Campylobacter

Campylobacter
	Campylobacter jejuni
Scientific classification
Domain:	Bacteria
Phylum:	Campylobacterota
Class:	"Campylobacteria"
Order:	Campylobacterales
Family:	Campylobacteraceae
Genus:	Campylobacter; Sebald & Véron 1963
Type species
	Campylobacter fetus; (Smith & Taylor 1919) Sebald & Veron 1963
Species
	See text

Campylobacter is a type of bacteria that can cause a diarrheal disease in people.^[1] Its name means "curved bacteria", as the germ typically appears in a comma or "s" shape. According to its scientific classification, it is a genus of gram-negative bacteria that is motile.^[a]^[2]

The germ is common in nature and in domestic animals. It is frequently found in raw food of vegetable and animal origin. Its numbers can be very high in some foods, like raw poultry.^[3] Due to their diverse natural reservoir, some Campylobacter can also be detected in the air, although not at an epidemiologically significant level.^[4] The disease that some of the species of the bacteria can cause is called campylobacteriosis.^[b]

At least a dozen species of Campylobacter have been implicated in human disease, with C. jejuni (80–90%) and C. coli (5–10%) being the most common.^[6]^[1] C. jejuni is recognized as one of the main causes of bacterial foodborne disease in many developed countries.^[6]^[7] It is the number one cause of bacterial gastroenteritis in Europe, with over 246,000 cases confirmed annually.^[8] C. jejuni infection can also cause bacteremia in immunocompromised people, while C. lari is a known cause of recurrent diarrhea in children.^[9] C. fetus can cause spontaneous abortions in cattle and sheep, and is an opportunistic pathogen in humans.^[10]

Morphology and phenotype

Campylobacter spp. generally appear as curved or comma-shaped rods, and are able to move via unipolar or bipolar flagella.^[2] They grow best between 37–42 °C in a microaerophilic environment.^[11] When exposed to atmospheric oxygen, C. jejuni is able to change into a coccus form.^[12] Most species of Campylobacter are positive by the oxidase test and catalase test and are able to reduce nitrate. The number of known quinolone-resistant Campylobacter strains is growing. It is suggested that this is caused by the overuse of quinolone antibiotics in animal agriculture.^[12]

History

Theodor Escherich was the first to describe in 1886 what are known today as Campylobacters in the stool samples of infants, who perished from a disease he named "cholera infantum".^[13] In the following years until the end of the century, a number of publications appeared, describing the occurrence of such "spirilla" in cases of "cholera-like" and "dysenteric" disease. These organisms were mainly found in the colon or associated with mucus in diarrhoeal stool specimens. Vibrio-like bacteria were also described by Sir John McFadyean and Stockman in 1913 in fetal tissues of aborted sheep.^[14] For several years Campylobacters were continuously referred to as ‘‘Vibrio-like organisms’’, until 1963 when Sebald and Veron gave the name "Campylobacter" to the genus based on their shape and microaerophilic growth requirement and after showing significant biological differences with Vibrio species.^[13]

Genomics

The genomes of several Campylobacter species have been sequenced, beginning with C. jejuni in 2000.^[15]^[16] These genome studies have identified molecular markers specific to members of Campylobacter.^{[citation needed]} Campylobacter ssp. genomes are rather small compared to those of other gastrointestinal pathogens, with sizes ranging between 1.60 and 1.90 Mbp.^[16] A characteristic of most Campylobacter genomes is the presence of hypervariable regions, which can differ greatly between different strains.^[16]

Studies have investigated the genes responsible for motility in Campylobacter species. Some Campylobacter species contain two flagellin genes in tandem for motility, flaA and flaB. These genes undergo intergenic recombination, further contributing to their virulence.^[17] A single Type VI secretion system (T6SS) cluster was also predicted in approximately one-third of Campylobacter species, grouping into three distinct organisations and harbouring up to five vgrG genes.^[18]

Phylogeny

The currently accepted taxonomy is based on the List of Prokaryotic names with Standing in Nomenclature (LPSN)^[19] and National Center for Biotechnology Information (NCBI)^[20]

16S rRNA based LTP_08_2023^[21]^[22]^[23]

120 single copy marker proteins based GTDB 08-RS214^[24]^[25]^[26]

Campylobacter

C. portucalensis

	C. corcagiensis

	C. ureolyticus

C. hominis

	C. blaseri

	C. geochelonis

C. pinnipediorum

C. gracilis

C. rectus

	C. massiliensis

	C. showae

C. concisus

	C. curvus

	C. sputorum

C. anatolicus Aydin et al. 2022

C. majalis Lynch et al. 2022

	C. mucosalis

	C. suis Lynch et al. 2022

C. fetus

Campylobacter fetus testudinum

C. hyointestinalis

C. iguaniorum

	C. lanienae

	Campylobacter hyointestinalis lawsonii On et al. 1995

C. canadensis

C. coli

C. jejuni

Campylobacter jejuni doylei Steele & Owen 1988

C. estrildidarum

	C. aviculae

	C. taeniopygiae

C. insulaenigrae

	C. bilis

	C. hepaticus

Campylobacter lari concheus

	C. ornithocola

	C. subantarcticus

	C. lari

	C. volucris

	C. armoricus

	C. peloridis

C. novaezeelandiae

C. cuniculorum

C. helveticus

	C. upsaliensis

	C. vulpis

	C. avium

	C. troglodytis

Campylobacter

C. canadensis Inglis et al. 2007

	C. insulaenigrae Foster et al. 2004

	C. volucris Debruyne et al. 2010

C. peloridis Debruyne et al. 2009

C. armoricus Boukerb et al. 2019

C. subantarcticus Debruyne et al. 2010

C. ornithocola Caceres et al. 2017

	Campylobacter lari concheus Debruyne et al. 2009

	C. lari corrig. Benjamin et al. 1984

	C. avium Rossi et al. 2009

	C. troglodytis Kaur et al. 2023

C. cuniculorum Zanoni et al. 2009

C. helveticus Stanley et al. 1993

	C. upsaliensis Sandstedt & Ursing 1991

	C. vulpis Parisi et al. 2021

C. novaezeelandiae Bloomfield et al. 2020

C. jejuni (Jones, Orcutt & Little 1931) Veron & Chatelain 1973

	C. bilis Phung et al. 2022

	C. hepaticus Van et al. 2016

C. coli (Doyle 1948) Veron & Chatelain 1973

C. taeniopygiae Bryant et al. 2021

	C. aviculae Bryant et al. 2021

	C. estrildidarum Bryant et al. 2021

C. rectus (Tanner et al. 1981) Vandamme et al. 1991

	C. massiliensis Antezack et al. 2021

	C. showae Etoh et al. 1993

	C. concisus Tanner et al. 1981

	C. curvus (Tanner, Listgarten & Ebersole 1984) Vandamme et al. 1991

	C. mucosalis (Lawson et al. 1981) Roop et al. 1985

	C. pinnipediorum Gilbert et al. 2017

C. sputorum (Prévot 1940) Veron & Chatelain 1973

	C. gracilis (Tanner et al. 1981) Vandamme et al. 1995

	C. hominis Lawson et al. 2001

	C. blaseri Gilbert et al. 2018

	C. geochelonis Piccirillo et al. 2016

C. portucalensis Silva et al. 2021

	C. corcagiensis Koziel et al. 2014

	C. ureolyticus (Jackson & Goodman 1978) Vandamme et al. 2010

"Ca. C. infans" Bian et al. 2020

C. lanienae Logan et al. 2000

C. hyointestinalis Gebhart et al. 1985

C. iguaniorum Gilbert et al. 2015

	Campylobacter fetus testudinum Fitzgerald et al. 2014

	C. fetus (Smith & Taylor 1919) Sebald & Veron 1963

Species incertae sedis:

"C. faecalis" Kachler et al. 2000
"C. lawrenceae" Foley et al. 2004
C. magnus Gruntar et al. 2023

Campylobacter-specific bacteriophages

Campylobacter-specific bacteriophages are natural viral predators of the organism.^[27] Bacteriophages specific to the species now known as C. coli and C. fetus (previously Vibrio coli and V. fetus), were first isolated from cattle and pigs during the 1960s, and Campylobacter bacteriophage therapy is an ongoing area of research in the age of bacterial antibiotic resistance.^[27]^[28]^[29]

Pathogenesis

Campylobacter can cause a gastrointestinal infection, campylobacteriosis. The incubation period is 24–72 hours after infection.^[30] This is characterized by an inflammatory, sometimes bloody diarrhea or dysentery syndrome, mostly including cramps, fever, and pain.^[3]^[31] The most common routes of transmission are fecal-oral, ingestion of contaminated food or water, and the eating of raw meat. Foods implicated in campylobacteriosis include raw or under-cooked poultry, raw dairy products, and contaminated produce.^[31] Campylobacter is sensitive to the stomach's normal production of hydrochloric acid: as a result, the infectious dose is relatively high, and the bacteria rarely cause illness when a person is exposed to less than 10,000 organisms.^[9] Nevertheless, people taking antacid medication (e. g. people with gastritis or stomach ulcers) are at higher risk of contracting disease from a smaller number of organisms, since this type of medication neutralizes normal gastric acid.^{[citation needed]}

In humans, the sites of tissue injury include the jejunum, the ileum, and the colon.^{[citation needed]} Most strains of C. jejuni produce cytolethal distending toxin, which inhibits cell division and impedes activation of the immune system. This helps the bacteria to evade the immune system and survive for a limited time inside intestinal cells.^{[citation needed]} Campylobacter has, on rare occasions, been suggested to cause hemolytic uremic syndrome^[32] and thrombotic thrombocytopenic purpura,^[33] though no unequivocal case reports exist. Campylobacter infection is the most common trigger of Guillain–Barré syndrome.^[34] Gastrointestinal perforation is a rare complication of ileal infection.^[35]

Campylobacter has also been associated with periodontitis.^[3]

Detection

Campylobacter testing needs to be done to manage the risk of foodborne Campylobacter and reducing the level of foodborne Campoboteriosis, to protect people and to determine if a person is infected with Campylobacter.^{[citation needed]}

In humans

Usually, detection of Campylobacter in humans is done by laboratory culturing a stool sample or swab of the rectum collected by a healthcare provider. Results take about 48–72 hours for preliminary results. Confirmation test and testing to determine the species of Campylobacter or drug sensitivities of the organism require additional time.^[36]

In livestock

Usually, detection of Campylobacter in livestock is done by laboratory culturing a faecal sample. Results take about 48–72 hours.^[37]

In meat

Usually, detection of Campylobacter in meat is done by laboratory culturing a homogenised sample. Results takes about 48–72 hours.^[37]

Treatment

The infection is usually self-limiting and, in most cases, symptomatic treatment by liquid and electrolyte replacement is sufficient to treat human infections. Symptoms typically last 5–7 days.^[31] Treatment with antibiotics has only a minor effect on the typical duration of the infection in non-complex cases, and is discouraged except in high-risk patients.^[38] Diagnosis of campylobacteriosis is made by testing a fecal specimen. Standard treatment in high-risk cases is azithromycin, a macrolide antibiotic, especially for Campylobacter infections in children,^[39] although other antibiotics, such as quinolones, tetracycline and other macrolides are sometimes used to treat gastrointestinal Campylobacter infections in adults.^[40] In case of systemic infection, other bactericidal antibiotics are used, such as ampicillin, amoxicillin/clavulanic acid, or aminoglycosides. Fluoroquinolone antibiotics, such as ciprofloxacin or levofloxacin, may no longer be effective in some cases, due to resistance.^[41] In addition to antibiotics, dehydrated patients may require intravenous fluid treatment in a hospital.^[42]

Epidemiology

Canada

FoodNet Canada has reported that Campylobacter was the most common pathogen found on packaged chicken breast, with nearly half of all samples testing positive. Additionally, Campylobacter and Salmonella were the most common causes of gastrointestinal illness in Canada.^[43]

Italy

In Italy, the annual prevalence of Campylobacter infections appears to be relatively stable based on findings from a national survey conducted on more than 5000 isolates. The survey revealed that the most common species of Campylobacter were C. jejuni, accounting for 83.7% of isolates, followed by C. coli (13.5%) and C. fetus (0.6%). The mean age of affected patients was 34.61 years, with males constituting 57.1% of cases. Outpatients represented the majority of cases, comprising 54% of the total. Campylobacter infections were predominantly isolated from feces, accounting for 97.3% of cases, while a smaller proportion (2.7%) was isolated from blood. Notably, C. fetus was primarily isolated from blood samples, constituting 88.2% of cases. Regarding antibiotic resistance patterns, the survey found that resistance to ciprofloxacin and tetracyclines was relatively high, with rates of 75.5% and 54.8%, respectively. In contrast, resistance to macrolides, including erythromycin, clarithromycin, and azithromycin, was lower, with rates ranging from 2% to 4.8%. Additionally, approximately 50% of C. jejuni and C. coli isolates exhibited resistance to two or more antibiotics. There was a significant decrease in resistance to ciprofloxacin and tetracyclines over time, while resistance to macrolides remained stable.^[44]

New Zealand

In August 2016, an estimated 8,000+ residents of Havelock North, a town with around 13,000 residents, had gastric illness after the water supply was thought to be contaminated by Campylobacter.^[45]^[46]^[47]

Norway

In June 2019, an estimated 2,000 residents of Askøy municipality got sick due to the presence of C. jejuni in the water supply. Two deaths were connected to the outbreak, and it was the largest outbreak of Campylobacter in Norway.^[48] The suspected source of the contamination was thought to be horse faeces, which leaked into a drinking water pool.^[49] A C. jejuni water isolate thought to be the cause of the outbreak was examined with human isolates, and showed the highest pathogenic potential in vitro, transcriptomic and genomic investigations. This could suggest why the isolate was able to cause an outbreak.^[50]

Sweden

During the period of August 2016 to June 2017 there was a large outbreak of C. jejuni in Sweden. It was the largest outbreak that has been reported so far. 5000 more cases than would be expected during this period were reported to the authorities. The source of the outbreak was contaminated chicken meat that came from the same producer. The reason for the increased incidence and elevated levels of Campylobacter was reported to be an improperly installed washing plant, where dirty water was accidentally used to wash transport cages.^[51]

United Kingdom

In January 2013, the UK's Food Standards Agency (FSA) warned that two-thirds of all raw chicken bought from UK shops was contaminated with Campylobacter, affecting an estimated half a million people annually and killing about 100 of them.^[52] In June 2014, the FSA started a campaign against washing raw chicken, as washing can spread germs onto clean surfaces by splashing.^[53] In May 2015, cumulative results for samples taken from fresh chickens between February 2014 and February 2015 were published by the FSA and showed 73% of chickens tested positive for the presence of Campylobacter.^[54]

United States

Campylobacter infections increased 14% in the United States in 2012 compared to the rate from 2006 to 2008. This represents the highest reported number of infections since calendar year 2000.^[31]

High prevalence of Campylobacter (40% or more) has been reported in raw chicken meat in regional retail stores in the US, which remained steady from 2005 through 2011.^[55] The last USDA quarterly progress report on Salmonella and Campylobacter testing of meat and poultry, for July–September 2014, showed a low prevalence of Campylobacter spp. in ground chicken meat, but a larger prevalence (20%) in mechanically separated chicken meat (which is sold only for further processing).^[56]

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^ Motile means that it can move of its own.
^ It is usually self-limiting and antimicrobial treatment is often not required, except in severe cases or immunocompromised patients.^[5]

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^ "Govt rejects call for Hawke's Bay water emergency declaration". Radio New Zealand. 19 August 2016.
^ Gilpin, Brent J.; Walker, Tiffany; Paine, Shevaun; Sherwood, Jill; Mackereth, Graham; Wood, Tim; Hambling, Tammy; Hewison, Chris; Brounts, Angela; Wilson, Maurice; Scholes, Paula; Robson, Beth; Lin, Susan; Cornelius, Angela; Rivas, Lucia (2020). "A large scale waterborne Campylobacteriosis outbreak, Havelock North, New Zealand". Journal of Infection. 81 (3): 390–395. doi:10.1016/j.jinf.2020.06.065. ISSN 0163-4453. PMID 32610108. S2CID 220306856.
^ Olsen, Adrian Nyhammer; Baisotti, Valentina (11 June 2019). "Fant samme bakterie i drikkevannet som hos sykehuspasienter fra Askøy" (in Norwegian Bokmål). NRK.
^ Paruch, Lisa; Paruch, Adam M.; Sørheim, Roald (March 2020). "DNA-based faecal source tracking of contaminated drinking water causing a large Campylobacter outbreak in Norway 2019". International Journal of Hygiene and Environmental Health. 224: 113420. doi:10.1016/j.ijheh.2019.113420. hdl:11250/2731881. PMID 31748129.
^ Davies, Emma; Ebbesen, Marit; Johansson, Cecilia; Kaden, René; Rautelin, Hilpi (2020). "Genomic and Phenotypic Characterisation of Campylobacter jejuni Isolates From a Waterborne Outbreak". Frontiers in Cellular and Infection Microbiology. 10: 594856. doi:10.3389/fcimb.2020.594856. PMC 7658296. PMID 33194843.
^ "Utbrott av anmälningspliktiga sjukdomar i Sverige 2017" [Outbreaks of notifiable diseases in Sweden in 2017] (in Swedish). Folkhälsomyndigheten. 2018-05-09. Retrieved 27 May 2020.
^ Ward, Victoria (January 23, 2013). "FSA warns that chicken bacteria could be next meat scandal". The Telegraph.
^ "Food Safety Week 2014: 'Don't wash raw chicken'". Food Standards Agency. Archived from the original on November 8, 2014.
^ "Campylobacter survey: cumulative results from the full 12 months (Q1 – Q4)" (Press release). Food Standards Agency. May 28, 2015. Retrieved October 23, 2015.
^ Williams, Aretha; Oyarzabal, Omar A (August 2012). "Prevalence of Campylobacter spp. in skinless, boneless retail broiler meat from 2005 through 2011 in Alabama, USA". BMC Microbiology. 12: 184. doi:10.1186/1471-2180-12-184. PMC 3490988. PMID 22920043.
^ "Quarterly Progress Report on Salmonella and Campylobacter". Testing of Selected Raw Meat and Poultry Products: Preliminary Results, July 2014 to September 2014. Food Safety and Inspection Service. United States Department of Agriculture. 2015-04-24.

External links

[2] Motile means that it can move of its own.

[7] It is usually self-limiting and antimicrobial treatment is often not required, except in severe cases or immunocompromised patients.^[5]

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[50] Olsen, Adrian Nyhammer; Baisotti, Valentina (11 June 2019). "Fant samme bakterie i drikkevannet som hos sykehuspasienter fra Askøy" (in Norwegian Bokmål). NRK.

[51] Paruch, Lisa; Paruch, Adam M.; Sørheim, Roald (March 2020). "DNA-based faecal source tracking of contaminated drinking water causing a large Campylobacter outbreak in Norway 2019". International Journal of Hygiene and Environmental Health. 224: 113420. doi:10.1016/j.ijheh.2019.113420. hdl:11250/2731881. PMID 31748129.

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