Difference between revisions of "Toxoplasmosis"

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{{curated}}[[Image:OULOGOBIANCO.JPEG|thumb|130px|right|University of Oklahoma Study Abroad Microbiology in Arezzo, Italy 2013 [http://cas.ou.edu/study-abroad/]]]
{{curated}}[[Image:OULOGOBIANCO.JPEG|thumb|130px|right|University of Oklahoma Study Abroad Microbiology in Arezzo, Italy 2013 [http://cas.ou.edu/study-abroad/]]]
[[Image: Toxoplasmosis2.jpeg |thumb|400px|right| <i>Toxoplasmosis gondii</i>  <br /> From: http://www.oculist.net/downaton502/prof/ebook/duanes/pages/v4/v4c046.html]]
[[Image: Toxoplasmosis2.jpeg |thumb|400px|right| <i>Toxoplasmosis gondii</i>  <br /> From: http://www.oculist.net/downaton502/prof/ebook/duanes/pages/v4/v4c046.html]]

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University of Oklahoma Study Abroad Microbiology in Arezzo, Italy 2013 [1]
The only definitive hosts for Toxoplasmosis gondii are cats.
From: http://www.economist.com/node/16271339


Toxoplasma gondii is an obligate, intracellular parasitic protozoan that infects most species of warm blooded animals, including humans, and is the causative agent of the disease Toxoplasmosis. While T. gondii may infect humans and asexually reproduce within them, the only host in which the protozoa may complete its life cycle and sexually reproduce are family Felidae, more commonly referred to as domestic cats and their relatives. [1]

Taxonomy of Toxoplasma gondii
Domain: Eukaryota
Kingdom: Chromalveolata
Superphylum: Alveolata
Phylum: Apicomplexa
Class: Conoidasida
Subclass: Coccidiasina
Order: Eucoccidiorida
Family: Sarcocystidae
Subfamily: Toxoplasmatinae
Genus: Toxoplasma
Species: Toxoplasma gondii


Transmission and Colonization


The only hosts in which Toxoplasma gondii can mature and reproduce sexually are members of the family Felidae. Infected domestic cats (and those related to them) will shed large numbers of unsporulated oocysts in their feces for approximately one to two weeks after infection. Oocysts released into the environment take from one to five days to form spores and become capable of causing infection in other hosts. Intermediate hosts, commonly birds and rodents (typical prey of felines), may then become infected by consuming materials contaminated with T. gondii spores. After ingestion, oocysts develop into tachyzoites which localize in neural and muscle tissues to develop into cyst bradyzoites. Members of the family Felidae become infected after consuming intermediate hosts that have these cysts in their tissues. Additionally, other animals (including many of those bred for consumption) may become infected with cysts after ingesting T. gondii spores from the environment. [1]

Infecting humans

Humans may become infected with Toxoplasma gondii by a variety of routes. The most common methods of infection include: consuming undercooked meat of animals that had tissue cysts, consuming food or water contaminated with infected cat feces, consuming food or water contaminated by infected environmental samples (e.g. soil, cat litter), and infection of a fetus transplacentally from the mother. A less likely method of infection is receiving a blood transfusion or organ transplant from individuals harboring tissue cysts. Unlike its lifecycle in felines and intermediate hosts, T. gondii commonly forms cysts in the skeletal muscle, brain, eyes, and myocardium of the human host. Additionally, rather than being shed in feces like the feline host, the cysts in a human host may remain for the entire life of the human host. [1]

Infectious dose
There is no known specific infectious dose of Toxoplasma gondii organisms required to cause disease within a host, although it has been suggested that the number is very low due to high rates of infection. [2] There are three stages of the T. gondii lifecycle in which it is infectious. The first infectious phase of the T. gondii lifecycle is during the oocyst stage; T. gondii oocysts may be found in soil or water and can survive in the environment for several months. The second infectious phase is the tachysoite stage, a phase of rapid replication in the tissues of the host; this is the stage responsible for the onset of acute toxoplasmosis. Finally, the third infectious stage of the T.gondii lifecycle is the bradyzoite stage in which the parasite replicates in the muscle and brain tissue of the infected host. [3]

Incubation period
The incubation period, or the time between exposure to the organism and the onset of symptoms, of Toxoplasma gondii in a human host is 10 to 23 days after consuming contaminated food or water, and 5 to 20 days after exposure to infected cat feces. [4]

Virulence factors
The protozoan parasite Toxoplasmosis gondii has many intriguing virulence factors. The fact that is has developed mechanisms to ensure it is able to find the "right" host, a cat, in which it may complete its lifecycle and reproduce sexually to further diversify the species is an excellent example.

Modifying intermediate host behavior

It may be inferred that the best way to enter a new feline host would be to be eaten by a feline host, so in some way T. gondii has developed a mechanism by which it seems to alter its intermediate host's behavior to ensure it ends up in the stomach of a cat. Generally, mice and rats (common intermediate hosts for Toxoplasmosis) have a strong aversion to the smell of cat urine, as it is indicative of the presence of a cat (or to a mouse, a predator) in the immediate vicinity. T.gondii has developed a mechanism by which it changes rodent's innate aversion to feline odors and instead produces an attraction to these smells, thus increasing the likelihood that the intermediate rodent host will be eaten by the feline definitive host. This adaptation by T. gondiiaids in its transmission to a definitive host, and ensures its ability to reproduce sexually. The mechanisms by which T.gondii is able to make such behavior modifications in the host are still unknown. [7]

Toxoplasma influence on human behavior

While the symptoms of Toxoplasma infection seem to be fairly mild, recent research regarding this parasite has revealed an abundance of information pertaining to the psychological effects that Toxoplasmosis infection can induce in a human host. Toxoplasma infection has been linked to increased risk of developing schizophrenia in infants whose mothers were infected by Toxoplasmosis, correlated to differences in behaviors between cultures, linked to increased neuroticism, and an alarmingly high correlation between infection and suicide rates. [8] In one specific study, scientists were able to measure antibody levels against T. gondii from children to determine both the mother's infection status (because children's antibodies reflect those of their mothers until about three months after birth), and use a cause of death register to passively screen the relationship between Toxoplasmosis infection and self-directed violence and suicide. [9] The correlation between Toxoplasmosis infection and suicide was alarmingly high, the mothers of the children that had been screened with Toxoplasmosis were 54% more likely to have attempted suicide, and two times as likely to have succeeded in that endeavor. Specifically, women infected with Toxoplasmosis were more likely to have attempted (or succeeded in) committing suicide violently (with a knife, gun, etc.). Additionally, it was determined that those with the highest levels of antibody serum were even more likely to commit a violent suicide (91%) than women with lower levels of antibody serum or uninfected women. [9] This new information regarding Toxoplasmosis infection is alarming, and especially so because scientists do not fully understand the mechanism by which T. gondii is able to hijack the brain's neurochemical pathways to significantly alter human behavior.

Clinical features

It is estimated that 22.5% of the United States population over age 12 is infected with Toxoplasma gondii. In other countries, the infection rates are vary drastically from around 30-95% of persons being infected within a population. Toxoplamsa gondii infects a greater percentage of people in areas of the world that lower in altitude and have hot, moist environments. [1]


In healthy Individuals
Healthy individuals who become infected with Toxoplasma gondii are often asymptomatic. Occasionally, a non-immunosuppressed individual will develop flu-like symptoms, swollen lymph nodes, muscle aches/pain, etc. for a few weeks that eventually disappear. [1]

In immunocompromised individuals

Immunocompromised individuals, for example individuals who have HIV/AIDS, suffer a wide range of symptoms from Toxoplasma gondii infection including severe inflammation of the lung tissue, myocarditis, and acute inflammation of the brain. [2]

Pregnancy-associated infection

If a woman becomes infected with Toxoplasma gondii while pregnant, especially in the early stages of pregnancy, the parasite may be congenitally transmitted to the unborn child. Results of a congenital infection often result in a miscarriage or still birth. Some children may be born asymptomatically and develop symptoms such as vision loss, mental disability, and seizures later in life. [1]


Toxoplasmosis infection is asymptomatic is 80-90% of infected healthy individuals and immunity typically remains consistent throughout the life of the host unless they become immunocompromised. However, in immunosuppressed patients, the mortality rate from infection is very high. For example, Toxoplasma-related encephalitis occurs in 25% of AIDS patients and is generally around 84% fatal in this particularly immunosuppressed group. Additionally, the earlier on in a pregnancy that a fetus becomes congenitally infected, the higher the likelihood is that they would develop severe disease. [4]


Diagnosis of Toxoplasmosis is generally achieved via serological testing. In addition, Toxoplasmosis may be diagnosed via the identification of T.gondii cysts in a tissue sample taken from a suspected infected individual. In some cases, immunohistochemical staining and electron microscopy are used to enable the technician to observe Toxoplasmosis parasites in tissue samples obtained from the infected individual. [4] Diagnosis of Toxoplasmosis infection before birth may be determined by confirming the presence of T. gondii DNA in amniotic fluid. [1] PCR techniques are especially helpful for detecting congenital infections. Additionally, computed tomography techniques can be used in identifying cerebral Toxoplasmosis infection, and ultrasounds may be used to identify Toxoplasmosis infection in a fetus.[4]


In healthy Individuals
Since 80-90% of Toxoplasmosis infections in healthy individuals are asymptomatic, the majority of infections go unnoticed and do not require treatment. When the rare occasion arises that an otherwise healthy individual presents with symptoms of acute Toxoplasmosis, a combination of pyrimethamine, an anti-malaria medication, and sulfadiazine, an antibiotic, may be prescribed. Folic acid is often prescribed along with pyrimethamine to avoid potentially harmful side effects of this drug. [5] Treatments for behavior modification's that result from Toxoplasmosis infection in humans have not yet been discovered because the specific cause of psychological disturbance in individuals infected with T. gondii has not yet been identified. [8]

In immunocompromised individuals

The treatment for an immunocompromised individual (i.e. one with HIV/AIDS) is also a combination of pyrimethamine and sulfadiazine. In some cases clindamycin may be prescribed as an alternative to sulfadiazine. Unlike immunocompetent patients, immunosuppressed patients may have to remain on these medications for life in order to keep the infection at bay. [5]

Pregnancy-associated infection

Pregnant women infected with toxoplasmosis whose fetus remains unaffected by Toxoplasmosis may be given the antibiotic spiramycin. This drug reduces the likelihood that the infant will become infected and suffer severe disease symptoms later on in life. Pyrimethamine and sulfadiazine are typically not prescribed to pregnant women whose babies are already infected as the drug will not repair any damage that has already been done, and the drugs come with serious risk of side effects for the unborn child. [5]


Reducing risk of infection via contaminated food sources
In order to reduce the risk of Toxoplasmosis infection from meat sources, food should be cooked to standard "safe" temperatures. The internal temperature of cooked meats should be taken using a food thermometer. The USDA recommends whole cuts of meat be cooked to at least 145° F, ground meat be cooked to at least 160° F, and all poultry products should be cooked to at least 165° F before consumption. Additionally, foods may be frozen at at least 0° F for a few days before cooking to greatly decrease the risk of infection. To reduce the risk of Toxoplasma infection from contaminated fruits and vegetables, the foods should be washed thoroughly and/or peeled before eating. Other sanitation techniques may be used in order to further reduce the risk of infection, ensuring all utensils that were in contact with raw or unwashed food products should be thoroughly cleaned before reuse. Additionally, untreated water should not be consumed. [1]

Pregnant women should not clean cat litter boxes
From: http://www.cat-lovers-only.com/toxoplasmosis-pregnancy.html

Reduce risk of infection from the environment
To reduce the risk of becoming infected Toxoplasmosis from the environment, gloves should be worn when in contact with any soil or sand that could contain cat feces. Proper hand washing techniques should be employed after contact with any soil or sand, or after cleaning a cat's litter box. Outdoor sandboxes should be kept covered so that cats are not tempted to use them instead of a litter box. Children should be instructed as to the importance of proper hand washing to prevent infections. And finally, pregnant women should have someone else clean the cat's litter box for the duration of their pregnancy. Cats that are kept indoors and are fed only well cooked or commercially purchased foods are unlikely to become infected with T. gondii unless there is a rodent infestation in their environment. [1]

Host Immune Response

Innate immune response
Directly after ingestion/infection of Toxoplasma gondii the host innate immune response recognizes and responds to the protozoan as a foreign antigen. T. gondii triggers the activation of macrophages in the tissues along with NK cells which begin an attempt to eliminate the invader. The intent of the innate immune response is not to entirely eliminate the invader, but to limit the proliferation of the parasite and to signal for the activation of the adaptive immune response. The innate immune response begins directly after infection and diminishes approximately two weeks after the initial infection by T. gondii. [6]

Adaptive immune response
After the initiation of the innate immune response, the adaptive immune response will commence and produce specific antibodies and effector cells to eliminate T. gondii. The innate immune response signals the differentiation of macrophages, B cells, and dendritic cells into antigen presenting cells. Antigen presenting cells may then present the antigen to T cells, stimulating the differentiation of T cells into effector cells, including CD8 cytotoxic T cells, to directly killT. gondii. Specifically in humans, the infection of dendritic cells by T. gondii leads to the activation of CD40, which induces the production of effector cells which can directly kill, or secrete cytokines to recruit other cells to eliminate the pathogen. Eventually, immunological memory will be developed in response to the Toxoplasmosis infection. This immunological memory can protect the host from re-infection. It is hypothesized that this immunological memory is responsible for the rupturing of intracellular cysts caused by T. gondii. [6] Unfortunately, because infants in utero do not have a strong adaptive immune response, they are much more susceptible to disease as a result of Toxoplasmosis infection.


1 Centers for Disease Control (CDC). General Information Toxoplasmosis. Page last updated: January 10, 2013
2 Public Health Agency of Canada. Toxoplasma gondii - Material Safety Data Sheets (MSDS). Date Modified: 2011-02-18
3 Sarah Staggs and Eric Villegas. Waterborne Pathogens: Toxoplasma. Last Updated: 04 April 2012
4 Iowa State University. The Center for Food Security and Public Health. Toxoplasmosis: Toxoplasma Infection. Last Updated: May 2005
5 The Mayo Clinic Staff. Toxoplasmosis: Treatment and Drugs. Last Updated: June 24, 2011
6 Denis Filisetti and Ermanno Candolfi. Institut de Parasitologie et de Pathologie Tropicale, Strasbourg, France. Ann Ist Super Sanità 2004;40(1):71-80
7 Ajai Vyas, Seon-Kyeong Kim, Nicholas Giacomini, John C. Boothroyd, and Robert M. Sapolsky. Behavioral changes induced by Toxoplasma infection of rodents are highly specific to aversion of cat odors. Proc Natl Acad Sci U S A. 2007 April 10; 104(15): 6442–6447. Published online 2007 April 2.
8 Christie Wilcox. Toxoplasma’s Dark Side: The Link Between Parasite and Suicide. Scientific American. Published online July 4, 2012.
9 Lebech M, Andersen O, Christensen NC, Hertel J, Nielsen HE, Peitersen B, Rechnitzer C, Larsen SO, Nørgaard-Pedersen B, Petersen E.Feasibility of neonatal screening for toxoplasma infection in the absence of prenatal treatment. Danish Congenital Toxoplasmosis Study Group. Lancet. 1999 May 29;353(9167):1834-7.

Created by Magdalene C. Shaughnessy, student of Tyrrell Conway at the University of Oklahoma

Microbiology in Italy, July 2013 [2]