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Plague (disease)

January 16, 2023

This article is about the disease caused by Yersinia pestis. For other uses, see Plague.

Plague is an infectious disease caused by the bacterium Yersinia pestis.[2] Symptoms include fever, weakness and headache.[1] Usually this begins one to seven days after exposure.[2] There are three forms of plague, each affecting a different part of the body and causing associated symptoms. Pneumonic plague infects the lungs, causing shortness of breath, coughing and chest pain; bubonic plague affects the lymph nodes, making them swell; and septicemic plague infects the blood and can cause tissues to turn black and die.[2][1]

Plague
Yersinia pestis seen at 200× magnification with a fluorescent label.
SpecialtyInfectious disease
SymptomsFever, weakness, headache[1]
Usual onset1–7 days after exposure[2]
TypesBubonic plague, septicemic plague, pneumonic plague[1]
CausesYersinia pestis[2]
Diagnostic methodFinding the bacterium in a lymph node, blood, sputum[2]
PreventionPlague vaccine[2]
TreatmentAntibiotics and supportive care[2]
MedicationGentamicin and a fluoroquinolone[3]
Prognosis≈10% risk of death (with treatment)[4]
Frequency≈600 cases a year[2]

The bubonic and septicemic forms are generally spread by flea bites or handling an infected animal,[1] whereas pneumonic plague is generally spread between people through the air via infectious droplets.[1] Diagnosis is typically by finding the bacterium in fluid from a lymph node, blood or sputum.[2]

Those at high risk may be vaccinated.[2] Those exposed to a case of pneumonic plague may be treated with preventive medication.[2] If infected, treatment is with antibiotics and supportive care.[2] Typically antibiotics include a combination of gentamicin and a fluoroquinolone.[3] The risk of death with treatment is about 10% while without it is about 70%.[4]

Globally, about 600 cases are reported a year.[2] In 2017, the countries with the most cases include the Democratic Republic of the Congo, Madagascar and Peru.[2] In the United States, infections occasionally occur in rural areas, where the bacteria are believed to circulate among rodents.[5] It has historically occurred in large outbreaks, with the best known being the Black Death in the 14th century, which resulted in more than 50 million deaths in Europe.[2]

Signs and symptoms

There are several different clinical manifestations of plague. The most common form is bubonic plague, followed by septicemic and pneumonic plague.[6] Other clinical manifestations include plague meningitis, plague pharyngitis, and ocular plague[6][7] General symptoms of plague include fever, chills, headaches, and nausea.[1] Many people experience swelling in their lymph nodes if they have bubonic plague.[1] For those with pneumonic plague, symptoms may (or may not) include a cough, pain in the chest, and haemoptysis.[1]

Bubonic plague

Main article: Bubonic plague
 
Swollen inguinal lymph glands on a person infected with the bubonic plague. The swollen lymph glands are termed buboes from the Greek word for groin, swollen gland: bubo.

When a flea bites a human and contaminates the wound with regurgitated blood, the plague-causing bacteria are passed into the tissue. Y. pestis can reproduce inside cells, so even if phagocytosed, they can still survive. Once in the body, the bacteria can enter the lymphatic system, which drains interstitial fluid. Plague bacteria secrete several toxins, one of which is known to cause beta-adrenergic blockade.[8]

Y. pestis spreads through the lymphatic vessels of the infected human until it reaches a lymph node, where it causes acute lymphadenitis.[9] The swollen lymph nodes form the characteristic buboes associated with the disease,[10] and autopsies of these buboes have revealed them to be mostly hemorrhagic or necrotic.[11]

If the lymph node is overwhelmed, the infection can pass into the bloodstream, causing secondary septicemic plague and if the lungs are seeded, it can cause secondary pneumonic plague.[12]

Septicemic plague

Main article: Septicemic plague
 
Septicemic plague resulting in necrosis

Lymphatics ultimately drain into the bloodstream, so the plague bacteria may enter the blood and travel to almost any part of the body. In septicemic plague, bacterial endotoxins cause disseminated intravascular coagulation (DIC), causing tiny clots throughout the body and possibly ischemic necrosis (tissue death due to lack of circulation/perfusion to that tissue) from the clots. DIC results in depletion of the body's clotting resources so that it can no longer control bleeding. Consequently, there is bleeding into the skin and other organs, which can cause red and/or black patchy rash and hemoptysis/hematemesis (coughing up/ vomiting of blood). There are bumps on the skin that look somewhat like insect bites; these are usually red, and sometimes white in the center. Untreated, the septicemic plague is usually fatal. Early treatment with antibiotics reduces the mortality rate to between 4 and 15 percent.[13][14][15]

Pneumonic plague

Main article: Pneumonic plague

The pneumonic form of plague arises from infection of the lungs. It causes coughing and thereby produces airborne droplets that contain bacterial cells and are likely to infect anyone inhaling them. The incubation period for pneumonic plague is short, usually two to four days, but sometimes just a few hours. The initial signs are indistinguishable from several other respiratory illnesses; they include headache, weakness, and spitting or vomiting of blood. The course of the disease is rapid; unless diagnosed and treated soon enough, typically within a few hours, death may follow in one to six days; in untreated cases, mortality is nearly 100%.[16][17]

Cause

 
The Oriental rat flea (Xenopsylla cheopis) engorged with blood after a blood meal. This species of flea is the primary vector for the transmission of Yersinia pestis, the organism responsible for bubonic plague in most plague epidemics in Asia, Africa, and South America. Both male and female fleas feed on blood and can transmit the infection.
 
A child bitten by a flea infected with the bacterium Yersinia pestis. Y. pestis, a member of the family Yersiniaceae, has caused the bite to become ulcerated.

Transmission of Y. pestis to an uninfected individual is possible by any of the following means:[18]

  • droplet contact – coughing or sneezing on another person
  • direct physical contact – touching an infected person, including sexual contact
  • indirect contact – usually by touching soil contamination or a contaminated surface
  • airborne transmission – if the microorganism can remain in the air for long periods
  • fecal-oral transmission – usually from contaminated food or water sources
  • vector borne transmission – carried by insects or other animals.

Yersinia pestis circulates in animal reservoirs, particularly in rodents, in the natural foci of infection found on all continents except Australia. The natural foci of plague are situated in a broad belt in the tropical and sub-tropical latitudes and the warmer parts of the temperate latitudes around the globe, between the parallels 55° N and 40° S.[18] Contrary to popular belief, rats did not directly start the spread of the bubonic plague. It is mainly a disease in the fleas (Xenopsylla cheopis) that infested the rats, making the rats themselves the first victims of the plague. Rodent-borne infection in a human occurs when a person is bitten by a flea that has been infected by biting a rodent that itself has been infected by the bite of a flea carrying the disease. The bacteria multiply inside the flea, sticking together to form a plug that blocks its stomach and causes it to starve. The flea then bites a host and continues to feed, even though it cannot quell its hunger, and consequently, the flea vomits blood tainted with the bacteria back into the bite wound. The bubonic plague bacterium then infects a new person and the flea eventually dies from starvation. Serious outbreaks of plague are usually started by other disease outbreaks in rodents or a rise in the rodent population.[19]

A 21st century study of a 1665 outbreak of plague in the village of Eyam in England's Derbyshire Dales – which isolated itself during the outbreak, facilitating modern study – found that three-quarters of cases are likely to have been due to human-to-human transmission, especially within families, a much bigger proportion than previously thought.[20]

Diagnosis

Symptoms of plague are usually non-specific and in order to definitively diagnose plague, laboratory testing is required.[21] Y pestis can be identified through both a microscope and by culturing a sample and this is used as a reference standard to confirm that a person has a case of plague.[21] The sample can be obtained from the blood, mucus (sputum), or aspirate extracted from inflamed lymph nodes (buboes).[21] If a person is administered antibiotics before a sample is taken or if there is a delay in transporting the person's sample to a laboratory and/or a poorly stored sample, there is a possibility for false negative results.[21]

Polymerase chain reaction (PCR) may also be used to diagnose plague, by detecting the presence of bacterial genes such as the pla gene (plasmogen activator) and caf1 gene, (F1 capsule antigen).[21] PCR testing requires a very small sample and is effective for both alive and dead bacteria.[21] For this reason, if a person receives antibiotics before a sample is collected for laboratory testing, they may have a false negative culture and a positive PCR result.[21]

Blood tests to detect antibodies against Y. pestis can also be used to diagnose plague, however this requires taking blood samples at different periods of time in order to detect differences between the acute and convalescent phases of F1 antibody titres.[21]

In 2020, a study about rapid diagnostic tests that detect the F1 capsule antigen (F1RDT) by sampling sputum or bubo aspirate was released.[21] Results show rapid diagnostic F1RDT test can be used for people who have suspected pneumonic and bubonic plague but cannot be used in people who are asymptomatic. F1RDT may be useful in providing a fast result for prompt treatment and fast public health response as studies suggest that F1RDT is highly sensitive for both pneumonic and bubonic plague. However, when using the rapid test, both positive and negative results need to be confirmed to establish or reject the diagnosis of confirmed case of plague and the test result needs to be interpreted within the epidemiological context as study findings indicate that although 40 out of 40 people who had the plague in a population of 1000 was correctly diagnosed, 317 people were diagnosed falsely as positive.[21][22][23]

Prevention

Main article: Plague vaccine

Vaccination

Bacteriologist Waldemar Haffkine developed the first plague vaccine in 1897.[24][25] He conducted a massive inoculation program in British India, and it is estimated that 26 million doses of Haffkine's anti-plague vaccine were sent out from Bombay between 1897 and 1925, reducing the plague mortality by 50%-85%.[24][26]

Since human plague is rare in most parts of the world as of 2021, routine vaccination is not needed other than for those at particularly high risk of exposure, nor for people living in areas with enzootic plague, meaning it occurs at regular, predictable rates in populations and specific areas, such as the western United States. It is not even indicated for most travelers to countries with known recent reported cases, particularly if their travel is limited to urban areas with modern hotels. The United States CDC thus only recommends vaccination for: (1) all laboratory and field personnel who are working with Y. pestis organisms resistant to antimicrobials: (2) people engaged in aerosol experiments with Y. pestis; and (3) people engaged in field operations in areas with enzootic plague where preventing exposure is not possible (such as some disaster areas).[27] A systematic review by the Cochrane Collaboration found no studies of sufficient quality to make any statement on the efficacy of the vaccine.[28]

Early diagnosis

Diagnosing plague early leads to a decrease in transmission or spread of the disease.[21]

Prophylaxis

Pre-exposure prophylaxis for first responders and health care providers who will care for patients with pneumonic plague is not considered necessary as long as standard and droplet precautions can be maintained.[7] In cases of surgical mask shortages, patient overcrowding, poor ventilation in hospital wards, or other crisis situations, pre-exposure prophylaxis might be warranted if sufficient supplies of antimicrobials are available.[7]

Postexposure prophylaxis should be considered for people who had close (<6 feet), sustained contact with a patient with pneumonic plague and were not wearing adequate personal protective equipment.[7] Antimicrobial postexposure prophylaxis also can be considered for laboratory workers accidentally exposed to infectious materials and people who had close (<6 feet) or direct contact with infected animals, such as veterinary staff, pet owners, and hunters.[7]

Specific recommendations on pre- and post-exposure prophylaxis are available in the clinical guidelines on treatment and prophylaxis of plague published in 2021.[7]

Treatments

If diagnosed in time, the various forms of plague are usually highly responsive to antibiotic therapy.[6][21] The antibiotics often used are streptomycin, chloramphenicol and tetracycline. Amongst the newer generation of antibiotics, gentamicin and doxycycline have proven effective in monotherapeutic treatment of plague.[6][29] Guidelines on treatment and prophylaxis of plague were published by the Centers for Disease Control and Prevention in 2021.[7]

The plague bacterium could develop drug resistance and again become a major health threat. One case of a drug-resistant form of the bacterium was found in Madagascar in 1995.[30] Further outbreaks in Madagascar were reported in November 2014[31] and October 2017.[32]

Epidemiology

Main article: Epidemiology of plague
 
Distribution of plague-infected animals 1998

Globally about 600 cases are reported a year.[2] In 2017, the countries with the most cases include the Democratic Republic of the Congo, Madagascar and Peru.[2] It has historically occurred in large outbreaks, with the best known being the Black Death in the 14th century which resulted in more than 50 million dead.[2] In recent years, cases are distributed between small seasonal outbreaks which occur primarily in Madagascar, and sporadic outbreaks or isolated cases in endemic areas.[2]

In 2022 the possible origin of all modern strands of Yersinia pestis DNA was found in human remains in three graves located in Kyrgyzstan, dated to 1338 and 1339. The siege of Caffa in Crimea in 1346, is known to have been the first plague outbreak with following strands, later to spread over Europe. Sequencing DNA compared to other ancient and modern strands paints a family tree of the bacteria. Bacteria today affecting marmots in Kyrgyzstan, are closest to the strand found in the graves, suggesting this is also the location where plague transferred from animals to humans.[33]

Biological weapon

The plague has a long history as a biological weapon. Historical accounts from ancient China and medieval Europe detail the use of infected animal carcasses, such as cows or horses, and human carcasses, by the Xiongnu/Huns, Mongols, Turks and other groups, to contaminate enemy water supplies. Han Dynasty General Huo Qubing is recorded to have died of such contamination while engaging in warfare against the Xiongnu. Plague victims were also reported to have been tossed by catapult into cities under siege.[34]

In 1347, the Genoese possession of Caffa, a great trade emporium on the Crimean peninsula, came under siege by an army of Mongol warriors of the Golden Horde under the command of Jani Beg. After a protracted siege during which the Mongol army was reportedly withering from the disease, they decided to use the infected corpses as a biological weapon. The corpses were catapulted over the city walls, infecting the inhabitants. This event might have led to the transfer of the Black Death via their ships into the south of Europe, possibly explaining its rapid spread.[35]

During World War II, the Japanese Army developed weaponized plague, based on the breeding and release of large numbers of fleas. During the Japanese occupation of Manchuria, Unit 731 deliberately infected Chinese, Korean and Manchurian civilians and prisoners of war with the plague bacterium. These subjects, termed "maruta" or "logs", were then studied by dissection, others by vivisection while still conscious. Members of the unit such as Shiro Ishii were exonerated from the Tokyo tribunal by Douglas MacArthur but 12 of them were prosecuted in the Khabarovsk War Crime Trials in 1949 during which some admitted having spread bubonic plague within a 36-kilometre (22 mi) radius around the city of Changde.[36]

Ishii innovated bombs containing live mice and fleas, with very small explosive loads, to deliver the weaponized microbes, overcoming the problem of the explosive killing the infected animal and insect by the use of a ceramic, rather than metal, casing for the warhead. While no records survive of the actual usage of the ceramic shells, prototypes exist and are believed to have been used in experiments during WWII.[37][38]

After World War II, both the United States and the Soviet Union developed means of weaponising pneumonic plague. Experiments included various delivery methods, vacuum drying, sizing the bacterium, developing strains resistant to antibiotics, combining the bacterium with other diseases (such as diphtheria), and genetic engineering. Scientists who worked in USSR bio-weapons programs have stated that the Soviet effort was formidable and that large stocks of weaponised plague bacteria were produced. Information on many of the Soviet and US projects are largely unavailable. Aerosolized pneumonic plague remains the most significant threat.[39][40][41]

The plague can be easily treated with antibiotics. Some countries, such as the United States, have large supplies on hand if such an attack should occur, making the threat less severe.[42]

See also

References

  1. ^ a b c d e f g h i "Symptoms Plague". CDC. September 2015. Retrieved 8 November 2017.
  2. ^ a b c d e f g h i j k l m n o p q r s t "Plague". World Health Organization. October 2017. Retrieved 8 November 2017.
  3. ^ a b "Resources for Clinicians Plague". CDC. October 2015. Retrieved 8 November 2017.
  4. ^ a b "FAQ Plague". CDC. September 2015. Retrieved 8 November 2017.
  5. ^ "Transmission Plague". CDC. September 2015. Retrieved 8 November 2017.
  6. ^ a b c d Nelson, Christina A; Fleck-Derderian, Shannon; Cooley, Katharine M; Meaney-Delman, Dana; Becksted, Heidi A; Russell, Zachary; Renaud, Bertrand; Bertherat, Eric; Mead, Paul S (2020-05-21). "Antimicrobial Treatment of Human Plague: A Systematic Review of the Literature on Individual Cases, 1937–2019". Clinical Infectious Diseases. 70 (Supplement_1): S3–S10. doi:10.1093/cid/ciz1226. ISSN 1058-4838. PMID 32435802.
  7. ^ a b c d e f g   This article incorporates text from this source, which is in the public domain: Nelson, Christina A. (2021). "Antimicrobial Treatment and Prophylaxis of Plague: Recommendations for Naturally Acquired Infections and Bioterrorism Response". MMWR. Recommendations and Reports. 70 (3): 1–27. doi:10.15585/mmwr.rr7003a1. ISSN 1057-5987. PMC 8312557. PMID 34264565.
  8. ^ Brown, SD; Montie, TC (1977). "Beta-adrenergic blocking activity of Yersinia pestis murine toxin". Infection and Immunity. 18 (1): 85–93. doi:10.1128/IAI.18.1.85-93.1977. PMC 421197. PMID 198377.
  9. ^ Sebbane, F; Jarret, C.O.; Gardner, D; Long, D; Hinnebusch, B.J. (2006). "Role of Yersinia pestis plasminogen activator in the incidence of distinct septicemic and bubonic forms of flea-borne plague". Proc Natl Acad Sci U S A. 103 (14): 5526–5530. Bibcode:2006PNAS..103.5526S. doi:10.1073/pnas.0509544103. PMC 1414629. PMID 16567636.
  10. ^ "Symptoms | Plague". Centers for Disease Control and Prevention. 14 September 2015. Retrieved 18 April 2017.
  11. ^ Sebbane, F; Gardner, D; Long, D; Gowen, B.B.; Hinnebusch, B.J. (2005). "Kinetics of Disease Progression and Host Response in a Rat Model of Bubonic Plague". Am J Pathol. 166 (5): 1427–1439. doi:10.1016/S0002-9440(10)62360-7. PMC 1606397. PMID 15855643.
  12. ^ "Plague". Centers for Disease Control and Prevention. Retrieved 2014-08-05.
  13. ^ Wagle PM (1948). "Recent advances in the treatment of bubonic plague". Indian J Med Sci. 2: 489–94.
  14. ^ Meyer KF (1950). "Modern therapy of plague". J Am Med Assoc. 144 (12): 982–85. doi:10.1001/jama.1950.02920120006003. PMID 14774219.
  15. ^ Datt Gupta AK (1948). "A short note on plague cases treated at Campbell Hospital". Ind Med Gaz. 83 (3): 150–51. PMC 5190352. PMID 29014753.
  16. ^ Ryan, K. J.; Ray, C. G., eds. (2004). Sherris Medical Microbiology: An Introduction to Infectious Diseases (4th ed.). New York: McGraw-Hill. ISBN 978-0-8385-8529-0.
  17. ^ Hoffman SL (1980). "Plague in the United States: the "Black Death" is still alive". Annals of Emergency Medicine. 9 (6): 319–22. doi:10.1016/S0196-0644(80)80068-0. PMID 7386958.
  18. ^ a b Plague Manual: Epidemiology, Distribution, Surveillance and Control, pp. 9, 11. WHO/CDS/CSR/EDC/99.2
  19. ^ Yersin, Alexandre (1894). "La peste bubonique à Hong-Kong". Annales de l'Institut Pasteur. 8: 662–67.
  20. ^ Greig Watson (22 April 2020). "Coronavirus: What can the 'plague village' of Eyam teach us?". BBC News.
  21. ^ a b c d e f g h i j k l Jullien, Sophie; Dissanayake, Harsha A; Chaplin, Marty (2020-06-26). Cochrane Infectious Diseases Group (ed.). "Rapid diagnostic tests for plague". Cochrane Database of Systematic Reviews. 6 (6): CD013459. doi:10.1002/14651858.CD013459.pub2. PMC 7387759. PMID 32597510.
  22. ^ Burch, Jane; Bhat, Smitha (2021). "What is the accuracy of the rapid diagnostic test based on the antigen F1 (F1RDT) for the diagnosis of plague?". Cochrane Clinical Answers. doi:10.1002/cca.3217. S2CID 234804227.
  23. ^ WHO Guidelines for Plague Management. World Health Organisation. 2021. pp. 1–19.
  24. ^ a b "Waldemar Haffkine: The vaccine pioneer the world forgot". BBC News. 2020-12-11. Retrieved 2021-01-20.
  25. ^ "WALDEMAR MORDECAI HAFFKINE". Haffkine Institute. Retrieved 2021-01-20.
  26. ^ Hawgood, Barbara J. (February 2007). "Waldemar Mordecai Haffkine, CIE (1860-1930): prophylactic vaccination against cholera and bubonic plague in British India". Journal of Medical Biography. 15 (1): 9–19. doi:10.1258/j.jmb.2007.05-59. ISSN 0967-7720. PMID 17356724. S2CID 42075270.
  27. ^ "Plague Vaccine". CDC. June 11, 1982. Retrieved Apr 30, 2015.
  28. ^ Jefferson T, Demicheli V, Pratt M (2000). Jefferson T (ed.). "Vaccines for preventing plague". Cochrane Database Syst Rev. 1998 (2): CD000976. doi:10.1002/14651858.CD000976. PMC 6532692. PMID 10796565.
  29. ^ Mwengee W; Butler, Thomas; Mgema, Samuel; Mhina, George; Almasi, Yusuf; Bradley, Charles; Formanik, James B.; Rochester, C. George (2006). "Treatment of Plague with Genamicin or Doxycycline in a Randomized Clinical Trial in Tanzania". Clin Infect Dis. 42 (5): 614–21. doi:10.1086/500137. PMID 16447105.
  30. ^ Drug-resistant plague a 'major threat', say scientists, SciDev.Net.
  31. ^ . World Health Organisation. 21 November 2014. Archived from the original on November 23, 2014. Retrieved 26 November 2014.
  32. ^ "WHO scales up response to plague in Madagascar". World Health Organization (WHO). 1 October 2017. Retrieved 5 October 2017.
  33. ^ "Origin of Black Death finally found in bacteria from Kyrgyzstan graves".
  34. ^ Schama, S. (2000). A History of Britain: At the Edge of the World? 3000BC–AD1603, First Edition, BBC Worldwide, London, p226.
  35. ^ Wheelis M. (2002). "Biological warfare at the 1346 siege of Caffa". Emerg Infect Dis. 8 (9): 971–75. doi:10.3201/eid0809.010536. PMC 2732530. PMID 12194776.
  36. ^ Daniel Barenblatt, A plague upon Humanity, HarperCollns, 2004, pp. 220–21
  37. ^ "Japan's Secret Biological Weapons Program". Damn Interesting. Retrieved 2020-05-29.
  38. ^ Chen, Boyuan (September 17, 2013). "New evidence of Japan's Unit 731 bio-warfare". China.org.cn. Retrieved 29 August 2020.
  39. ^ "Plague". Johns Hopkins Center for Public Health Preparedness. The Johns Hopkins University. Retrieved 29 August 2020.
  40. ^ Fleisher, Lee (April 20, 2012). Anesthesia and Uncommon Diseases. p. 394. ISBN 9781455737550.
  41. ^ Riedel, Stefan (April 18, 2005). "Plague: from natural disease to bioterrorism". Baylor University Medical Center Proceedings. 18 (2): 116–24. doi:10.1080/08998280.2005.11928049. PMC 1200711. PMID 16200159.
  42. ^ Tamparo, Carol; Lewis, Marcia (2011). Diseases of the Human Body. Philadelphia, PA: F.A. Davis Company. p. 70. ISBN 9780803625051.

Further reading

  • Nelson CA, Meaney-Delman D, Fleck-Derderian S, Cooley KM, Yu PA, Mead PS (July 2021). "Antimicrobial Treatment and Prophylaxis of Plague: Recommendations for Naturally Acquired Infections and Bioterrorism Response" (PDF). MMWR Recomm Rep. 70 (3): 1–27. doi:10.15585/mmwr.rr7003a1. PMC 8312557. PMID 34264565. Archived (PDF) from the original on 2022-10-09.

External links

 
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January 16, 2023
plague, disease, this, article, about, disease, caused, yersinia, pestis, other, uses, plague, plague, infectious, disease, caused, bacterium, yersinia, pestis, symptoms, include, fever, weakness, headache, usually, this, begins, seven, days, after, exposure, . This article is about the disease caused by Yersinia pestis For other uses see Plague Plague is an infectious disease caused by the bacterium Yersinia pestis 2 Symptoms include fever weakness and headache 1 Usually this begins one to seven days after exposure 2 There are three forms of plague each affecting a different part of the body and causing associated symptoms Pneumonic plague infects the lungs causing shortness of breath coughing and chest pain bubonic plague affects the lymph nodes making them swell and septicemic plague infects the blood and can cause tissues to turn black and die 2 1 PlagueYersinia pestis seen at 200 magnification with a fluorescent label SpecialtyInfectious diseaseSymptomsFever weakness headache 1 Usual onset1 7 days after exposure 2 TypesBubonic plague septicemic plague pneumonic plague 1 CausesYersinia pestis 2 Diagnostic methodFinding the bacterium in a lymph node blood sputum 2 PreventionPlague vaccine 2 TreatmentAntibiotics and supportive care 2 MedicationGentamicin and a fluoroquinolone 3 Prognosis 10 risk of death with treatment 4 Frequency 600 cases a year 2 The bubonic and septicemic forms are generally spread by flea bites or handling an infected animal 1 whereas pneumonic plague is generally spread between people through the air via infectious droplets 1 Diagnosis is typically by finding the bacterium in fluid from a lymph node blood or sputum 2 Those at high risk may be vaccinated 2 Those exposed to a case of pneumonic plague may be treated with preventive medication 2 If infected treatment is with antibiotics and supportive care 2 Typically antibiotics include a combination of gentamicin and a fluoroquinolone 3 The risk of death with treatment is about 10 while without it is about 70 4 Globally about 600 cases are reported a year 2 In 2017 the countries with the most cases include the Democratic Republic of the Congo Madagascar and Peru 2 In the United States infections occasionally occur in rural areas where the bacteria are believed to circulate among rodents 5 It has historically occurred in large outbreaks with the best known being the Black Death in the 14th century which resulted in more than 50 million deaths in Europe 2 Contents 1 Signs and symptoms 1 1 Bubonic plague 1 2 Septicemic plague 1 3 Pneumonic plague 2 Cause 3 Diagnosis 4 Prevention 4 1 Vaccination 4 2 Early diagnosis 4 3 Prophylaxis 5 Treatments 6 Epidemiology 7 Biological weapon 8 See also 9 References 10 Further reading 11 External linksSigns and symptoms EditThere are several different clinical manifestations of plague The most common form is bubonic plague followed by septicemic and pneumonic plague 6 Other clinical manifestations include plague meningitis plague pharyngitis and ocular plague 6 7 General symptoms of plague include fever chills headaches and nausea 1 Many people experience swelling in their lymph nodes if they have bubonic plague 1 For those with pneumonic plague symptoms may or may not include a cough pain in the chest and haemoptysis 1 Bubonic plague Edit Main article Bubonic plague Swollen inguinal lymph glands on a person infected with the bubonic plague The swollen lymph glands are termed buboes from the Greek word for groin swollen gland bubo When a flea bites a human and contaminates the wound with regurgitated blood the plague causing bacteria are passed into the tissue Y pestis can reproduce inside cells so even if phagocytosed they can still survive Once in the body the bacteria can enter the lymphatic system which drains interstitial fluid Plague bacteria secrete several toxins one of which is known to cause beta adrenergic blockade 8 Y pestis spreads through the lymphatic vessels of the infected human until it reaches a lymph node where it causes acute lymphadenitis 9 The swollen lymph nodes form the characteristic buboes associated with the disease 10 and autopsies of these buboes have revealed them to be mostly hemorrhagic or necrotic 11 If the lymph node is overwhelmed the infection can pass into the bloodstream causing secondary septicemic plague and if the lungs are seeded it can cause secondary pneumonic plague 12 Septicemic plague Edit Main article Septicemic plague Septicemic plague resulting in necrosis Lymphatics ultimately drain into the bloodstream so the plague bacteria may enter the blood and travel to almost any part of the body In septicemic plague bacterial endotoxins cause disseminated intravascular coagulation DIC causing tiny clots throughout the body and possibly ischemic necrosis tissue death due to lack of circulation perfusion to that tissue from the clots DIC results in depletion of the body s clotting resources so that it can no longer control bleeding Consequently there is bleeding into the skin and other organs which can cause red and or black patchy rash and hemoptysis hematemesis coughing up vomiting of blood There are bumps on the skin that look somewhat like insect bites these are usually red and sometimes white in the center Untreated the septicemic plague is usually fatal Early treatment with antibiotics reduces the mortality rate to between 4 and 15 percent 13 14 15 Pneumonic plague Edit Main article Pneumonic plague The pneumonic form of plague arises from infection of the lungs It causes coughing and thereby produces airborne droplets that contain bacterial cells and are likely to infect anyone inhaling them The incubation period for pneumonic plague is short usually two to four days but sometimes just a few hours The initial signs are indistinguishable from several other respiratory illnesses they include headache weakness and spitting or vomiting of blood The course of the disease is rapid unless diagnosed and treated soon enough typically within a few hours death may follow in one to six days in untreated cases mortality is nearly 100 16 17 Cause Edit The Oriental rat flea Xenopsylla cheopis engorged with blood after a blood meal This species of flea is the primary vector for the transmission of Yersinia pestis the organism responsible for bubonic plague in most plague epidemics in Asia Africa and South America Both male and female fleas feed on blood and can transmit the infection A child bitten by a flea infected with the bacterium Yersinia pestis Y pestis a member of the family Yersiniaceae has caused the bite to become ulcerated Transmission of Y pestis to an uninfected individual is possible by any of the following means 18 droplet contact coughing or sneezing on another person direct physical contact touching an infected person including sexual contact indirect contact usually by touching soil contamination or a contaminated surface airborne transmission if the microorganism can remain in the air for long periods fecal oral transmission usually from contaminated food or water sources vector borne transmission carried by insects or other animals Yersinia pestis circulates in animal reservoirs particularly in rodents in the natural foci of infection found on all continents except Australia The natural foci of plague are situated in a broad belt in the tropical and sub tropical latitudes and the warmer parts of the temperate latitudes around the globe between the parallels 55 N and 40 S 18 Contrary to popular belief rats did not directly start the spread of the bubonic plague It is mainly a disease in the fleas Xenopsylla cheopis that infested the rats making the rats themselves the first victims of the plague Rodent borne infection in a human occurs when a person is bitten by a flea that has been infected by biting a rodent that itself has been infected by the bite of a flea carrying the disease The bacteria multiply inside the flea sticking together to form a plug that blocks its stomach and causes it to starve The flea then bites a host and continues to feed even though it cannot quell its hunger and consequently the flea vomits blood tainted with the bacteria back into the bite wound The bubonic plague bacterium then infects a new person and the flea eventually dies from starvation Serious outbreaks of plague are usually started by other disease outbreaks in rodents or a rise in the rodent population 19 A 21st century study of a 1665 outbreak of plague in the village of Eyam in England s Derbyshire Dales which isolated itself during the outbreak facilitating modern study found that three quarters of cases are likely to have been due to human to human transmission especially within families a much bigger proportion than previously thought 20 Diagnosis EditSymptoms of plague are usually non specific and in order to definitively diagnose plague laboratory testing is required 21 Y pestis can be identified through both a microscope and by culturing a sample and this is used as a reference standard to confirm that a person has a case of plague 21 The sample can be obtained from the blood mucus sputum or aspirate extracted from inflamed lymph nodes buboes 21 If a person is administered antibiotics before a sample is taken or if there is a delay in transporting the person s sample to a laboratory and or a poorly stored sample there is a possibility for false negative results 21 Polymerase chain reaction PCR may also be used to diagnose plague by detecting the presence of bacterial genes such as the pla gene plasmogen activator and caf1 gene F1 capsule antigen 21 PCR testing requires a very small sample and is effective for both alive and dead bacteria 21 For this reason if a person receives antibiotics before a sample is collected for laboratory testing they may have a false negative culture and a positive PCR result 21 Blood tests to detect antibodies against Y pestis can also be used to diagnose plague however this requires taking blood samples at different periods of time in order to detect differences between the acute and convalescent phases of F1 antibody titres 21 In 2020 a study about rapid diagnostic tests that detect the F1 capsule antigen F1RDT by sampling sputum or bubo aspirate was released 21 Results show rapid diagnostic F1RDT test can be used for people who have suspected pneumonic and bubonic plague but cannot be used in people who are asymptomatic F1RDT may be useful in providing a fast result for prompt treatment and fast public health response as studies suggest that F1RDT is highly sensitive for both pneumonic and bubonic plague However when using the rapid test both positive and negative results need to be confirmed to establish or reject the diagnosis of confirmed case of plague and the test result needs to be interpreted within the epidemiological context as study findings indicate that although 40 out of 40 people who had the plague in a population of 1000 was correctly diagnosed 317 people were diagnosed falsely as positive 21 22 23 Prevention EditMain article Plague vaccine Vaccination Edit Bacteriologist Waldemar Haffkine developed the first plague vaccine in 1897 24 25 He conducted a massive inoculation program in British India and it is estimated that 26 million doses of Haffkine s anti plague vaccine were sent out from Bombay between 1897 and 1925 reducing the plague mortality by 50 85 24 26 Since human plague is rare in most parts of the world as of 2021 routine vaccination is not needed other than for those at particularly high risk of exposure nor for people living in areas with enzootic plague meaning it occurs at regular predictable rates in populations and specific areas such as the western United States It is not even indicated for most travelers to countries with known recent reported cases particularly if their travel is limited to urban areas with modern hotels The United States CDC thus only recommends vaccination for 1 all laboratory and field personnel who are working with Y pestis organisms resistant to antimicrobials 2 people engaged in aerosol experiments with Y pestis and 3 people engaged in field operations in areas with enzootic plague where preventing exposure is not possible such as some disaster areas 27 A systematic review by the Cochrane Collaboration found no studies of sufficient quality to make any statement on the efficacy of the vaccine 28 Early diagnosis Edit Diagnosing plague early leads to a decrease in transmission or spread of the disease 21 Prophylaxis Edit Pre exposure prophylaxis for first responders and health care providers who will care for patients with pneumonic plague is not considered necessary as long as standard and droplet precautions can be maintained 7 In cases of surgical mask shortages patient overcrowding poor ventilation in hospital wards or other crisis situations pre exposure prophylaxis might be warranted if sufficient supplies of antimicrobials are available 7 Postexposure prophylaxis should be considered for people who had close lt 6 feet sustained contact with a patient with pneumonic plague and were not wearing adequate personal protective equipment 7 Antimicrobial postexposure prophylaxis also can be considered for laboratory workers accidentally exposed to infectious materials and people who had close lt 6 feet or direct contact with infected animals such as veterinary staff pet owners and hunters 7 Specific recommendations on pre and post exposure prophylaxis are available in the clinical guidelines on treatment and prophylaxis of plague published in 2021 7 Treatments EditIf diagnosed in time the various forms of plague are usually highly responsive to antibiotic therapy 6 21 The antibiotics often used are streptomycin chloramphenicol and tetracycline Amongst the newer generation of antibiotics gentamicin and doxycycline have proven effective in monotherapeutic treatment of plague 6 29 Guidelines on treatment and prophylaxis of plague were published by the Centers for Disease Control and Prevention in 2021 7 The plague bacterium could develop drug resistance and again become a major health threat One case of a drug resistant form of the bacterium was found in Madagascar in 1995 30 Further outbreaks in Madagascar were reported in November 2014 31 and October 2017 32 Epidemiology EditMain article Epidemiology of plague Distribution of plague infected animals 1998 Globally about 600 cases are reported a year 2 In 2017 the countries with the most cases include the Democratic Republic of the Congo Madagascar and Peru 2 It has historically occurred in large outbreaks with the best known being the Black Death in the 14th century which resulted in more than 50 million dead 2 In recent years cases are distributed between small seasonal outbreaks which occur primarily in Madagascar and sporadic outbreaks or isolated cases in endemic areas 2 In 2022 the possible origin of all modern strands of Yersinia pestis DNA was found in human remains in three graves located in Kyrgyzstan dated to 1338 and 1339 The siege of Caffa in Crimea in 1346 is known to have been the first plague outbreak with following strands later to spread over Europe Sequencing DNA compared to other ancient and modern strands paints a family tree of the bacteria Bacteria today affecting marmots in Kyrgyzstan are closest to the strand found in the graves suggesting this is also the location where plague transferred from animals to humans 33 Biological weapon EditThe plague has a long history as a biological weapon Historical accounts from ancient China and medieval Europe detail the use of infected animal carcasses such as cows or horses and human carcasses by the Xiongnu Huns Mongols Turks and other groups to contaminate enemy water supplies Han Dynasty General Huo Qubing is recorded to have died of such contamination while engaging in warfare against the Xiongnu Plague victims were also reported to have been tossed by catapult into cities under siege 34 In 1347 the Genoese possession of Caffa a great trade emporium on the Crimean peninsula came under siege by an army of Mongol warriors of the Golden Horde under the command of Jani Beg After a protracted siege during which the Mongol army was reportedly withering from the disease they decided to use the infected corpses as a biological weapon The corpses were catapulted over the city walls infecting the inhabitants This event might have led to the transfer of the Black Death via their ships into the south of Europe possibly explaining its rapid spread 35 During World War II the Japanese Army developed weaponized plague based on the breeding and release of large numbers of fleas During the Japanese occupation of Manchuria Unit 731 deliberately infected Chinese Korean and Manchurian civilians and prisoners of war with the plague bacterium These subjects termed maruta or logs were then studied by dissection others by vivisection while still conscious Members of the unit such as Shiro Ishii were exonerated from the Tokyo tribunal by Douglas MacArthur but 12 of them were prosecuted in the Khabarovsk War Crime Trials in 1949 during which some admitted having spread bubonic plague within a 36 kilometre 22 mi radius around the city of Changde 36 Ishii innovated bombs containing live mice and fleas with very small explosive loads to deliver the weaponized microbes overcoming the problem of the explosive killing the infected animal and insect by the use of a ceramic rather than metal casing for the warhead While no records survive of the actual usage of the ceramic shells prototypes exist and are believed to have been used in experiments during WWII 37 38 After World War II both the United States and the Soviet Union developed means of weaponising pneumonic plague Experiments included various delivery methods vacuum drying sizing the bacterium developing strains resistant to antibiotics combining the bacterium with other diseases such as diphtheria and genetic engineering Scientists who worked in USSR bio weapons programs have stated that the Soviet effort was formidable and that large stocks of weaponised plague bacteria were produced Information on many of the Soviet and US projects are largely unavailable Aerosolized pneumonic plague remains the most significant threat 39 40 41 The plague can be easily treated with antibiotics Some countries such as the United States have large supplies on hand if such an attack should occur making the threat less severe 42 See also EditTimeline of plagueReferences Edit a b c d e f g h i Symptoms Plague CDC September 2015 Retrieved 8 November 2017 a b c d e f g h i j k l m n o p q r s t Plague World Health Organization October 2017 Retrieved 8 November 2017 a b Resources for Clinicians Plague CDC October 2015 Retrieved 8 November 2017 a b FAQ Plague CDC September 2015 Retrieved 8 November 2017 Transmission Plague CDC September 2015 Retrieved 8 November 2017 a b c d Nelson Christina A Fleck Derderian Shannon Cooley Katharine M Meaney Delman Dana Becksted Heidi A Russell Zachary Renaud Bertrand Bertherat Eric Mead Paul S 2020 05 21 Antimicrobial Treatment of Human Plague A Systematic Review of the Literature on Individual Cases 1937 2019 Clinical Infectious Diseases 70 Supplement 1 S3 S10 doi 10 1093 cid ciz1226 ISSN 1058 4838 PMID 32435802 a b c d e f g This article incorporates text from this source which is in the public domain Nelson Christina A 2021 Antimicrobial Treatment and Prophylaxis of Plague Recommendations for Naturally Acquired Infections and Bioterrorism Response MMWR Recommendations and Reports 70 3 1 27 doi 10 15585 mmwr rr7003a1 ISSN 1057 5987 PMC 8312557 PMID 34264565 Brown SD Montie TC 1977 Beta adrenergic blocking activity of Yersinia pestis murine toxin Infection and Immunity 18 1 85 93 doi 10 1128 IAI 18 1 85 93 1977 PMC 421197 PMID 198377 Sebbane F Jarret C O Gardner D Long D Hinnebusch B J 2006 Role of Yersinia pestis plasminogen activator in the incidence of distinct septicemic and bubonic forms of flea borne plague Proc Natl Acad Sci U S A 103 14 5526 5530 Bibcode 2006PNAS 103 5526S doi 10 1073 pnas 0509544103 PMC 1414629 PMID 16567636 Symptoms Plague Centers for Disease Control and Prevention 14 September 2015 Retrieved 18 April 2017 Sebbane F Gardner D Long D Gowen B B Hinnebusch B J 2005 Kinetics of Disease Progression and Host Response in a Rat Model of Bubonic Plague Am J Pathol 166 5 1427 1439 doi 10 1016 S0002 9440 10 62360 7 PMC 1606397 PMID 15855643 Plague Centers for Disease Control and Prevention Retrieved 2014 08 05 Wagle PM 1948 Recent advances in the treatment of bubonic plague Indian J Med Sci 2 489 94 Meyer KF 1950 Modern therapy of plague J Am Med Assoc 144 12 982 85 doi 10 1001 jama 1950 02920120006003 PMID 14774219 Datt Gupta AK 1948 A short note on plague cases treated at Campbell Hospital Ind Med Gaz 83 3 150 51 PMC 5190352 PMID 29014753 Ryan K J Ray C G eds 2004 Sherris Medical Microbiology An Introduction to Infectious Diseases 4th ed New York McGraw Hill ISBN 978 0 8385 8529 0 Hoffman SL 1980 Plague in the United States the Black Death is still alive Annals of Emergency Medicine 9 6 319 22 doi 10 1016 S0196 0644 80 80068 0 PMID 7386958 a b Plague Manual Epidemiology Distribution Surveillance and Control pp 9 11 WHO CDS CSR EDC 99 2 Yersin Alexandre 1894 La peste bubonique a Hong Kong Annales de l Institut Pasteur 8 662 67 Greig Watson 22 April 2020 Coronavirus What can the plague village of Eyam teach us BBC News a b c d e f g h i j k l Jullien Sophie Dissanayake Harsha A Chaplin Marty 2020 06 26 Cochrane Infectious Diseases Group ed Rapid diagnostic tests for plague Cochrane Database of Systematic Reviews 6 6 CD013459 doi 10 1002 14651858 CD013459 pub2 PMC 7387759 PMID 32597510 Burch Jane Bhat Smitha 2021 What is the accuracy of the rapid diagnostic test based on the antigen F1 F1RDT for the diagnosis of plague Cochrane Clinical Answers doi 10 1002 cca 3217 S2CID 234804227 WHO Guidelines for Plague Management World Health Organisation 2021 pp 1 19 a b Waldemar Haffkine The vaccine pioneer the world forgot BBC News 2020 12 11 Retrieved 2021 01 20 WALDEMAR MORDECAI HAFFKINE Haffkine Institute Retrieved 2021 01 20 Hawgood Barbara J February 2007 Waldemar Mordecai Haffkine CIE 1860 1930 prophylactic vaccination against cholera and bubonic plague in British India Journal of Medical Biography 15 1 9 19 doi 10 1258 j jmb 2007 05 59 ISSN 0967 7720 PMID 17356724 S2CID 42075270 Plague Vaccine CDC June 11 1982 Retrieved Apr 30 2015 Jefferson T Demicheli V Pratt M 2000 Jefferson T ed Vaccines for preventing plague Cochrane Database Syst Rev 1998 2 CD000976 doi 10 1002 14651858 CD000976 PMC 6532692 PMID 10796565 Mwengee W Butler Thomas Mgema Samuel Mhina George Almasi Yusuf Bradley Charles Formanik James B Rochester C George 2006 Treatment of Plague with Genamicin or Doxycycline in a Randomized Clinical Trial in Tanzania Clin Infect Dis 42 5 614 21 doi 10 1086 500137 PMID 16447105 Drug resistant plague a major threat say scientists SciDev Net Plague Madagascar World Health Organisation 21 November 2014 Archived from the original on November 23 2014 Retrieved 26 November 2014 WHO scales up response to plague in Madagascar World Health Organization WHO 1 October 2017 Retrieved 5 October 2017 Origin of Black Death finally found in bacteria from Kyrgyzstan graves Schama S 2000 A History of Britain At the Edge of the World 3000BC AD1603 First Edition BBC Worldwide London p226 Wheelis M 2002 Biological warfare at the 1346 siege of Caffa Emerg Infect Dis 8 9 971 75 doi 10 3201 eid0809 010536 PMC 2732530 PMID 12194776 Daniel Barenblatt A plague upon Humanity HarperCollns 2004 pp 220 21 Japan s Secret Biological Weapons Program Damn Interesting Retrieved 2020 05 29 Chen Boyuan September 17 2013 New evidence of Japan s Unit 731 bio warfare China org cn Retrieved 29 August 2020 Plague Johns Hopkins Center for Public Health Preparedness The Johns Hopkins University Retrieved 29 August 2020 Fleisher Lee April 20 2012 Anesthesia and Uncommon Diseases p 394 ISBN 9781455737550 Riedel Stefan April 18 2005 Plague from natural disease to bioterrorism Baylor University Medical Center Proceedings 18 2 116 24 doi 10 1080 08998280 2005 11928049 PMC 1200711 PMID 16200159 Tamparo Carol Lewis Marcia 2011 Diseases of the Human Body Philadelphia PA F A Davis Company p 70 ISBN 9780803625051 Further reading EditNelson CA Meaney Delman D Fleck Derderian S Cooley KM Yu PA Mead PS July 2021 Antimicrobial Treatment and Prophylaxis of Plague Recommendations for Naturally Acquired Infections and Bioterrorism Response PDF MMWR Recomm Rep 70 3 1 27 doi 10 15585 mmwr rr7003a1 PMC 8312557 PMID 34264565 Archived PDF from the original on 2022 10 09 External links Edit Wikimedia Commons has media related to Plague WHO Health topic CDC Plague map world distribution publications information on bioterrorism preparedness and response regarding plague Symptoms causes pictures of bubonic plague Retrieved from https en wikipedia org w index php title Plague disease amp oldid 1132889284, wikipedia, wiki, book, books, library,

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