as a stabilizer.[7] The mechanism of action of the adjuvant is not entirely understood.

Potency/immunogenicity edit

Vaccination of humans with anthrax vaccine adsorbed induces an immune response to PA. More than 1/3 of subjects develop detectable anti-PA IgG after a single inoculation; 95% do so after a 2nd injection; and 100% after 3 doses. The peak IgG response occurs after the 4th (6 month) dose. The potency of anthrax vaccine adsorbed vaccine lots is routinely determined both by the survival rates of parenterally challenged guinea pigs and their anti-PA antibody titres as measured by an enzyme linked immunosorbant assay (ELISA). The shelf-life of anthrax vaccine adsorbed is reported to be three years when stored between 2 °C and 8 °C (36 °F and 46 °F) and never frozen.

History edit

Initial research and development (1954–1970) edit

The vaccine efficacy of anthrax vaccine adsorbed in humans was initially established by Philip S. Brachman of the United States Public Health Service (USPHS) in a controlled study undertaken between 1954 and 1959. The study field sites were four wool-sorting mills in the northeastern United States where employees were sometimes exposed to anthrax spores in the course of their work. Over the five years, 379 vaccinees were compared against 414 unvaccinated control subjects. There were 23 cases among controls (5 of them inhalation anthrax) compared with 3 cases among vaccinated (0 inhalation cases). The vaccine was judged to have a 92.5% vaccine efficacy against all types of anthrax experienced.[14] Subsequently, there were no controlled clinical trials in humans of the efficacy of anthrax vaccine adsorbed[15] due to the rarity of the condition (especially in the inhalational form) in humans and the ethical inadmissibility of conducting dangerous challenge studies in human subjects. Supportive animal challenge studies were done, however, showing that unvaccinated animals uniformly die whereas vaccinated animals are protected. About 95% of rhesus monkeys (62 of 65) survived challenge, as did 97% of rabbits (114 of 117). Guinea pigs (which are a poorer model for human anthrax than are monkeys or rabbits) showed a 22% protection (19 of 88).

Licensure and limited occupational use (1970–1991) edit

In 1970, anthrax vaccine adsorbed was first licensed by the USPHS for protection against cutaneous anthrax to a state-owned facility operated by the Michigan Department of Public Health. In 1973, the US Food and Drug Administration (FDA) first published standards for making, using and storing anthrax vaccine adsorbed.[16] In the mid-1980s, the FDA approved it specifically for two limited preventive indications: 1) individuals who may come in contact with animal products or high-risk persons such as veterinarians and others handling potentially infected animals; and 2) individuals engaged in diagnostic or investigational activities involving anthrax spores. In 1985, the FDA published a Proposed Rule for a specific product review of the anthrax vaccine adsorbed, stating that the vaccine's "efficacy against inhalation anthrax is not well documented" (a statement quoted controversially many years later). For many years, anthrax vaccine adsorbed was a little known product considered to be safe for pre-exposure use in the US in at-risk veterinarians, laboratory workers, livestock handlers, and textile plant workers who process animal hair. In 1990, the State of Michigan changed the name of its original production plant facility to the Michigan Biologic Products Institute (MBPI) as it gave up state ownership and converted it to a private entity. The same year (as later revealed) MBPI changed both the fermenters and the filters used in manufacturing anthrax vaccine adsorbed without notifying the FDA, thus reportedly causing a 100 fold increase in the PA levels present in vaccine lots.[citation needed]

Only several thousand people had ever received the vaccine up to 1991 when — coincident with Saddam Hussein's invasion of Kuwait and the subsequent Gulf War — MBPI and the U.S. Army entered into an agreement for the manufacture of the vaccine. Later that year, the Army awarded MBPI the Commander's Award for Public Service for their efforts in supplying the US military with increased amounts of anthrax vaccine adsorbed for use during the conflict in which the use of anthrax bio-weapons by Iraq had been anticipated.

Initial use in US military (1991–1997) edit

Use of anthrax vaccine adsorbed expanded dramatically in 1991, when the US military, concerned that Iraq possessed anthrax bioweapons, administered it to some 150,000 service members deployed for the Gulf War. Hussein never deployed his bio-weapons, but subsequent confirmation of an Iraqi bioweapons program — including 8,500 liters of concentrated anthrax spores (6,500 liters of it filled into munitions) — came in 1995 and later when the Iraqi government began to fully disclose the scope and scale of the effort, which it had pursued since the 1980s.

Meanwhile, MBPI fell afoul of FDA inspectors and reviewers when it failed inspections (1993, 1997) and received warning letters (1995) and Notices of Intention to Revoke (1997) from the agency. At issue were a failure to validate the anthrax vaccine adsorbed manufacturing process to the FDA's satisfaction and various quality control failures, including reuse of expired vaccine, inadequate testing procedures, and use of lots that had failed testing. All of these developments vexed the Army, not only in its efforts to obtain sufficient vaccine for the troops, but in its desire to have anthrax vaccine adsorbed validated and fully licensed for prevention of inhalational anthrax, which is the expected weaponized form of the disease (as opposed to the cutaneous form for which the vaccine had been licensed in 1970). In 1995, the Army contracted with the Science Applications International Corporation (SAIC) to develop a plan to obtain FDA approval for a license amendment for anthrax vaccine adsorbed in order to add inhalational anthrax exposure to the product license thus enabling the manufacturer to list on the product license that the vaccine was effective against that form of the disease. The following year, MBPI submitted an "IND application" to modify the product's license to add an indication for inhalation anthrax, thus formally establishing anthrax vaccine adsorbed as an "experimental" vaccine when used to prevent anthrax in the inhalational form.

In 1996, the US Department of Defense (DoD) sought and received permission from the FDA to begin vaccinations of all military personnel without obtaining a new licensed indication for anthrax vaccine adsorbed. It announced a plan the following year for the mandatory vaccination of all US service members. Under the plan all military personnel, including new recruits, would begin receiving what was then a six-shot series of inoculations in the following fashion: Phase 1: Forces assigned now, or soon rotating, to high threat areas in Southwest Asia and Korea; Phase 2: Early deploying forces into high threat areas; Phase 3: Remainder of the force and new recruits; and Phase 4: Continuation of the program with annual booster shots.

The AVIP and initial mandatory military use (1997–2000) edit

 
USAF flight surgeon Maj. Timothy Ballard (right) administers the final shot in the six-dose series of anthrax vaccine adsorbed to Chairman of the Joint Chiefs of Staff Gen. Henry Shelton

There were no published studies of anthrax vaccine adsorbed's safety in humans[17] until the advent of the Anthrax Vaccine Immunization Program (AVIP). This program, initiated by the Clinton administration and announced by Secretary of Defense William Cohen in 1997, made the vaccine mandatory for active duty US service personnel. Vaccinations began in March 1998 with personnel sent to high-risk areas, such as South Korea and Southwest Asia. Also in 1998, MBPI was purchased by BioPort Corporation of Lansing, Michigan (jointly with former MBPI laboratory directors) for approximately $24 million. The same year, a particularly damning FDA report was issued resulting in the temporary suspension of anthrax vaccine adsorbed shipments from the production plant. Much controversy ensued due to the FDA infractions, the mandatory nature of the program, and to a public perception that anthrax vaccine adsorbed was unsafe — possibly causing sometimes serious side effects — and might be contributing to the highly politically charged malady known as "Gulf War syndrome". Hundreds of service members were compelled to leave the military (some of them court-martialed) for resisting the inoculations during the first six years of the program.

Adverse events following anthrax vaccine adsorbed administration were assessed in several studies conducted by the DoD in the context of the routine anthrax vaccination program. Between 1998 and 2000, at U.S. Forces, Korea, data were collected at the time of anthrax vaccination from 4,348 service personnel regarding adverse events experienced from a previous dose of anthrax vaccine. Most reported events were localized, minor, and self-limited. After the first or second dose, 1.9% reported limitations in work performance or had been placed on limited duty. Only 0.3% reported >1 day lost from work; 0.5% consulted a clinic for evaluation; and one person (0.02%) required hospitalization for an injection site reaction. Adverse events were reported more commonly among women than among men. A second study, also between 1998 and 2000, at Tripler Army Medical Center, Hawaii, assessed adverse events among 603 military health-care workers. Rates of events that resulted in seeking medical advice or taking time off work were 7.9% after the first dose; 5.1% after the second dose; 3.0% after the third dose; and 3.1% after the fourth dose. Events most commonly reported included muscle or joint aches, headache, and fatigue. However, these studies are subject to several methodological limitations, including sample size, the limited ability to detect adverse events, loss to follow-up, exemption of vaccine recipients with previous adverse events, observational bias, and the absence of unvaccinated control groups.[18]

By 2000, some 425,976 US service members had received 1,620,793 doses of anthrax vaccine adsorbed.

The IOM review (2000–2004) edit

In October 2000, a committee of the Institute of Medicine (IOM) of the National Academy of Sciences was asked by the US Congress to review anthrax vaccine adsorbed according to the best available evidence. It issued its study in March 2002. The IOM panel noted that human data on inhalational anthrax prevention is limited due to the natural low incidence of disease and that therefore animal model data are the best we are ever likely to have. Primates and rabbits were considered the best models for human disease. As regards vaccine effectiveness, "The committee finds that the available evidence from studies with humans and animals, coupled with reasonable assumptions of analogy, show that anthrax vaccine adsorbed as licensed is an effective vaccine for the protection of humans against anthrax, including inhalational anthrax, caused by all known or plausible engineered strains of B. anthracis." With regard to safety, "The committee found no evidence that people face an increased risk of experiencing life-threatening or permanently disabling adverse events immediately after receiving anthrax vaccine adsorbed, when compared with the general population. Nor did it find any convincing evidence that people face elevated risk of developing adverse health effects over the longer term, although data are limited in this regard (as they are for all vaccines)." Side effects of anthrax vaccine adsorbed were found to be "comparable to those observed with other vaccines regularly administered to adults". The committee concluded that anthrax vaccine adsorbed is "safe and efficacious" for pre-exposure prevention of inhalational anthrax. It also asserted that a new and improved anthrax vaccine might have greater assurance of consistency than anthrax vaccine adsorbed and recommended licensure of a new vaccine requiring fewer doses and producing fewer local reactions.[19]

In the months after the October 2001 anthrax letters attacks, Washington and New York area mail sorters were advised to receive prophylactic vaccination with anthrax vaccine adsorbed. Owing to the controversy surrounding the administration of the vaccine to military personnel, however, some 6,000 US Postal Service employees balked at this, preferring to take their chances with the risks of residual anthrax spores in the workplace.[20]

BioPort changed its name to Emergent BioSolutions in 2004.

Injunctions and FDA re-reviews (2004–2006) edit

Despite the positive IOM assessment, mandatory vaccinations of military personnel were halted due to an injunction which was put into place on 27 October 2004. The injunction cast questions about numerous substantive challenges regarding the anthrax vaccine in footnote #10,[21] yet the procedural findings centered on FDA procedural issues, stating that additional public comment should have been sought before the FDA issued its Final Rule declaring the vaccine safe and effective on 30 December 2003.[22] The FDA's incomplete rulemaking from 1985 effectively rendered the anthrax vaccine program illegal. The basis was the never finalized FDA Proposed Rule. In that rulemaking the FDA published, but never finalized, a licensing rule for the anthrax vaccine in the Federal Register, which included an expert review panel's findings. Those findings included the fact that the "Anthrax vaccine efficacy against inhalation anthrax is not well documented," and that "No meaningful assessment of its value against inhalation anthrax is possible due to its low incidence," and that "The vaccine manufactured by the Michigan Department of Public Health has not been employed in a controlled field trial."[23]

On 15 December 2005, the FDA re-issued a Final Rule & Order on the license status of the anthrax vaccine.[24] After reviewing the extensive scientific evidence and carefully considering comments from the public, the FDA again determined that the vaccine is appropriately licensed for the prevention of anthrax, regardless of the route of exposure. Also in 2005, the George W. Bush administration established a policy to ensure that the Strategic National Stockpile retains a current unexpired inventory of 60 million doses of anthrax vaccine adsorbed. (The US GAO reports that 4 million doses of the inventory will expire every year, requiring vaccine destruction services.) These would be used for pre- or post-exposure vaccination — of emergency first responders (police, firefighters), federal responders, medical practitioners, and private citizens — in the event of a bioterrorist anthrax attack.

Reinstatement of the AVIP (2006–2016) edit

On 16 October 2006, the DoD announced the reinstatement of mandatory anthrax vaccinations for more than 200,000 troops and defense contractors. (Another lawsuit was filed by the same attorneys as before, challenging the basis of the vaccine's license on scientific grounds.) The reinstated policy required vaccinations for most military units and civilian contractors assigned to homeland bioterrorism defense or deployed in Iraq, Afghanistan or South Korea.[25] A modification of previous policy allowed military personnel no longer deployed to higher threat areas to receive follow up doses and booster shots on a voluntary basis. As of June 2008, over 8 million doses of anthrax vaccine adsorbed had been administered to over 2 million US military personnel as part of the AVIP.

In December 2008, the FDA approved Biothrax for intramuscular injections thus reducing the immunization schedule from a total of 6 shots to 5 shots (see below).

In February 2009, Emergent BioSolutions announced that the Drugs Controller General of India (DGCI) had approved licensing of Biothrax for distribution by Biological E. of Hyderabad.[26]

In 2011, Biothrax was approved for sale in Singapore by the Singapore Health Sciences Authority.[27]

Building 55 approval (2016) edit

The FDA approved the company's license (officially called a supplemental Biologics License Application, or sBLA) to manufacture Biothrax in a large building in Lansing, Michigan known as "Building 55." According to Homeland Preparedness News, "The use of Building 55 to manufacture Biothrax could expand manufacturing capacity to an estimated 20 to 25 million doses annually."[28]

The US federal government has a goal to stockpile 75 million doses of anthrax vaccines. The new facility and its capacity will help Emergent meet the government's security needs.[28]

Emergent worked with the Biomedical Advanced Research and Development Authority (BARDA) within the Office of the Assistant Secretary for Preparedness and Response in the United States Department of Health and Human Services on the project. The facility's value is estimated at $104 million, according to Yahoo Finance.[29]

Administration edit

Vaccination schedule edit

The loss of memory B-Cells leads to declining concentrations of IgG which can sequester APA, and therefore declining tolerance to the presence of anthrax bacteria. There is the potential that other memory B-Cell populations will be adversely affected as well.[citation needed]

Furin is the protein activator for pro-parathyroid hormone, transforming growth factor beta 1, von Willebrand factor, pro-albumin, pro-beta-secretase, membrane type-1 matrix metalloproteinase, gonadotropin, and nerve growth factor. Furin is also essential to maintain peripheral immune tolerance by creating memory T-cells and suppressor T-cells.[30]

Based on a retrospective cohort study of female military members inoculated during pregnancy, there may be a small risk of birth defect for inoculation during first trimester. However, the difference between the vaccinated and unvaccinated control groups was not large enough to be conclusive.[31]

The approved US FDA package insert for Biothrax contains the following notice:

Pregnant women should not be vaccinated against anthrax unless the potential benefits of vaccination have been determined to outweigh the potential risk to the fetus. If this drug is used during pregnancy, or if the patient becomes pregnant while taking this product, the patient should be apprised of the potential hazard to the fetus.[32]

Contraindications edit

The approved US FDA package insert for Biothrax contains the following notice:

  • Severe allergic reaction (e.g., anaphylaxis) after a previous dose of Biothrax.
  • Administer with caution to patients with a possible history of latex sensitivity because the vial stopper contains dry natural rubber and may cause allergic reactions.[32]

Adverse reactions edit

There have been no long-term sequelae of the known adverse events (local or systemic reactions) and no pattern of frequently reported serious adverse events for anthrax vaccine adsorbed.[18]

The approved FDA package insert for anthrax vaccine adsorbed contains the following notice: "The most common (>10%) local (injection-site) adverse reactions observed in clinical studies were tenderness, pain, erythema and arm motion limitation. The most common (>5%) systemic adverse reactions were muscle aches, fatigue and headache." Also, "Serious allergic reactions, including anaphylactic shock, have been observed during post-marketing surveillance in individuals receiving Biothrax".[32]

Drug interactions edit

The approved US FDA package insert for anthrax vaccine adsorbed contains the following notice:

Immunosuppressive therapies may diminish the immune response to Biothrax.[32]

Post-exposure vaccination edit

Some studies show that use of antibiotics effective against anthrax plus administration of anthrax vaccine adsorbed is the most beneficial approach for purposes of post-exposure prophylaxis. This practice has been endorsed by the Advisory Committee on Immunization Practices (ACIP), the Johns Hopkins Working Group on Civilian Biodefense, and the 2002 Institute of Medicine report on the vaccine. However, anthrax vaccine adsorbed is not licensed for post-exposure prophylaxis for inhalational anthrax or for use in a 3-dose regimen. Any such use, therefore, would be on an off-label or IND (officially experimental) basis. "... the safety and efficacy of Biothrax for post-exposure setting have not been established.".[32]

Society and culture edit

Controversy edit

In the United States edit

Although many individuals have expressed health concerns after receiving anthrax vaccine, a congressionally directed study by the Institute of Medicine (part of the National Academy of Sciences) concluded that this anthrax vaccine is as safe as other vaccines. The academy considered more than a dozen studies using various scientific designs, and heard personally from many concerned US military service members.[19]

Development of a replacement vaccine edit

While effective in protecting against anthrax, the licensed vaccine schedule is not very efficient, involving a cumbersome five (previously six) dose injection series. Typically, five injections are given over a period of 18 months in order to induce a protective immune system response. In addition, in 2004 the US Department of Health and Human Services contracted with Vaxgen Inc. to supply up to 75 million doses of a recombinant anthrax vaccine, for $877 million.[33] To be acceptable to HHS, this vaccine was to be protective against anthrax in three doses or less. On 19 December 2006, HHS voided the contract, because of stability problems with the vaccine, and a failure to start a Phase 2 clinical trial on time.[34] In May 2008, Emergent Biosolutions, the Maryland-based successor to BioPort, both controlled by former Lebanese banker Faud el Hibri, acquired rights to Vaxgen's patents and processes.[35]

In October 2012, the US National Institute of Allergy and Infectious Diseases agreed to provide $6.5 million to the United Kingdom's Health Protection Agency for initial work on a potential future anthrax vaccine that could be delivered through the nasal passage instead of via a needle. The HPA has long produced the UK's AVP anthrax vaccine.

Research is being continuously done to develop and test new improved candidate anthrax vaccines.[36][37][38] The primary immunogen of acellular existing vaccines, i.e., Protective Antigen (PA), is highly thermolabile due to inherent structural and chemical instability.[39][40][41][42] Various endeavors are underway to thermostabilize PA molecule by solvent engineering and genetic engineering approaches to generate a thermostable anthrax vaccine formulation without compromising on the immunogenicity and its protective potential.[38] The generation of a thermostable anthrax vaccine would minimize the current cold chain requirement for its storage and transport. Anthrax vaccines which would be amenable to other modes of administration such as oral, nasal, skin patch etc., are also being experimented.

Human Genome Sciences announced in 2007, the development of a new anthrax neutralizing monoclonal antibody with the trademark name of 'ABthrax'. The vaccine sensitizes the human immune system to the presence of the Anthrax Toxin Factor. In 2008, HGS reported on testing on 400 human volunteers given ABthrax. In 2009, HGS announced that they had made first delivery of 20,000 doses of ABthrax to the United States Department of Defense.[43] Currently three anthrax antitoxin antibodies, namely, Anthrax immune globulin intravenous or 'AIGIV' (polyclonal), 'Obiltoxaximab' or 'ANTHIM' (monoclonal), and 'Raxibacumab' or 'ABthrax' (monoclonal) are approved for the treatment of inhalation anthrax.[44]

References edit

  1. ^ "Summary Basis of Decision (SBD) for Biothrax". Health Canada. 23 October 2014. Retrieved 29 May 2022.
  2. ^ "Drug and medical device highlights 2018: Helping you maintain and improve your health". Health Canada. 14 October 2020. Retrieved 17 April 2024.
  3. ^ a b c "Biothrax". U.S. Food and Drug Administration. 6 July 2023. Retrieved 25 August 2023.   This article incorporates text from this source, which is in the public domain.
  4. ^ a b c d "Biothrax- bacillus anthracis injection, suspension". DailyMed. 15 November 2015. Retrieved 27 August 2023.
  5. ^ a b c "Cyfendus". U.S. Food and Drug Administration. 19 July 2023. Retrieved 25 August 2023.   This article incorporates text from this source, which is in the public domain.
  6. ^ https://www.fda.gov/media/170445/download
  7. ^ a b c Biothrax Package Insert
  8. ^ Puziss M, Manning LC, Lynch JW, et al. (1963). "Large-scale production of protective antigen of Bacillus anthracis in anaerobic cultures". Appl Microbiol. 11 (4): 330–334. doi:10.1128/AEM.11.4.330-334.1963. PMC 1057997. PMID 13972634.
  9. ^ Leppla SH, Klimpel KR, Singh Y, et al (June 1996), "Interaction of anthrax toxin with mammalian cells", Salisbury Medical Bulletin, Special Supplement #87, pg 91.
  10. ^ Nass M (March 1999). . Infectious Disease Clinics of North America. 13 (1): 187–208, viii. doi:10.1016/s0891-5520(05)70050-7. PMID 10198799. Archived from the original on 9 January 2013. Retrieved 31 October 2012.
  11. ^ Turnbull PC (August 1991). "Anthrax vaccines: past, present and future". Vaccine. 9 (8): 533–9. doi:10.1016/0264-410x(91)90237-z. PMID 1771966.
  12. ^ Welkos SL, Friedlander AM (August 1988). "Comparative safety and efficacy against Bacillus anthracis of protective antigen and live vaccines in mice". Microbial Pathogenesis. 5 (2): 127–39. doi:10.1016/0882-4010(88)90015-0. PMID 3148815.
  13. ^ Baylor NW, Egan W, Richman P (May 2002). "Aluminum salts in vaccines--US perspective". Vaccine. 20 (Suppl 3): S18-23. doi:10.1016/S0264-410X(02)00166-4. PMID 12184360.
  14. ^ Brachman PS, Gold H, Plotkin SA, Fekety FR, Werrin M, Ingraham NR (April 1962). "Field Evaluation of a Human Anthrax Vaccine". American Journal of Public Health and the Nation's Health. 52 (4): 632–45. doi:10.2105/ajph.52.4.632. PMC 1522900. PMID 18017912.
  15. ^ Brachman PS and Friedlander AM (1994), "Anthrax", In: Plotkin SA and Mortimer EA (eds): Vaccines, 2nd ed.; Philadelphia, WB Saunders, pg 729.
  16. ^ 21 CFR Section 620.20.
  17. ^ Brachman (1994), Op. cit., pg 729.
  18. ^ a b Centers for Disease Control Prevention (CDC) (April 2000). "Surveillance for adverse events associated with anthrax vaccination--U.S. Department of Defense, 1998-2000". MMWR. Morbidity and Mortality Weekly Report. 49 (16): 341–5. PMID 10817479.
  19. ^ a b Joellenbeck LM, Zwanziger LL, Durch JS, Strom BL (April 2002). The Anthrax Vaccine: Is It Safe? Does It Work?. National Academies Press. doi:10.17226/10310. ISBN 978-0-309-08309-6. PMID 25057597. S2CID 78028756.
  20. ^ Allen, Arthur (2007), Vaccine: The Controversial Story of Medicine's Greatest Lifesaver; W.W. Norton & Co., pp 13-14.
  21. ^ (PDF). Military Vaccine (MILVAX) Agency. 27 October 2004. Archived from the original (PDF) on 25 August 2009. Retrieved 6 May 2009.
  22. ^ Federal Register, 5 January 2006, vol 69: pp 255-67.
  23. ^ (PDF). Archived from the original (PDF) on 3 March 2012. Retrieved 29 October 2012.
  24. ^ FDA Final Order. 2 November 2012 at the Wayback Machine Issued 15 December 2005.
  25. ^ Mandatory Vaccine Article - 'Mandatory Anthrax Shots to Return', Christopher Lee, Washington Post (17 October 2006)
  26. ^ "Emergent BioSolutions Announces That Biothrax (Anthrax Vaccine Adsorbed) Receives Market Authorization in India" (Press release). 12 February 2009.
  27. ^ Clabaugh J (24 June 2011). "Emergent gets entry to Singapore". Washington Business Journal. Retrieved 22 July 2011.
  28. ^ a b "FDA approves sBLA for Biothrax manufacture at Emergent BioSolutions' Building 55". Homeland Preparedness News. 16 August 2016. Retrieved 23 August 2016.
  29. ^ "Emergent BioSolutions Receives FDA Approval for Large-Scale Manufacturing of Biothrax in Building 55". Yahoo Finance. 15 August 2016. Retrieved 23 August 2016.
  30. ^ Pesu M, Watford WT, Wei L, Xu L, Fuss I, Strober W, et al. (September 2008). "T-cell-expressed proprotein convertase furin is essential for maintenance of peripheral immune tolerance". Nature. 455 (7210): 246–50. Bibcode:2008Natur.455..246P. doi:10.1038/nature07210. PMC 2758057. PMID 18701887.
  31. ^ Ryan MA, Smith TC, Sevick CJ, Honner WK, Loach RA, Moore CA, et al. (August 2008). "Birth defects among infants born to women who received anthrax vaccine in pregnancy". American Journal of Epidemiology. 168 (4): 434–42. doi:10.1093/aje/kwn159. PMID 18599489.
  32. ^ a b c d e US FDA, Center for Biologics Evaluation and Research CBER, Product Approval Information for Anthrax Vaccine Adsorbed (December 2008)
  33. ^ Vaxgen anthrax vaccine contract information. 31 December 2006 at the Wayback Machine
  34. ^ Heavey S (20 December 2006). "U.S. cancels VaxGen anthrax vaccine contract". The Washington Post. Retrieved 25 January 2020.
  35. ^ . Forbes Magazine. 2008. Archived from the original on 9 February 2009.
  36. ^ Goodman L (October 2004). "Taking the sting out of the anthrax vaccine". The Journal of Clinical Investigation. 114 (7): 868–9. doi:10.1172/JCI23259. PMC 518679. PMID 15467819.
  37. ^ Friedlander AM, Grabenstein JD, Brachman PS (1 January 2013). "Anthrax vaccines". In Plotkin SA, Orenstein WA, Offit PA (eds.). Vaccines (Sixth ed.). London: W.B. Saunders. pp. 127–140. doi:10.1016/b978-1-4557-0090-5.00022-7. ISBN 978-1-4557-0090-5.
  38. ^ a b Manish M, Verma S, Kandari D, Kulshreshtha P, Singh S, Bhatnagar R (August 2020). "Anthrax prevention through vaccine and post-exposure therapy". Expert Opinion on Biological Therapy. 20 (12): 1405–1425. doi:10.1080/14712598.2020.1801626. PMID 32729741. S2CID 220877509.
  39. ^ Singh S, Singh A, Aziz MA, Waheed SM, Bhat R, Bhatnagar R (September 2004). "Thermal inactivation of protective antigen of Bacillus anthracis and its prevention by polyol osmolytes". Biochemical and Biophysical Research Communications. 322 (3): 1029–37. doi:10.1016/j.bbrc.2004.08.020. PMID 15336568.
  40. ^ Powell BS, Enama JT, Ribot WJ, Webster W, Little S, Hoover T, et al. (August 2007). "Multiple asparagine deamidation of Bacillus anthracis protective antigen causes charge isoforms whose complexity correlates with reduced biological activity". Proteins. 68 (2): 458–79. doi:10.1002/prot.21432. PMID 17469195. S2CID 21178350.
  41. ^ Singh S, Ahuja N, Chauhan V, Rajasekaran E, Mohsin Waheed S, Bhat R, et al. (September 2002). "Gln277 and Phe554 residues are involved in thermal inactivation of protective antigen of Bacillus anthracis". Biochemical and Biophysical Research Communications. 296 (5): 1058–62. doi:10.1016/s0006-291x(02)02049-1. PMID 12207879.
  42. ^ D'Souza AJ, Mar KD, Huang J, Majumdar S, Ford BM, Dyas B, et al. (February 2013). "Rapid deamidation of recombinant protective antigen when adsorbed on aluminum hydroxide gel correlates with reduced potency of vaccine". Journal of Pharmaceutical Sciences. 102 (2): 454–61. doi:10.1002/jps.23422. PMID 23242822.
  43. ^ BioWatch: HGS shipping anthrax treatment in $150M deal 22 May 2011 at the Wayback Machine Gazette.Net - Maryland Community Newspapers Online
  44. ^ Bower WA, Schiffer J, Atmar RL, Keitel WA, Friedlander AM, Liu L, et al. (December 2019). "Use of Anthrax Vaccine in the United States: Recommendations of the Advisory Committee on Immunization Practices, 2019" (PDF). MMWR. Recommendations and Reports. 68 (4): 1–14. doi:10.15585/mmwr.rr6804a1. PMC 6918956. PMID 31834290.

Further reading edit

  • Donegan S, Bellamy R, Gamble CL (April 2009). "Vaccines for preventing anthrax". The Cochrane Database of Systematic Reviews. 2009 (2): CD006403. doi:10.1002/14651858.CD006403.pub2. PMC 6532564. PMID 19370633.
  • Borio LL (July 2005). . Clinicians' Biosecurity News. Archived from the original on 26 January 2020. Retrieved 26 January 2020.

External links edit

 
Wikinews has related news:
  • US Military To Buy Anthrax And Bioweapons Production Systems

January 01, 1970
anthrax, vaccine, adsorbed, this, article, about, licensed, vaccine, product, government, program, anthrax, vaccine, immunization, program, sold, under, brand, name, biothrax, among, others, vaccine, intended, provide, acquired, immunity, against, bacillus, an. This article is about the US licensed vaccine product For the US government program see Anthrax Vaccine Immunization Program Anthrax vaccine adsorbed sold under the brand name Biothrax among others is a vaccine intended to provide acquired immunity against Bacillus anthracis 3 5 4 Anthrax vaccine adsorbedVaccine descriptionTargetBacillus anthracisVaccine typeSubunitClinical dataTrade namesBiothrax CyfendusOther namesrPA102AHFS Drugs comMonographMedlinePlusa607013License dataUS DailyMed BiothraxRoutes ofadministrationSubcutaneous intramuscularATC codeJ07AC01 WHO Legal statusLegal statusCA only 1 2 US only 3 4 5 6 IdentifiersDrugBankDB11003 YChemSpidernoneUNII873OI62848 N Y what is this verify Anthrax vaccine adsorbed originated in studies done in the 1950s and was first licensed for use in humans in 1970 In the US the principal purchasers of the vaccine are the Department of Defense and Department of Health and Human Services Ten million courses 60 million doses of the vaccine have been purchased for the US Strategic National Stockpile in anticipation of the need for mass vaccinations owing to a future bio terrorist anthrax attack The product has attracted some controversy owing to alleged adverse events and questions as to whether it is effective against the inhalational form of anthrax Contents 1 Medical uses 2 Description 2 1 Antigen 2 2 Adjuvant 2 3 Potency immunogenicity 3 History 3 1 Initial research and development 1954 1970 3 2 Licensure and limited occupational use 1970 1991 3 3 Initial use in US military 1991 1997 3 4 The AVIP and initial mandatory military use 1997 2000 3 5 The IOM review 2000 2004 3 6 Injunctions and FDA re reviews 2004 2006 3 7 Reinstatement of the AVIP 2006 2016 3 8 Building 55 approval 2016 4 Administration 4 1 Vaccination schedule 4 2 Contraindications 4 3 Adverse reactions 4 4 Drug interactions 4 5 Post exposure vaccination 5 Society and culture 5 1 Controversy 5 2 In the United States 5 3 Development of a replacement vaccine 6 References 7 Further reading 8 External linksMedical uses editAnthrax vaccine adsorbed Biothrax is indicated for the active immunization for the prevention of disease caused by Bacillus anthracis in people aged 18 through 65 years of age 4 It is approved for both pre exposure prophylaxis of disease in persons at high risk of exposure and post exposure prophylaxis of disease following suspected or confirmed Bacillus anthracis exposure when administered in conjunction with recommended antibacterial drugs 3 4 Anthrax vaccine adsorbed adjuvanted Cyfendus is indicated for post exposure prophylaxis of disease following suspected or confirmed exposure to Bacillus anthracis in people aged 18 through 65 years of age when administered in conjunction with recommended antibacterial drugs 5 Description editAnthrax vaccine adsorbed was developed by Emergent Biodefense Operations Antigen edit Anthrax vaccine adsorbed is classified as a subunit vaccine that is cell free and containing no whole or live anthrax bacteria 7 The antigen immunologically active portions are produced from culture filtrates of a toxigenic but avirulent nonencapsulated mutant known as V770 NP1 R of the B anthracis Vollum strain 8 The Vollum strain was the same one weaponized by the old U S biological warfare program As with the Sterne veterinary anthrax vaccine strain and the similar British anthrax vaccine known as AVP anthrax vaccine adsorbed lacks the capsule plasmid pXO2 required for full virulence and is composed chiefly of the anthrax protective antigen PA 9 with small amounts of edema factor EF and lethal factor LF that may vary from lot to lot Other uncharacterized bacterial byproducts are also present Whether or not the EF and LF contribute to the vaccine s efficacy is not known 10 Anthrax vaccine adsorbed has smaller amounts of EF and LF than AVP 11 Adjuvant edit Anthrax vaccine adsorbed contains aluminium hydroxide alhydrogel to adsorb PA as well as to serve as an adjuvant immune enhancer 7 As such it is believed to stimulate humoral but not cell mediated immunity 12 Each dose of the vaccine contains no more than 0 83 mg aluminum per 0 5 mL dose This is near the allowed upper limit of 0 85 mg dose 13 It also contains 0 0025 benzethonium chloride as a preservative and 0 0037 formaldehyde as a stabilizer 7 The mechanism of action of the adjuvant is not entirely understood Potency immunogenicity edit Vaccination of humans with anthrax vaccine adsorbed induces an immune response to PA More than 1 3 of subjects develop detectable anti PA IgG after a single inoculation 95 do so after a 2nd injection and 100 after 3 doses The peak IgG response occurs after the 4th 6 month dose The potency of anthrax vaccine adsorbed vaccine lots is routinely determined both by the survival rates of parenterally challenged guinea pigs and their anti PA antibody titres as measured by an enzyme linked immunosorbant assay ELISA The shelf life of anthrax vaccine adsorbed is reported to be three years when stored between 2 C and 8 C 36 F and 46 F and never frozen History editInitial research and development 1954 1970 edit The vaccine efficacy of anthrax vaccine adsorbed in humans was initially established by Philip S Brachman of the United States Public Health Service USPHS in a controlled study undertaken between 1954 and 1959 The study field sites were four wool sorting mills in the northeastern United States where employees were sometimes exposed to anthrax spores in the course of their work Over the five years 379 vaccinees were compared against 414 unvaccinated control subjects There were 23 cases among controls 5 of them inhalation anthrax compared with 3 cases among vaccinated 0 inhalation cases The vaccine was judged to have a 92 5 vaccine efficacy against all types of anthrax experienced 14 Subsequently there were no controlled clinical trials in humans of the efficacy of anthrax vaccine adsorbed 15 due to the rarity of the condition especially in the inhalational form in humans and the ethical inadmissibility of conducting dangerous challenge studies in human subjects Supportive animal challenge studies were done however showing that unvaccinated animals uniformly die whereas vaccinated animals are protected About 95 of rhesus monkeys 62 of 65 survived challenge as did 97 of rabbits 114 of 117 Guinea pigs which are a poorer model for human anthrax than are monkeys or rabbits showed a 22 protection 19 of 88 Licensure and limited occupational use 1970 1991 edit In 1970 anthrax vaccine adsorbed was first licensed by the USPHS for protection against cutaneous anthrax to a state owned facility operated by the Michigan Department of Public Health In 1973 the US Food and Drug Administration FDA first published standards for making using and storing anthrax vaccine adsorbed 16 In the mid 1980s the FDA approved it specifically for two limited preventive indications 1 individuals who may come in contact with animal products or high risk persons such as veterinarians and others handling potentially infected animals and 2 individuals engaged in diagnostic or investigational activities involving anthrax spores In 1985 the FDA published a Proposed Rule for a specific product review of the anthrax vaccine adsorbed stating that the vaccine s efficacy against inhalation anthrax is not well documented a statement quoted controversially many years later For many years anthrax vaccine adsorbed was a little known product considered to be safe for pre exposure use in the US in at risk veterinarians laboratory workers livestock handlers and textile plant workers who process animal hair In 1990 the State of Michigan changed the name of its original production plant facility to the Michigan Biologic Products Institute MBPI as it gave up state ownership and converted it to a private entity The same year as later revealed MBPI changed both the fermenters and the filters used in manufacturing anthrax vaccine adsorbed without notifying the FDA thus reportedly causing a 100 fold increase in the PA levels present in vaccine lots citation needed Only several thousand people had ever received the vaccine up to 1991 when coincident with Saddam Hussein s invasion of Kuwait and the subsequent Gulf War MBPI and the U S Army entered into an agreement for the manufacture of the vaccine Later that year the Army awarded MBPI the Commander s Award for Public Service for their efforts in supplying the US military with increased amounts of anthrax vaccine adsorbed for use during the conflict in which the use of anthrax bio weapons by Iraq had been anticipated Initial use in US military 1991 1997 edit Use of anthrax vaccine adsorbed expanded dramatically in 1991 when the US military concerned that Iraq possessed anthrax bioweapons administered it to some 150 000 service members deployed for the Gulf War Hussein never deployed his bio weapons but subsequent confirmation of an Iraqi bioweapons program including 8 500 liters of concentrated anthrax spores 6 500 liters of it filled into munitions came in 1995 and later when the Iraqi government began to fully disclose the scope and scale of the effort which it had pursued since the 1980s Meanwhile MBPI fell afoul of FDA inspectors and reviewers when it failed inspections 1993 1997 and received warning letters 1995 and Notices of Intention to Revoke 1997 from the agency At issue were a failure to validate the anthrax vaccine adsorbed manufacturing process to the FDA s satisfaction and various quality control failures including reuse of expired vaccine inadequate testing procedures and use of lots that had failed testing All of these developments vexed the Army not only in its efforts to obtain sufficient vaccine for the troops but in its desire to have anthrax vaccine adsorbed validated and fully licensed for prevention of inhalational anthrax which is the expected weaponized form of the disease as opposed to the cutaneous form for which the vaccine had been licensed in 1970 In 1995 the Army contracted with the Science Applications International Corporation SAIC to develop a plan to obtain FDA approval for a license amendment for anthrax vaccine adsorbed in order to add inhalational anthrax exposure to the product license thus enabling the manufacturer to list on the product license that the vaccine was effective against that form of the disease The following year MBPI submitted an IND application to modify the product s license to add an indication for inhalation anthrax thus formally establishing anthrax vaccine adsorbed as an experimental vaccine when used to prevent anthrax in the inhalational form In 1996 the US Department of Defense DoD sought and received permission from the FDA to begin vaccinations of all military personnel without obtaining a new licensed indication for anthrax vaccine adsorbed It announced a plan the following year for the mandatory vaccination of all US service members Under the plan all military personnel including new recruits would begin receiving what was then a six shot series of inoculations in the following fashion Phase 1 Forces assigned now or soon rotating to high threat areas in Southwest Asia and Korea Phase 2 Early deploying forces into high threat areas Phase 3 Remainder of the force and new recruits and Phase 4 Continuation of the program with annual booster shots The AVIP and initial mandatory military use 1997 2000 edit nbsp USAF flight surgeon Maj Timothy Ballard right administers the final shot in the six dose series of anthrax vaccine adsorbed to Chairman of the Joint Chiefs of Staff Gen Henry Shelton There were no published studies of anthrax vaccine adsorbed s safety in humans 17 until the advent of the Anthrax Vaccine Immunization Program AVIP This program initiated by the Clinton administration and announced by Secretary of Defense William Cohen in 1997 made the vaccine mandatory for active duty US service personnel Vaccinations began in March 1998 with personnel sent to high risk areas such as South Korea and Southwest Asia Also in 1998 MBPI was purchased by BioPort Corporation of Lansing Michigan jointly with former MBPI laboratory directors for approximately 24 million The same year a particularly damning FDA report was issued resulting in the temporary suspension of anthrax vaccine adsorbed shipments from the production plant Much controversy ensued due to the FDA infractions the mandatory nature of the program and to a public perception that anthrax vaccine adsorbed was unsafe possibly causing sometimes serious side effects and might be contributing to the highly politically charged malady known as Gulf War syndrome Hundreds of service members were compelled to leave the military some of them court martialed for resisting the inoculations during the first six years of the program Adverse events following anthrax vaccine adsorbed administration were assessed in several studies conducted by the DoD in the context of the routine anthrax vaccination program Between 1998 and 2000 at U S Forces Korea data were collected at the time of anthrax vaccination from 4 348 service personnel regarding adverse events experienced from a previous dose of anthrax vaccine Most reported events were localized minor and self limited After the first or second dose 1 9 reported limitations in work performance or had been placed on limited duty Only 0 3 reported gt 1 day lost from work 0 5 consulted a clinic for evaluation and one person 0 02 required hospitalization for an injection site reaction Adverse events were reported more commonly among women than among men A second study also between 1998 and 2000 at Tripler Army Medical Center Hawaii assessed adverse events among 603 military health care workers Rates of events that resulted in seeking medical advice or taking time off work were 7 9 after the first dose 5 1 after the second dose 3 0 after the third dose and 3 1 after the fourth dose Events most commonly reported included muscle or joint aches headache and fatigue However these studies are subject to several methodological limitations including sample size the limited ability to detect adverse events loss to follow up exemption of vaccine recipients with previous adverse events observational bias and the absence of unvaccinated control groups 18 By 2000 some 425 976 US service members had received 1 620 793 doses of anthrax vaccine adsorbed The IOM review 2000 2004 edit In October 2000 a committee of the Institute of Medicine IOM of the National Academy of Sciences was asked by the US Congress to review anthrax vaccine adsorbed according to the best available evidence It issued its study in March 2002 The IOM panel noted that human data on inhalational anthrax prevention is limited due to the natural low incidence of disease and that therefore animal model data are the best we are ever likely to have Primates and rabbits were considered the best models for human disease As regards vaccine effectiveness The committee finds that the available evidence from studies with humans and animals coupled with reasonable assumptions of analogy show that anthrax vaccine adsorbed as licensed is an effective vaccine for the protection of humans against anthrax including inhalational anthrax caused by all known or plausible engineered strains of B anthracis With regard to safety The committee found no evidence that people face an increased risk of experiencing life threatening or permanently disabling adverse events immediately after receiving anthrax vaccine adsorbed when compared with the general population Nor did it find any convincing evidence that people face elevated risk of developing adverse health effects over the longer term although data are limited in this regard as they are for all vaccines Side effects of anthrax vaccine adsorbed were found to be comparable to those observed with other vaccines regularly administered to adults The committee concluded that anthrax vaccine adsorbed is safe and efficacious for pre exposure prevention of inhalational anthrax It also asserted that a new and improved anthrax vaccine might have greater assurance of consistency than anthrax vaccine adsorbed and recommended licensure of a new vaccine requiring fewer doses and producing fewer local reactions 19 In the months after the October 2001 anthrax letters attacks Washington and New York area mail sorters were advised to receive prophylactic vaccination with anthrax vaccine adsorbed Owing to the controversy surrounding the administration of the vaccine to military personnel however some 6 000 US Postal Service employees balked at this preferring to take their chances with the risks of residual anthrax spores in the workplace 20 BioPort changed its name to Emergent BioSolutions in 2004 Injunctions and FDA re reviews 2004 2006 edit Despite the positive IOM assessment mandatory vaccinations of military personnel were halted due to an injunction which was put into place on 27 October 2004 The injunction cast questions about numerous substantive challenges regarding the anthrax vaccine in footnote 10 21 yet the procedural findings centered on FDA procedural issues stating that additional public comment should have been sought before the FDA issued its Final Rule declaring the vaccine safe and effective on 30 December 2003 22 The FDA s incomplete rulemaking from 1985 effectively rendered the anthrax vaccine program illegal The basis was the never finalized FDA Proposed Rule In that rulemaking the FDA published but never finalized a licensing rule for the anthrax vaccine in the Federal Register which included an expert review panel s findings Those findings included the fact that the Anthrax vaccine efficacy against inhalation anthrax is not well documented and that No meaningful assessment of its value against inhalation anthrax is possible due to its low incidence and that The vaccine manufactured by the Michigan Department of Public Health has not been employed in a controlled field trial 23 On 15 December 2005 the FDA re issued a Final Rule amp Order on the license status of the anthrax vaccine 24 After reviewing the extensive scientific evidence and carefully considering comments from the public the FDA again determined that the vaccine is appropriately licensed for the prevention of anthrax regardless of the route of exposure Also in 2005 the George W Bush administration established a policy to ensure that the Strategic National Stockpile retains a current unexpired inventory of 60 million doses of anthrax vaccine adsorbed The US GAO reports that 4 million doses of the inventory will expire every year requiring vaccine destruction services These would be used for pre or post exposure vaccination of emergency first responders police firefighters federal responders medical practitioners and private citizens in the event of a bioterrorist anthrax attack Reinstatement of the AVIP 2006 2016 edit On 16 October 2006 the DoD announced the reinstatement of mandatory anthrax vaccinations for more than 200 000 troops and defense contractors Another lawsuit was filed by the same attorneys as before challenging the basis of the vaccine s license on scientific grounds The reinstated policy required vaccinations for most military units and civilian contractors assigned to homeland bioterrorism defense or deployed in Iraq Afghanistan or South Korea 25 A modification of previous policy allowed military personnel no longer deployed to higher threat areas to receive follow up doses and booster shots on a voluntary basis As of June 2008 over 8 million doses of anthrax vaccine adsorbed had been administered to over 2 million US military personnel as part of the AVIP In December 2008 the FDA approved Biothrax for intramuscular injections thus reducing the immunization schedule from a total of 6 shots to 5 shots see below In February 2009 Emergent BioSolutions announced that the Drugs Controller General of India DGCI had approved licensing of Biothrax for distribution by Biological E of Hyderabad 26 In 2011 Biothrax was approved for sale in Singapore by the Singapore Health Sciences Authority 27 Building 55 approval 2016 edit The FDA approved the company s license officially called a supplemental Biologics License Application or sBLA to manufacture Biothrax in a large building in Lansing Michigan known as Building 55 According to Homeland Preparedness News The use of Building 55 to manufacture Biothrax could expand manufacturing capacity to an estimated 20 to 25 million doses annually 28 The US federal government has a goal to stockpile 75 million doses of anthrax vaccines The new facility and its capacity will help Emergent meet the government s security needs 28 Emergent worked with the Biomedical Advanced Research and Development Authority BARDA within the Office of the Assistant Secretary for Preparedness and Response in the United States Department of Health and Human Services on the project The facility s value is estimated at 104 million according to Yahoo Finance 29 Administration editVaccination schedule edit The loss of memory B Cells leads to declining concentrations of IgG which can sequester APA and therefore declining tolerance to the presence of anthrax bacteria There is the potential that other memory B Cell populations will be adversely affected as well citation needed Furin is the protein activator for pro parathyroid hormone transforming growth factor beta 1 von Willebrand factor pro albumin pro beta secretase membrane type 1 matrix metalloproteinase gonadotropin and nerve growth factor Furin is also essential to maintain peripheral immune tolerance by creating memory T cells and suppressor T cells 30 Based on a retrospective cohort study of female military members inoculated during pregnancy there may be a small risk of birth defect for inoculation during first trimester However the difference between the vaccinated and unvaccinated control groups was not large enough to be conclusive 31 The approved US FDA package insert for Biothrax contains the following notice Pregnant women should not be vaccinated against anthrax unless the potential benefits of vaccination have been determined to outweigh the potential risk to the fetus If this drug is used during pregnancy or if the patient becomes pregnant while taking this product the patient should be apprised of the potential hazard to the fetus 32 Contraindications edit The approved US FDA package insert for Biothrax contains the following notice Severe allergic reaction e g anaphylaxis after a previous dose of Biothrax Administer with caution to patients with a possible history of latex sensitivity because the vial stopper contains dry natural rubber and may cause allergic reactions 32 Adverse reactions edit There have been no long term sequelae of the known adverse events local or systemic reactions and no pattern of frequently reported serious adverse events for anthrax vaccine adsorbed 18 The approved FDA package insert for anthrax vaccine adsorbed contains the following notice The most common gt 10 local injection site adverse reactions observed in clinical studies were tenderness pain erythema and arm motion limitation The most common gt 5 systemic adverse reactions were muscle aches fatigue and headache Also Serious allergic reactions including anaphylactic shock have been observed during post marketing surveillance in individuals receiving Biothrax 32 Drug interactions edit The approved US FDA package insert for anthrax vaccine adsorbed contains the following notice Immunosuppressive therapies may diminish the immune response to Biothrax 32 Post exposure vaccination edit Some studies show that use of antibiotics effective against anthrax plus administration of anthrax vaccine adsorbed is the most beneficial approach for purposes of post exposure prophylaxis This practice has been endorsed by the Advisory Committee on Immunization Practices ACIP the Johns Hopkins Working Group on Civilian Biodefense and the 2002 Institute of Medicine report on the vaccine However anthrax vaccine adsorbed is not licensed for post exposure prophylaxis for inhalational anthrax or for use in a 3 dose regimen Any such use therefore would be on an off label or IND officially experimental basis the safety and efficacy of Biothrax for post exposure setting have not been established 32 Society and culture editControversy edit In the United States edit Although many individuals have expressed health concerns after receiving anthrax vaccine a congressionally directed study by the Institute of Medicine part of the National Academy of Sciences concluded that this anthrax vaccine is as safe as other vaccines The academy considered more than a dozen studies using various scientific designs and heard personally from many concerned US military service members 19 Development of a replacement vaccine edit While effective in protecting against anthrax the licensed vaccine schedule is not very efficient involving a cumbersome five previously six dose injection series Typically five injections are given over a period of 18 months in order to induce a protective immune system response In addition in 2004 the US Department of Health and Human Services contracted with Vaxgen Inc to supply up to 75 million doses of a recombinant anthrax vaccine for 877 million 33 To be acceptable to HHS this vaccine was to be protective against anthrax in three doses or less On 19 December 2006 HHS voided the contract because of stability problems with the vaccine and a failure to start a Phase 2 clinical trial on time 34 In May 2008 Emergent Biosolutions the Maryland based successor to BioPort both controlled by former Lebanese banker Faud el Hibri acquired rights to Vaxgen s patents and processes 35 In October 2012 the US National Institute of Allergy and Infectious Diseases agreed to provide 6 5 million to the United Kingdom s Health Protection Agency for initial work on a potential future anthrax vaccine that could be delivered through the nasal passage instead of via a needle The HPA has long produced the UK s AVP anthrax vaccine Research is being continuously done to develop and test new improved candidate anthrax vaccines 36 37 38 The primary immunogen of acellular existing vaccines i e Protective Antigen PA is highly thermolabile due to inherent structural and chemical instability 39 40 41 42 Various endeavors are underway to thermostabilize PA molecule by solvent engineering and genetic engineering approaches to generate a thermostable anthrax vaccine formulation without compromising on the immunogenicity and its protective potential 38 The generation of a thermostable anthrax vaccine would minimize the current cold chain requirement for its storage and transport Anthrax vaccines which would be amenable to other modes of administration such as oral nasal skin patch etc are also being experimented Human Genome Sciences announced in 2007 the development of a new anthrax neutralizing monoclonal antibody with the trademark name of ABthrax The vaccine sensitizes the human immune system to the presence of the Anthrax Toxin Factor In 2008 HGS reported on testing on 400 human volunteers given ABthrax In 2009 HGS announced that they had made first delivery of 20 000 doses of ABthrax to the United States Department of Defense 43 Currently three anthrax antitoxin antibodies namely Anthrax immune globulin intravenous or AIGIV polyclonal Obiltoxaximab or ANTHIM monoclonal and Raxibacumab or ABthrax monoclonal are approved for the treatment of inhalation anthrax 44 References edit Summary Basis of Decision SBD for Biothrax Health Canada 23 October 2014 Retrieved 29 May 2022 Drug and medical device highlights 2018 Helping you maintain and improve your health Health Canada 14 October 2020 Retrieved 17 April 2024 a b c Biothrax U S Food and Drug Administration 6 July 2023 Retrieved 25 August 2023 nbsp This article incorporates text from this source which is in the public domain a b c d Biothrax bacillus anthracis injection suspension DailyMed 15 November 2015 Retrieved 27 August 2023 a b c Cyfendus U S Food and Drug Administration 19 July 2023 Retrieved 25 August 2023 nbsp This article incorporates text from this source which is in the public domain https www fda gov media 170445 download a b c Biothrax Package Insert Puziss M Manning LC Lynch JW et al 1963 Large scale production of protective antigen of Bacillus anthracis in anaerobic cultures Appl Microbiol 11 4 330 334 doi 10 1128 AEM 11 4 330 334 1963 PMC 1057997 PMID 13972634 Leppla SH Klimpel KR Singh Y et al June 1996 Interaction of anthrax toxin with mammalian cells Salisbury Medical Bulletin Special Supplement 87 pg 91 Nass M March 1999 Anthrax vaccine Model of a response to the biologic warfare threat Infectious Disease Clinics of North America 13 1 187 208 viii doi 10 1016 s0891 5520 05 70050 7 PMID 10198799 Archived from the original on 9 January 2013 Retrieved 31 October 2012 Turnbull PC August 1991 Anthrax vaccines past present and future Vaccine 9 8 533 9 doi 10 1016 0264 410x 91 90237 z PMID 1771966 Welkos SL Friedlander AM August 1988 Comparative safety and efficacy against Bacillus anthracis of protective antigen and live vaccines in mice Microbial Pathogenesis 5 2 127 39 doi 10 1016 0882 4010 88 90015 0 PMID 3148815 Baylor NW Egan W Richman P May 2002 Aluminum salts in vaccines US perspective Vaccine 20 Suppl 3 S18 23 doi 10 1016 S0264 410X 02 00166 4 PMID 12184360 Brachman PS Gold H Plotkin SA Fekety FR Werrin M Ingraham NR April 1962 Field Evaluation of a Human Anthrax Vaccine American Journal of Public Health and the Nation s Health 52 4 632 45 doi 10 2105 ajph 52 4 632 PMC 1522900 PMID 18017912 Brachman PS and Friedlander AM 1994 Anthrax In Plotkin SA and Mortimer EA eds Vaccines 2nd ed Philadelphia WB Saunders pg 729 21 CFR Section 620 20 Brachman 1994 Op cit pg 729 a b Centers for Disease Control Prevention CDC April 2000 Surveillance for adverse events associated with anthrax vaccination U S Department of Defense 1998 2000 MMWR Morbidity and Mortality Weekly Report 49 16 341 5 PMID 10817479 a b Joellenbeck LM Zwanziger LL Durch JS Strom BL April 2002 The Anthrax Vaccine Is It Safe Does It Work National Academies Press doi 10 17226 10310 ISBN 978 0 309 08309 6 PMID 25057597 S2CID 78028756 Allen Arthur 2007 Vaccine The Controversial Story of Medicine s Greatest Lifesaver W W Norton amp Co pp 13 14 John Doe 1 v Donald H Rumsfeld et al PDF Military Vaccine MILVAX Agency 27 October 2004 Archived from the original PDF on 25 August 2009 Retrieved 6 May 2009 Federal Register 5 January 2006 vol 69 pp 255 67 50 FR 51002 published on Dec 13 1985 PDF Archived from the original PDF on 3 March 2012 Retrieved 29 October 2012 FDA Final Order Archived 2 November 2012 at the Wayback Machine Issued 15 December 2005 Mandatory Vaccine Article Mandatory Anthrax Shots to Return Christopher Lee Washington Post 17 October 2006 Emergent BioSolutions Announces That Biothrax Anthrax Vaccine Adsorbed Receives Market Authorization in India Press release 12 February 2009 Clabaugh J 24 June 2011 Emergent gets entry to Singapore Washington Business Journal Retrieved 22 July 2011 a b FDA approves sBLA for Biothrax manufacture at Emergent BioSolutions Building 55 Homeland Preparedness News 16 August 2016 Retrieved 23 August 2016 Emergent BioSolutions Receives FDA Approval for Large Scale Manufacturing of Biothrax in Building 55 Yahoo Finance 15 August 2016 Retrieved 23 August 2016 Pesu M Watford WT Wei L Xu L Fuss I Strober W et al September 2008 T cell expressed proprotein convertase furin is essential for maintenance of peripheral immune tolerance Nature 455 7210 246 50 Bibcode 2008Natur 455 246P doi 10 1038 nature07210 PMC 2758057 PMID 18701887 Ryan MA Smith TC Sevick CJ Honner WK Loach RA Moore CA et al August 2008 Birth defects among infants born to women who received anthrax vaccine in pregnancy American Journal of Epidemiology 168 4 434 42 doi 10 1093 aje kwn159 PMID 18599489 a b c d e US FDA Center for Biologics Evaluation and Research CBER Product Approval Information for Anthrax Vaccine Adsorbed December 2008 Vaxgen anthrax vaccine contract information Archived 31 December 2006 at the Wayback Machine Heavey S 20 December 2006 U S cancels VaxGen anthrax vaccine contract The Washington Post Retrieved 25 January 2020 VaxGen sells anthrax vaccine candidate to Emergent BioSolutions Forbes Magazine 2008 Archived from the original on 9 February 2009 Goodman L October 2004 Taking the sting out of the anthrax vaccine The Journal of Clinical Investigation 114 7 868 9 doi 10 1172 JCI23259 PMC 518679 PMID 15467819 Friedlander AM Grabenstein JD Brachman PS 1 January 2013 Anthrax vaccines In Plotkin SA Orenstein WA Offit PA eds Vaccines Sixth ed London W B Saunders pp 127 140 doi 10 1016 b978 1 4557 0090 5 00022 7 ISBN 978 1 4557 0090 5 a b Manish M Verma S Kandari D Kulshreshtha P Singh S Bhatnagar R August 2020 Anthrax prevention through vaccine and post exposure therapy Expert Opinion on Biological Therapy 20 12 1405 1425 doi 10 1080 14712598 2020 1801626 PMID 32729741 S2CID 220877509 Singh S Singh A Aziz MA Waheed SM Bhat R Bhatnagar R September 2004 Thermal inactivation of protective antigen of Bacillus anthracis and its prevention by polyol osmolytes Biochemical and Biophysical Research Communications 322 3 1029 37 doi 10 1016 j bbrc 2004 08 020 PMID 15336568 Powell BS Enama JT Ribot WJ Webster W Little S Hoover T et al August 2007 Multiple asparagine deamidation of Bacillus anthracis protective antigen causes charge isoforms whose complexity correlates with reduced biological activity Proteins 68 2 458 79 doi 10 1002 prot 21432 PMID 17469195 S2CID 21178350 Singh S Ahuja N Chauhan V Rajasekaran E Mohsin Waheed S Bhat R et al September 2002 Gln277 and Phe554 residues are involved in thermal inactivation of protective antigen of Bacillus anthracis Biochemical and Biophysical Research Communications 296 5 1058 62 doi 10 1016 s0006 291x 02 02049 1 PMID 12207879 D Souza AJ Mar KD Huang J Majumdar S Ford BM Dyas B et al February 2013 Rapid deamidation of recombinant protective antigen when adsorbed on aluminum hydroxide gel correlates with reduced potency of vaccine Journal of Pharmaceutical Sciences 102 2 454 61 doi 10 1002 jps 23422 PMID 23242822 BioWatch HGS shipping anthrax treatment in 150M deal Archived 22 May 2011 at the Wayback Machine Gazette Net Maryland Community Newspapers Online Bower WA Schiffer J Atmar RL Keitel WA Friedlander AM Liu L et al December 2019 Use of Anthrax Vaccine in the United States Recommendations of the Advisory Committee on Immunization Practices 2019 PDF MMWR Recommendations and Reports 68 4 1 14 doi 10 15585 mmwr rr6804a1 PMC 6918956 PMID 31834290 Further reading editDonegan S Bellamy R Gamble CL April 2009 Vaccines for preventing anthrax The Cochrane Database of Systematic Reviews 2009 2 CD006403 doi 10 1002 14651858 CD006403 pub2 PMC 6532564 PMID 19370633 Borio LL July 2005 The Second Generation Anthrax Vaccine Candidate rPA102 Clinicians Biosecurity News Archived from the original on 26 January 2020 Retrieved 26 January 2020 External links edit nbsp Wikinews has related news US Military To Buy Anthrax And Bioweapons Production Systems Anthrax Vaccine Information Statement U S Centers for Disease Control and Prevention CDC 8 January 2020 Anthrax Vaccines at the U S National Library of Medicine Medical Subject Headings MeSH Portal nbsp Medicine Retrieved from https en wikipedia org w index php title Anthrax vaccine adsorbed amp oldid 1219466641, wikipedia, wiki, book, books, library,

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