Clostridium perfringens (formerly known as C. welchii, or Bacillus welchii) is a Gram-positive, rod-shaped, anaerobic, spore-forming pathogenic bacterium of the genus Clostridium. C. perfringens is ever-present in nature and can be found as a normal component of decaying vegetation, marine sediment, the intestinal tract of humans and other vertebrates, insects, and soil. It has the shortest reported generation time of any organism at 6.3 minutes in thioglycolate medium.
|Photomicrograph of Gram-positive Clostridium perfringens bacilli|
Veillon & Zuber 1898
Hauduroy et al. 1937
Clostridium perfringens is one of the most common causes of food poisoning in the United States, alongside norovirus, Salmonella, Campylobacter, and Staphylococcus aureus. However, it can sometimes be ingested and cause no harm.
Infections due to C. perfringens show evidence of tissue necrosis, bacteremia, emphysematous cholecystitis, and gas gangrene, also known as clostridial myonecrosis. The specific name perfringens is derived from the Latin per (meaning "through") and frango ("burst"), referring to the disruption of tissue that occurs during gas gangrene. The toxin involved in gas gangrene is α-toxin, which inserts into the plasma membrane of cells, producing gaps in the membrane that disrupt normal cellular function. C. perfringens can participate in polymicrobial anaerobic infections. It is commonly encountered in infections as a component of the normal flora. In this case, its role in disease is minor.
Tissue gas is produced when C. perfringens interacts with dead bodies. It causes extremely accelerated decomposition, and cannot be stopped by normal embalming measures. These bacteria are resistant to the presence of formaldehyde in normal concentrations.
This section is missing information about description of the genotypes — A and C mentioned below but not properly explained.(January 2022)
Clostridium perfringens has a stable G+C content around 27–28% and average genome size of 3.5 Mb. Genomes of 56 C. perfringens strains have since been made available on NCBI genomes database for the scientific research community. Genomic research has revealed surprisingly high diversity in C. perfringens pangenome, with only 12.6% core genes, identified as the most divergent Gram-positive bacteria reported. Nevertheless, 16S rRNA regions in between C. perfringens strains are found to be highly conserved (sequence identity >99.1%).
Although they lack flagella, C. perfringens bacteria are able to glide across surfaces because their bodies are lined with filaments from end-to-end. The hypermotile variants such as SM101, are often found arising on the edges of colonies on agar plates. Video microscopy of their gliding movement suggests that they form long, thin filaments that allow them to move rapidly like bacteria with flagella. Genome sequencing was used to identify the cause(s) of the hypermotile phenotype and their direct derivatives. In comparing them, strains SM124 and SM127, hypermotile derivatives of strains SM101 and SM102, respectively, contained 10 and six nucleotide polymorphisms (SNPs) relative to their parent strains. Mutations in cell division genes is the common feature of the hypermotile strains.
Food poisoning in humans is caused by type A strains able to produce the CPE (for Clostridium perfringens enterotoxin). The CPE is a polypeptide of 35.5 kDa that accumulates in the beginning of the sporulation and is excreted to the media when it lysates at the end of the sporulation. It is coded by the cpe gene, present in less than the 5% of the type A strains, and it can be located in the chromosome or in an external plasmid
In the United Kingdom and United States, C. perfringens bacteria are the third-most common cause of foodborne illness, with poorly prepared meat and poultry, or food properly prepared, but left to stand too long, the main culprits in harboring the bacterium. The C. perfringens enterotoxin (CPE) mediating the disease is heat-labile (inactivated at 74 °C (165 °F)). It can be detected in contaminated food (if not heated properly), and feces. Incubation time is between 6 and 25 (commonly 10–12) hours after ingestion of contaminated food.
Since C. perfringens forms spores that can withstand cooking temperatures, if cooked food is left standing for long enough, germination can ensue and infective bacterial colonies develop. Symptoms typically include abdominal cramping, diarrhea, and fever. The whole course usually resolves within 24 hours, but can last up to 2 weeks in older or infirm hosts.
Clostridium perfringens poisoning can also lead to another disease known as enteritis necroticans or clostridial necrotizing enteritis, (also known as pigbel); this is caused by C. perfringens type C. This infection is often fatal. Large numbers of C. perfringens grow in the intestines, and secrete exotoxin. This exotoxin causes necrosis of the intestines, varying levels of hemorrhaging, and perforation of the intestine. Inflammation usually occurs in sections of the jejunum, midsection of the small intestine. This disease eventually leads to septic shock and death. This particular disease is rare in the United States; typically, it occurs in populations with a higher risk. Risk factors for enteritis necroticans include protein-deficient diet, unhygienic food preparation, sporadic feasts of meat (after long periods of a protein-deficient diet), diets containing large amounts of trypsin inhibitors (sweet potatoes), areas prone to infection of the parasite Ascaris (produces a trypsin inhibitor). This disease is contracted in populations living in New Guinea, parts of Africa, Central America, South America, and Asia.
Many cases of C. perfringens food poisoning likely remain subclinical, as antibodies to the toxin are common among the population. This has led to the conclusion that most of the population has experienced food poisoning due to C. perfringens.
Despite its potential dangers, C. perfringens is used as the leavening agent in salt-rising bread. The baking process is thought to reduce the bacterial contamination, precluding negative effects.
Clostridium perfringens is the most common bacterial agent for gas gangrene. Some symptoms include blisters, tachycardia, swelling, and jaundice.
A strain of C. perfringens might be implicated in multiple sclerosis (MS) nascent (Pattern III) lesions. Tests in mice found that a toxin made by a rare strain of C. perfringens caused MS-like damage in the brain, and earlier work had identified this strain of C. perfringens in a human with MS. MS patients were found to be 10 times more immune-reactive to the epsilon toxin than healthy people.
Clostridium perfringens produces large colonies with irregular margins, often with a double zone of hemolysis. Clostridium perfringens can be diagnosed by Nagler's reaction, in which the suspect organism is cultured on an egg yolk media plate. One side of the plate contains anti-alpha-toxin, while the other side does not. A streak of suspect organism is placed through both sides. An area of turbidity will form around the side that does not have the anti-alpha-toxin, indicating uninhibited lecithinase activity. In addition, laboratories can diagnose the bacteria by determining the number of bacteria in the feces. Within the 48 hours from when the disease began, if the individual has more than 106 spores of the bacteria per gram of stool, then the illness is diagnosed as C. perfringens food poisoning. Other tests/reactions: Catalase: Negative, Spot indole: Negative, Lecithinase: Positive, Lipase: Negative, Litmus Milk: Stormy Fermentation, Reverse CAMP plate: Positive, Gas Liquid Chromatography products: (Acetic, Butyric and Lactic Acids).
Typically, the symptoms of C. perfringens poisoning are used to diagnose it. However, diagnosis can be made using a stool culture test, in which the feces are tested for toxins produced by the bacteria.
The growth of C. perfringens spores can be prevented by most importantly cooking food, especially beef and poultry, thoroughly, to the recommended temperatures. Leftover food should be refrigerated to a temperature below 40 °F (4 °C) within two hours of preparation. Large pots of food such as soup or stew with meats should be divided into small quantities and covered for refrigeration. Leftovers should be reheated to at least 165 °F (74 °C) before serving. A rule of thumb is that if the food tastes, smells, or looks different from what it is supposed to, then the food should be avoided. Even if it looks safe, a food that has been out for a long time can also be dangerous to eat.
It can multiply between 12C and 50C.[failed verification]
The most important aspect of treatment is prompt and extensive surgical debridement of the involved area and excision of all devitalized tissue, in which the organisms are prone to grow. Administration of antimicrobial drugs, particularly penicillin, is begun at the same time. Clostridium perfringens is more often susceptible to vancomycin compared to other pathogenic Clostridia. Hyperbaric oxygen may be of help in the medical management of clostridial tissue infections.
Clostridium perfringens is a leading cause of food poisoning in the United States and Canada. Contaminated meats in stews, soups, and gravies are usually responsible for outbreaks and cause about 250,000 cases of foodborne illnesses in the United States every year. Deaths due to the disease are rare and mostly occur in elderly and people who are predisposed to the disease. From 1998 to 2010, 289 confirmed outbreaks of C. perfringens illness were reported with 15,208 illnesses, 82 hospitalizations, and eight deaths.
In human post-mortem bodies C. perfringens can cause extremely accelerated decomposition. The by-product, called tissue gas, is slowed or halted by embalming the body using special additive chemicals. It most commonly occurs in the bodies of people who have died of gangrene, large decubitus ulcers, necrotising fasciitis or who have had soil, faeces or water forced into wounds.
Food poisoning incidentsEdit
On May 7, 2010, 42 residents and 12 staff members at a Louisiana (USA) state psychiatric hospital were affected and experienced vomiting, abdominal cramps, and diarrhea. Three patients died within 24 hours. The outbreak was linked to chicken which was cooked a day before it was served and was not cooled down according to hospital guidelines. The outbreak affected 31% of the residents of the hospital and 69% of the staff who ate the chicken. How many of the affected residents ate the chicken is unknown.
In May 2011, a man died after allegedly eating food contaminated with the bacteria on a transatlantic American Airlines flight. The man's wife and daughter were suing American and LSG Sky Chefs, the German company that prepared the inflight food.
In December 2012, a 46-year-old woman died two days after eating a Christmas Day meal at a pub in Hornchurch, Essex, England. She was among about 30 people to fall ill after eating the meal. Samples taken from the victims contained C. perfringens. The hotel manager and the cook were jailed for offences arising from the incident.
In December 2014, 87-year-old Bessie Scott died three days after eating a church potluck supper in Nackawic, New Brunswick, Canada. Over 30 other people reported signs of gastrointestinal illness, diarrhea, and abdominal pain. The province's acting chief medical officer says, Clostridium perfringens is the bacteria [sic] that most likely caused the woman's death.
In October 2016, 66-year-old Alex Zdravich died four days after eating an enchilada, burrito, and taco at Agave Azul in West Lafayette, Indiana, United States. Three others who dined the same day reported signs of foodborne illness, which were consistent with the symptoms and rapid onset of C. perfringens infection. They later tested positive for the presence of the bacteria, but the leftover food brought home by Zdravich tested negative.
In November 2016, food contaminated with C. perfringens caused three individuals to die, and another 22 to be sickened, after a Thanksgiving luncheon hosted by a church in Antioch, California, United States.
In January 2017, a mother and her son sued a restaurant in Rochester, New York, United States, as they and 260 other people were sickened after eating foods contaminated with C. perfringens. "Officials from the Monroe County Department of Public Health closed down the Golden Ponds after more than a fourth of its Thanksgiving Day guests became ill. An inspection revealed a walk-in refrigerator with food spills and mold, a damaged gasket preventing the door from closing, and mildew growing inside."
In July 2018, 647 people reported symptoms after eating at a Chipotle Mexican Grill restaurant in Powell, Ohio, United States. Stool samples tested by the CDC tested positive for C. perfringens.
In November 2018, approximately 300 people in Concord, North Carolina, United States, were sickened by food at a church barbecue that tested positive for C. perfringens.
- ^ Ryan, Kenneth J.; Ray, C. George (2004). Sherris Medical Microbiology : an Introduction to Infectious Diseases (4th ed.). New York: McGraw-Hill. p. 310. ISBN 978-0-8385-8529-0.
- ^ Kiu, R; Hall, L. J. (2018). "An update on the human and animal enteric pathogen Clostridium perfringens". Emerging Microbes & Infections. 7 (141): 141. doi:10.1038/s41426-018-0144-8. PMC 6079034. PMID 30082713.
- ^ "BioNumber Details Page". BioNumbers.
- ^ "Foodborne Illnesses and Germs". Centers for Disease Control and Prevention (CDC). 2018-02-16. Retrieved 18 February 2018.
- ^ a b Juckett, G; Bardwell, G; McClane, B; Brown, S (2008). "Microbiology of salt rising bread". The West Virginia Medical Journal. 104 (4): 26–7. PMID 18646681.
- ^ Lexicon Orthopaedic Etymology. CRC Press. 1999. p. 128. ISBN 9789057025976.
- ^ a b c Kiu, Raymond; Caim, Shabhonam; Alexander, Sarah; Pachori, Purnima; Hall, Lindsay J. (2017). "Probing Genomic Aspects of the Multi-Host Pathogen Clostridium perfringens Reveals Significant Pangenome Diversity, and a Diverse Array of Virulence Factors". Frontiers in Microbiology. 8: 2485. doi:10.3389/fmicb.2017.02485. PMC 5733095. PMID 29312194.
- ^ Liu, Hualan; McCord, Kristin D.; Howarth, Jonathon; David, Popham L.; Jensen, Roderick V.; Melville, Stephen B. (July 2014). "Hypermotility in Clostridium perfringens Strain SM101 Is Due to Spontaneous Mutations in Genes Linked to Cell Division". Journal of Bacteriology. 196 (13): 2405–2412. doi:10.1128/JB.01614-14. PMC 4054169. PMID 24748614.
- ^ Kiu, Raymond; Caim, Shabhonam; Painset, Anais; Pickard, Derek; Swift, Craig; Dougan, Gordon; Mather, Alison E.; Amar, Corinne; Hall, Lindsay J. (25 September 2019). "Phylogenomic analysis of gastroenteritis-associated Clostridium perfringens in England and Wales over a 7-year period indicates distribution of clonal toxigenic strains in multiple outbreaks and extensive involvement of enterotoxin-encoding (CPE) plasmids". Microbial Genomics. 5 (10). doi:10.1099/mgen.0.000297. PMC 6861862. PMID 31553300.
- ^ Labbe, R.G.; Juneja, V.K. (2017), "Clostridium perfringens", Foodborne Diseases, Elsevier, pp. 235–242, doi:10.1016/b978-0-12-385007-2.00010-3
- ^ Warrell; et al. (2003). Oxford Textbook of Medicine (4th ed.). Oxford University Press. ISBN 978-0-19-262922-7.[page needed]
- ^ Murray; et al. (2009). Medical Microbiology (6th ed.). Mosby Elsevier. ISBN 978-0-323-05470-6.[page needed]
- ^ Fafangel, Mario; UČacar, Veribuca; Vudrag, Marko; Berce, Ingrid; Kraigher, Alenka (2015). "A Five Site Clostridium Perfringens Food-Borne Outbreak: A Retrospective Cohort Study". Slovenian Journal of Public Health. 54 (1): 51–57. doi:10.1515/sjph-2015-0007. PMC 4820149. PMID 27646622.
- ^ a b Lentino, Joseph R. (2016-01-01). "Clostridial Necrotizing Enteritis". Merck Manuel. Merck Sharp & Dohme Corp. Retrieved 2016-09-27.
- ^ a b c "Clostridium perfringens". Center for Disease Control and Prevention. 2015-10-08. Retrieved 2016-09-27.
- ^ "Gas gangrene: MedlinePlus Medical Encyclopedia".
- ^ Rumah, Kareem Rashid; Linden, Jennifer; Fischetti, Vincent A.; Vartanian, Timothy; Esteban, Francisco J. (16 October 2013). "Isolation of Clostridium perfringens Type B in an Individual at First Clinical Presentation of Multiple Sclerosis Provides Clues for Environmental Triggers of the Disease". PLOS ONE. 8 (10): e76359. Bibcode:2013PLoSO...876359R. doi:10.1371/journal.pone.0076359. PMC 3797790. PMID 24146858.
- ^ "Multiple sclerosis 'linked to food bug'". BBC. 29 January 2014. Retrieved 29 January 2014.
- ^ Woerner, Amanda (29 January 2014). "Bacterial toxin may trigger multiple sclerosis, research finds". Fox News.
- ^ "Clostridium perfringens" (PDF). Louisiana Department of Health. 2015-11-24. Retrieved 2023-03-06.
- ^ Harpold, D. J.; Wasilauskas, B. L.; O'Connor, M. L. (1985). "Rapid identification of Clostridium species by high-pressure liquid chromatography" (PDF). Journal of Clinical Microbiology. 22 (6): 962–967. doi:10.1128/jcm.22.6.962-967.1985. PMC 271860. PMID 3905852.
- ^ "Bad Bug Book (Second Edition)" (PDF). U.S. Food and Drug Administration. 2014-10-07. Retrieved 2016-09-26.
- ^ ICMSF Microorganisms in Foods 5: Characteristics of Microbial Pathogens. London Blackie. 1996.
- ^ Di Bella, Stefano; Antonello, Roberta Maria; Sanson, Gianfranco; Maraolo, Alberto Enrico; Giacobbe, Daniele Roberto; Sepulcri, Chiara; Ambretti, Simone; Aschbacher, Richard; Bartolini, Laura; Bernardo, Mariano; Bielli, Alessandra (June 2022). "Anaerobic bloodstream infections in Italy (ITANAEROBY): A 5-year retrospective nationwide survey". Anaerobe. 75: 102583. doi:10.1016/j.anaerobe.2022.102583. PMID 35568274. S2CID 248736289.
- ^ Jawetz Melnick & Adelbergs Medical Microbiology - 27E.
- ^ Johnson, E. A., Summanen, P., & Finegold, S. M. (2007). Clostridium. In P. R. Murray (Ed.), Manual of Clinical Microbiology (9th ed., pp. 889-910). Washington, D.C.: ASM Press
- ^ Songer, J. G. (2010). Clostridia as agents of zoonotic disease. Veterinary Microbiology, 140(3-4), 399-404
- ^ Grass, Julian E.; Gould, L. Hannah; Mahon, Barbara E. (1 February 2013). "Epidemiology of foodborne disease outbreaks caused by Clostridium perfringens, United States, 1998-2010". Foodborne Pathog. Dis. 10 (2): 131–136. doi:10.1089/fpd.2012.1316. PMC 4595929. PMID 23379281.
- ^ "Fatal Foodborne Clostridium perfringens Illness at a State Psychiatric Hospital — Louisiana, 2010". Centers for Disease Control and Prevention. Retrieved 16 November 2013.
- ^ Mohn, Tanya (1 December 2011). "Passenger dies in-flight, family says airline to blame". Overhead Bin. MSNBC. Retrieved 2012-02-13.
- ^ "Pub chef and manager jailed over Christmas dinner that left a diner dead". The Guardian. 23 January 2015. Retrieved 3 August 2015.
- ^ "Woman's death likely caused by bacteria from Christmas supper". CBC. 12 December 2014.
- ^ "Food poisoning death at Indiana restaurant kept secret for months". 13 WTHR Indianapolis. 2017-07-17. Retrieved 2017-07-18.
- ^ (WTHR), Susan Batt. "Agave Azul Tippecanoe Co Food Poisoning Finding Summary". www.documentcloud.org. Retrieved 2017-07-18.
- ^ "Bacteria that killed 3 at Antioch Thanksgiving dinner pinpointed". SFGate. Retrieved 2016-12-20.
- ^ "Mother, son sue eatery for Thanksgiving dinner food poisoning - Food Safety News". 6 January 2017.
- ^ "CDC releases test findings after hundreds sickened at Powell Chipotle - Columbus Dispatch". 16 August 2018.
- ^ "Strain of food poisoning causes illness at North Carolina church barbecue". November 2018.
- Clostridium perfringens genomes and related information at PATRIC, a Bioinformatics Resource Center funded by NIAID
- Pathema-Clostridium Resource
- Type strain of Clostridium perfringens at BacDive - the Bacterial Diversity Metadatabase