Tritrichomonas foetus

Last updated

Tritrichomonas foetus
Tritrichomonas foetus (259 26) Cultured.jpg
Scientific classification Red Pencil Icon.png
Domain: Eukaryota
Phylum: Metamonada
(unranked): Parabasalia
Order: Tritrichomonadida
Family: Tritrichomonadidae
Genus: Tritrichomonas
Species:
T. foetus
Binomial name
Tritrichomonas foetus
(Riedmueller, 1928)
Tritrichomonas foetus Tritrichomonas foetus (259 27) Cultured.jpg
Tritrichomonas foetus

Tritrichomonas foetus is a species of single-celled flagellated parasites that is known to be a pathogen of the bovine reproductive tract as well as the intestinal tract of cats. In cattle, the organism is transmitted to the female vagina and uterus from the foreskin of the bull where the parasite is known to reside. It causes infertility, and, at times, has caused spontaneous abortions in the first trimester. In the last ten years, there have been reports of Tritrichomonas foetus in the feces of young cats that have diarrhea [1] and live in households with multiple cats. Tritrichomonas foetus looks similarly to Giardia and is often misdiagnosed for it when viewed under a microscope. [2]

Contents

Cause

Tritrichomonas foetus is the genus Tritrichomonas within the order Tritrichomonadida in the Kingdom Protoctista. The parasite is 5-25 µm in size and is spindle shaped with four flagella, which are whiplike projections, and an undulating or wavy membrane. Three of the flagella are found on the anterior end and approximately the same length as the body of the parasite. The fourth is on the posterior end. [3] Their movement is jerky and in a forward direction, and they also do "barrel rolls". The organisms look like small tadpoles with small tails when viewed microscopically. The parasite interacts with bacteria that normally reside in the intestinal tract by adhering to the intestinal epithelium of the host.

Cattle

Clinical signs

Bulls do not show any clinical signs of infections and can infect females at mating. In cows, there may be infertility, embryonic death and abortion, and reproductive tract infections such as pyometra. [4] [5] Cows may show outward signs of infection, namely a sticky, white vaginal discharge, which may occur for up to two months after the initial infection. The disease results in abortion of the embryo, often within ten days of conception. Evidence of repeat breeding or infertility may be a sign of trichomoniasis. After the abortion of the fetus and the cow's return to a normal estrous cycle, the cow may come into estrus again, at which point it may be bred again. Eventually the cow will be able to cycle normally and carry a fetus to term. However, the irregularities after initial infection present obvious clinical signs of reproductive inconsistencies, which should be examined by a veterinarian immediately. [6] Bulls remain infected for life, but cows can successfully clear the infection, but reinfection is likely. [7]

Diagnosis

Diagnosis can be done on both males and females; however, bulls are tested more since they remain carriers. In cattle, a presumptive diagnosis can be made from the signs of infertility and geography. Diagnosis may rely on microscopic examination of vaginal or preputial smears. Complement fixation can be performed to detect parasite antibodies in vaginal secretions. [5]

Several related trichomonads may be mistaken for Tritrichomonas foetus, including: Trichomonas vaginalis, Trichomonas gallinae, and Trichomonas tenax. A study by Richard Felleisen found that identification of T. foetus using Polymerase chain reaction (PCR) resulted in a more accurate identification. The 5.8S rRNA gene of T. foetus was found to have 12 copies in the T. foetus genome. This indicated that the organism could be identified via amplification of this gene by PCR. Not only would this allow for identification of T. foetus, but also differentiation from other trichomonad species. [6] Diagnosis can also be done using the InPouch TF from a prepuce scraping sample from a bull.

Treatment and Control

Bulls can be treated in different ways. Various imidazoles have been used, but none are both safe and effective in treatment. Ipronidazole is probably most effective but, due to its low pH, frequently causes sterile abscesses at injection sites. Bulls can also remain carriers for life and can easily be susceptible to reinfection even after successful treatment. However bulls can sometimes remain carriers for life once they become infected. Cows can be treated by being left alone for around three months to allow them time to shed the vaginal and uterine lining that is affected. Semen can also be treated successfully with dimetridazole and then used for artificial insemination. Commercially available vaccines (TrichGuard, [8] Tricovac [9] ) cannot prevent infection, but confer disease attenuation and some level of protection against complications. [10] [11] In a placebo-controlled trial of TrichGuard with forty prophylactically vaccinated, T. foetus-infected beef heifers, 95% of the heifers in the active treatment group conceived, as opposed to 70% in the placebo group. 50% in the TrichGuard-group gave birth to a live calf, compared to 20% in the placebo group. [12] The most effective control method for eliminating the infection in a herd or an individual remains by culling the animal(s) and replacing them with virgin animals after positive test results. Cows can remain in the herd if given enough time to shed the infection or can be culled like bulls to allow faster turnover and assure the herd is clear of the infection. [2] [3]

Transmission

There are two routes of direct transmission for Tritrichomonas foetus between cattle: cow-to-bull or bull-to-cow. The most common route of transmission is from bull to cow. The cow can get infected either when naturally bred to an infected bull or when receiving semen from an infected bull during artificial insemination. However, in the case of artificial insemination, while T. foetus is capable of surviving the process used to freeze semen after collection, it is usually killed by drying or high temperatures. In cow-to-bull transmission, a female that has already been infected with T. foetus is bred with a male, who then contracts the infection. [13]

Tritrichomonas foetus in cattle is often attributed to direct transmission via reproduction with an infected individual; however, studies have documented evidence of T. foetus persisting in the intestinal tract of the housefly, suggesting a possible mode of transmission outside of reproduction. [14] Tests performed on feline T. foetus have also shown its persistence in room temperature, humid environments for up to ten days. [15]

Prognosis

The prognosis for cattle is not good. Infected bulls are advised to be culled; cows should also be culled due to easy reinfection even after clearing the initial infection. Trichomoniasis is a reportable disease in cattle, and as of now, there is no effect treatment. Prevention and smart farm practices are the only remedy. Testing should be done on any bull prior to exposing it to the herd. Limiting exposure of the herd to other cattle and limiting the introduction of open cows into the herd are good preventative practices. An estimated 42% of cows will acquire the disease if bred to an infected bull. [16]

Cat

Clinical signs

In cats, Tritrichomonas foetus is characterized by diarrhea that comes and goes and may contain blood and mucus at times. The diarrhea is semi formed in a cow pie consistency. In most cases it affects cats of 12 months of age or younger and cats from rescue shelters and homes with multiple cats. Close and direct contact appears to be the mode in which the parasite is transmitted. Tritrichomonas foetus is most common in purebred felines, breeds like Bengals, Persians, etc. Since catteries tend to trade queens and studs to provide greater genetic diversity, the parasite can be spread from one cattery to another.

Doctor Jody L. Gookin and her colleagues identified Tritrichomonas foetus, which causes diarrhea in domestic cats. As a result of her research people are able to diagnose, and a treat the infection. [17]

However, just because the cat doesn't show signs of diarrhea, it still could possibly be infected. Adult cats are less likely to develop diarrhea when infected, but they will still serve as a source of infection for other cats. Clinical signs can show up anywhere from days to years after exposure. [18]

Diagnosis

In cats, Tritrichomonas foetus can be detected by the following four methods:

  1. Direct Fecal Smear [18] [2]
    1. Fresh feces are examined in saline under a microscope for the presence of trichomonads. This is the cheapest method with poor sensitivity since approximately 14% of infected cats are detected through this method.
  2. Fecal culture [2]
    1. Feces are incubated in a growth medium for T. foetus. Included in this medium are antibiotics, which suppress unwanted bacterial growth. The culture is then examined microscopically for the presence of T. foetus.
    2. InPouch TF from a fecal sample of an infected cat is an example of this method.
    3. this is the second cheapest method at around $5-$7 per culture pouch. The sensitivity is good with approximately 55% of infected cats are detected through this method.
  3. PCR testing - A fecal sample is sent to a diagnostic laboratory for analysis. PCR testing searches the specimen for genetic evidence of the T. foetus organism. This test is the most reliable available at this time. The PCR test can take anywhere from one to three days to complete, so it is the fastest way to get results. This test can detect both living and dead organisms present in a sample. [2]
    1. This is the most expensive method at around $75 per test. The sensitivity is excellent with approximately twice as many infected cats detected through this method as fecal cultures.

Treatment and Control

One treatment that has been effective in experimentally infected cats is ronidazole but this remains an unapproved use.

Transmission

The primary transmission route is the litter box that is shared by both infected and uninfected cats, where a well-timed use by two cats can transfer the parasite from the feces of one cat to the paws of another where they later become ingested during the act of grooming. In cats, Tritrichomonas foetus is able to live several days in wet stool. Mutual grooming may also transfer the parasite. There is no evidence that T. foetus is sexually transmitted or infects the reproductive tract or mammary glands of cats. [18]

Prognosis

The long term prognosis for cats with TF is generally good, the diarrhoea will usually resolve itself in untreated cats. However this can take many months, and cats which no longer show clinical signs can continue to shed the organism for up to two years. [19] It appears that over time the parasite dies off and the infection is remedied on its own. In some cases, the symptoms may improve over time, but the animal is likely to still be a carrier of the parasite, capable of transmitting it to another cat.

Related Research Articles

<span class="mw-page-title-main">Trichomoniasis</span> Medical condition

Trichomoniasis (trich) is an infectious disease caused by the parasite Trichomonas vaginalis. About 70% of affected people do not have symptoms when infected. When symptoms occur, they typically begin 5 to 28 days after exposure. Symptoms can include itching in the genital area, a bad smelling thin vaginal discharge, burning with urination, and pain with sex. Having trichomoniasis increases the risk of getting HIV/AIDS. It may also cause complications during pregnancy.

Veterinary parasitology is a branch of veterinary medicine that deals with the study of morphology, life-cycle, pathogenesis, diagnosis, treatment, and control of eukaryotic invertebrates of the kingdom Animalia and the taxon Protozoa that depend upon other invertebrates and higher vertebrates for their propagation, nutrition, and metabolism without necessarily causing the death of their hosts. Modern parasitology focuses on responses of animal hosts to parasitic invasion. Parasites of domestic animals,, as well as wildlife animals are considered. Data obtained from parasitological research in animals helps in veterinary practice and improves animal breeding. The major goal of veterinary parasitology is to protect animals and improve their health, but because a number of animal parasites are transmitted to humans, veterinary parasitology is also important for public health.

<i>Trichomonas vaginalis</i> Species of parasite that cause sexually transmitted infections

Trichomonas vaginalis is an anaerobic, flagellated protozoan parasite and the causative agent of a sexually transmitted disease called trichomoniasis. It is the most common pathogenic protozoan that infects humans in industrialized countries. Infection rates in men and women are similar but women are usually symptomatic, while infections in men are usually asymptomatic. Transmission usually occurs via direct, skin-to-skin contact with an infected individual, most often through vaginal intercourse. The WHO has estimated that 160 million cases of infection are acquired annually worldwide. The estimates for North America alone are between 5 and 8 million new infections each year, with an estimated rate of asymptomatic cases as high as 50%. Usually treatment consists of metronidazole and tinidazole.

<i>Trichomonas</i> Genus of parasitic, flagellated protists

Trichomonas is a genus of anaerobic excavate parasites of vertebrates. It was first discovered by Alfred François Donné in 1836 when he found these parasites in the pus of a patient suffering from vaginitis, an inflammation of the vagina. Donné named the genus from its morphological characteristics. The prefix tricho- originates from the Ancient Greek word θρίξ (thrix) meaning hair, describing Trichomonas’s flagella. The suffix -monas, describes its similarity to unicellular organisms from the genus Monas.

<span class="mw-page-title-main">Coccidia</span> A subclass of protists

Coccidia (Coccidiasina) are a subclass of microscopic, spore-forming, single-celled obligate intracellular parasites belonging to the apicomplexan class Conoidasida. As obligate intracellular parasites, they must live and reproduce within an animal cell. Coccidian parasites infect the intestinal tracts of animals, and are the largest group of apicomplexan protozoa.

Coccidiosis is a parasitic disease of the intestinal tract of animals caused by coccidian protozoa. The disease spreads from one animal to another by contact with infected feces or ingestion of infected tissue. Diarrhea, which may become bloody in severe cases, is the primary symptom. Most animals infected with coccidia are asymptomatic, but young or immunocompromised animals may suffer severe symptoms and death.

<span class="mw-page-title-main">Protothecosis</span> Medical condition

Protothecosis, otherwise known as Algaemia, is a disease found in dogs, cats, cattle, and humans caused by a type of green alga known as Prototheca that lacks chlorophyll and enters the human or animal bloodstream. It and its close relative Helicosporidium are unusual in that they are actually green algae that have become parasites. The two most common species are Prototheca wickerhamii and Prototheca zopfii. Both are known to cause disease in dogs, while most human cases are caused by P. wickerhami. Prototheca is found worldwide in sewage and soil. Infection is rare despite high exposure, and can be related to a defective immune system. In dogs, females and Collies are most commonly affected.

<i>Dicrocoelium dendriticum</i> Species of fluke

Dicrocoelium dendriticum, the lancet liver fluke, is a parasite fluke that tends to live in cattle or other grazing mammals.

<i>Campylobacter fetus</i> Species of bacterium

Campylobacter fetus is a rod-shaped, gram-negative species of bacteria within the genus Campylobacter of phylum Pseudomonadota. Identification of C. fetus species in infected animals or people is routinely performed by culture on blood or cefoperazone deoxycholate agar. Subspecies of C. fetus commonly causes reproductive disease in ruminants and gastrointestinal disease in humans. Transmission of C. fetus subspecies venerealis occurs mainly through venereal contact while transmission of C. fetus subspecies fetus occurs mainly through ingestion of bacteria in a contaminated environment. Infertility in cattle and abortion in sheep are common outcomes of infection associated with C. fetus subspecies venerealis and C. fetus subspecies fetus, respectively. Disease in humans occurs through zoonotic transmission of C. fetus mainly via ingestion of contaminated food or water sources. C. fetus can be diagnosed with polymerase chain reaction assays, enzyme linked immunosorbent assays and vaginal mucus agglutination testing. As vaccines are typically not efficient in preventing future spread, infected bulls are often culled. Human infections may be treated with erythromycin as antimicrobial resistance has been emerging for the fluoroquinolones.

<i>Neospora</i> Genus of single-celled organisms

Neospora is a single celled parasite of livestock and companion animals. It was not discovered until 1984 in Norway, where it was found in dogs. Neosporosis, the disease that affects cattle and companion animals, has a worldwide distribution. Neosporosis causes abortions in cattle and paralysis in companion animals. It is highly transmissible and some herds can have up to a 90% prevalence. Up to 33% of pregnancies can result in aborted fetuses on one dairy farm. In many countries this organism is the main cause of abortion in cattle. Neosporosis is now considered as a major cause of abortion in cattle worldwide. Many reliable diagnostic tests are commercially available. Neospora caninum does not appear to be infectious to humans. In dogs, Neospora caninum can cause neurological signs, especially in congenitally infected puppies, where it can form cysts in the central nervous system.

<span class="mw-page-title-main">Bovine viral diarrhea</span> Significant economic disease of cattle caused by two species of Pestivirus

Bovine viral diarrhea (BVD), bovine viral diarrhoea or mucosal disease, previously referred to as bovine virus diarrhea (BVD), is an economically significant disease of cattle that is found in the majority of countries throughout the world. Worldwide reviews of the economically assessed production losses and intervention programs incurred by BVD infection have been published. The causative agent, bovine viral diarrhea virus (BVDV), is a member of the genus Pestivirus of the family Flaviviridae.

<span class="mw-page-title-main">Protozoan infection</span> Parasitic disease caused by a protozoan

Protozoan infections are parasitic diseases caused by organisms formerly classified in the kingdom Protozoa. They are usually contracted by either an insect vector or by contact with an infected substance or surface and include organisms that are now classified in the supergroups Excavata, Amoebozoa, SAR, and Archaeplastida.

<span class="mw-page-title-main">Amoebiasis</span> Human disease caused by amoeba protists

Amoebiasis, or amoebic dysentery, is an infection of the intestines caused by a parasitic amoeba Entamoeba histolytica. Amoebiasis can be present with no, mild, or severe symptoms. Symptoms may include lethargy, loss of weight, colonic ulcerations, abdominal pain, diarrhea, or bloody diarrhea. Complications can include inflammation and ulceration of the colon with tissue death or perforation, which may result in peritonitis. Anemia may develop due to prolonged gastric bleeding.

Ancylostoma tubaeforme is a hookworm that infects cats worldwide. Infection can occur through penetration of the skin, ingestion of infected hosts, such as birds, or by directly consuming the organism. Ancylostoma tubaeforme along with Ancylostoma braziliense are the two most common hookworms to infect cats, causing anemia and compromising the immune system.

<i>Trichomonas gallinae</i> Species of bird parasite

Trichomonas gallinae is a cosmopolitan parasite of birds including finches, pigeons, doves, turkeys, chickens, parrots, raptors. The condition in birds of prey is called frounce. It is believed to be an ancient pathogen causing frounce-like symptoms in theropod dinosaurs. The same condition in pigeons is commonly called canker.

<i>Cystoisospora</i> Genus of single-celled organisms

Cystoisospora is a genus of parasitic alveolates belonging to the phylum Apicomplexa.

<i>Trichomonas tenax</i> Species of single-celled organism

Trichomonas tenax, or oral trichomonas, is a species of Trichomonas commonly found in the oral cavity of humans. Routine hygiene is generally not sufficient to eliminate the parasite, hence its Latin name, meaning "tenacious". The parasite is frequently encountered in periodontal infections, affecting more than 50% of the population in some areas, but it is usually considered insignificant. T. tenax is generally not found on the gums of healthy patients. It is known to play a pathogenic role in necrotizing ulcerative gingivitis and necrotizing ulcerative periodontitis, worsening preexisting periodontal disease. This parasite is also implicated in some chronic lung diseases; in such cases, removal of the parasite is sufficient to allow recovery.

Tritrichomonas blagburni is a genus of parasite that infects the digestive system of cats.

<span class="mw-page-title-main">James E. Collins</span> American veterinary physician and academic

James E. Collins is an American veterinary physician and academic. He is the professor of medicine at the University of Minnesota and its Director of the veterinary diagnostic laboratory.

Jody L. Gookin is a distinguished professor at North Carolina State University. Her research is concerned with Gastrointestinal physiology. Gookin and her associates identified Tritrichomonas foetus in felines and then pioneered the diagnosis and treatment of the infection.

References

  1. Gookin, Jody L.; Martha E. Stebbins; Emily Hunt; Karen Burlone; Merritt Fulton; Robin Hochel; Miriam Talaat; Matthew Poore; Michael G. Levy (2004). "Prevalence of and Risk Factors for Feline Tritrichomonas foetus and Giardia Infection". J Clin Microbiol. 42 (6): 2707–2710. doi:10.1128/JCM.42.6.2707-2710.2004. PMC   427826 . PMID   15184456.
  2. 1 2 3 4 5 Gookin, Jody. "An Owners Guide To Diagnosis and Treatment of Cats Infected with Tritrichomonas Foetus" (PDF).
  3. 1 2 "Overview of Trichomoniasis in Cattle - Reproductive System". Merck Veterinary Manual. Retrieved 23 April 2019.
  4. Tritrichomonas foetus reviewed and published by WikiVet, accessed 10 October 2011.
  5. 1 2 Trichomonosis - Cattle reviewed and published by WikiVet, accessed 10 October 2011.
  6. 1 2 Felleisen, Richard S.J.; Natacha Lambelet; Philipp Bachmann; Jacques Nicolet; Norbert Müller; Bruno Gottstein (1998). "Detection of Tritrichomonas foetus by PCR and DNA Enzyme Immunoassay Based on rRNA Gene Unit Sequences". J Clin Microbiol. 36 (2): 513–519. doi:10.1128/JCM.36.2.513-519.1998. PMC   104569 . PMID   9466768.
  7. Janzen, Eugene D. "Overview of Trichomoniasis in Cattle". Merck Veterinary Manual.
  8. "TRICHGUARD Product Description". bi-vetmedica.com. Boehringer Ingelheim Vetmedica, Inc. Retrieved 7 April 2020.
  9. "TRICOVAC para la inmunoprofilaxis de la trichomonosis venérea bovina, en hembras de esa especie" [TRICOVAC for the immunoprophylaxis against bovine genital trichomoniasis in female cattle]. biotandil.com.ar (in Spanish). Laboratorio Biológico de Tandil Srl. Retrieved 7 April 2020.
  10. Daly, Russ (December 2005). "Bovine Trichomoniasis". Proceedings, the Range Beef Cow Symposium XIX 6, 7 December and 8, 2005, Rapid City, South Dakota: 123–132.
  11. Vispo, P. E.; Prieto, P. N.; Stahringer, R. C. (November 2011). "Empleo de una Vacuna Comercial contra la Trichomonosis en un Rodeo Brangus Infectado Naturalmente" [Use of a commercial vaccine against trichomonosis in naturally infected Brangus cattle]. Veterinaria Argentina (in Spanish). 28 (283). Retrieved 7 April 2020.
  12. Edmondson, Misty A.; Joiner, Kellye S.; Spencer, Jennifer A.; Riddell, Kay P.; Rodning, Soren P.; Gard, Julie A.; Givens, M. Daniel (March 2017). "Impact of a killed Tritrichomonas foetus vaccine on clearance of the organism and subsequent fertility of heifers following experimental inoculation". Theriogenology. 90: 245–251. doi:10.1016/j.theriogenology.2016.09.056. PMID   28166975.
  13. ,BonDurant R. 1997. Pathogenesis, Diagnosis, and Management of Trichomoniasis in Cattle. Veterinary Clinics of North America: Food Animal Practice. 13(2):345–361. doi:10.1016/S0749-0720(15)30346-7.
  14. , Morgan B. 1942. The viability of Trichomonas foetus (Protozoa) in the house fly (Musca domestica). In: Proceedings of the Helminthological Society of Washington. Vol. 9. The Helminthological Society of Washington. p. 41.
  15. ,Hale S, Norris J, Šlapeta J. 2009. Prolonged resilience of Tritrichomonas foetus in cat faeces at ambient temperature. Veterinary Parasitology. 166(1–2):60–65. doi:10.1016/j.vetpar.2009.07.032.
  16. "Bovine Trichomoniasis". www.addl.purdue.edu. Retrieved 30 April 2014.
  17. "Jody L. Gookin, DVM, PhD, DACVIM (Small Animal Internal Medicine)". American Veterinary Medical Association. American Veterinary Medical Association. Retrieved 26 March 2023.
  18. 1 2 3 Gookin, Jody. "Dr" (PDF). An owner's guide to diagnosis and treatment of cats infected with "Tritrichomonas foetus. Nprth Carolina State University.
  19. Tritrichomonas foetus in cats
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.