1 / 43

Phylum: APICOMPLEXA

Phylum: APICOMPLEXA. Class: Sporozoa. Order: Hemosporida. Order: Eucoccida. Family: Hemosporidae. Family:Piroplasmidae. Genus: Plasmodium. Subgenus: Plasmodium P.P.vivax, P.P.ovale, P.P.malariae. Subgenus: Laverania P.L.faliparum. Order Eucocoida

issac
Download Presentation

Phylum: APICOMPLEXA

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Phylum: APICOMPLEXA Class: Sporozoa Order: Hemosporida Order: Eucoccida Family: Hemosporidae Family:Piroplasmidae Genus: Plasmodium Subgenus: Plasmodium P.P.vivax, P.P.ovale, P.P.malariae Subgenus: Laverania P.L.faliparum

  2. Order Eucocoida Suborder Adeleina Eimeriina haemosporina Family Eimeridae Eimeria Isospora Toxoplasma Isospora belli Toxoplasma gondii

  3. What is toxoplasmosis? • A Zoonotic Infection of Humans • Toxoplasma gondii is a sporazoan of the subclass Coccidia. The only species is Gondii. • It is a common intracellular protozoan which infects most species of warm-blooded animals • Toxoplasmosis is an infection that can threaten the health of an unborn child

  4. Morphology • It exists in three forms— • tachyzoites (trophozoites), • tissue cysts, • oocytes.

  5. Sources of infection • Source of all oocytes ... • Domestic (cats,dogs) and wild (zoo) cats ( Cats are the only known full-life-cycle host of the protozoan) parasite • Rodents :rats • Persist in environment (soil) if moist • reservoir of infective oocytes • Many intermediate hosts • reservoir of infective tissue cysts( farm animals— cattle, sheep, rabbit)

  6. Life cycle – Enteroepithelial / enteric • asexual and sexual division is intracellular in epithelial cells of small intestine (ileum) • Oocytes • oocytes become infective after passage in feces (Oocytes do not become infectious until they sporulate. Depending on conditions such as temperature, sporulation occurs 2 to 21 days after the oocyte is excreted in the feces )

  7. Sporoblast formation • 2 sporocysts in each Mature oocyte • Infect cats • Sporozoites liberated in intestine • Intracellular multiplication in ileum • Endozoite formation • Gametogony – micro & Macrogamete formation • Fertilization – zygote – Oocyte • Few endozoites enter extraintestinal tissues & form tissue cysts

  8. Life cycle in Humans • Ingestion of Oocytes • Sporozoites liberated in small intestine • Intracellular multiplication – endozoites • Infect intestinal & other tissues / transplacental infection • Pseudocyst • Endozoites – bradyzoites – Tissue cyst

  9. Clinical features • Toxoplasma gondii can cause a wide spectrum of disease after infecting a new host, including acute, latent, and reactivated disease as well as congenital disease • Congenital toxoplasmosis • Maternal toxoplasmosis + inapparent—subclinical--usually is asymptomatic —most of cases +apparent ( 10-20 %)—not specific

  10. Generalized • —flue like illness- fever,fatigue,weakness,malaise • Lymphatic • - fever, generalisedlymphadenopathy (retroperitoneal, mesentric {abdominal pain}, lumbar, occiptal), liver and spleen enlargement The lymphadenitis may wax and wane for months and finally resolve spontaneously. It is commonly mistaken with infectious mononucleosis).

  11. neurological --- encephalopathy, chorioretinitis • Exanthematous -- generalized maculopapularerythramatous patches • Ocular --- eye pain, Photophobia, blurred vision, scotoma ("blind spot"), chorioretinitis, Retinitis, blindness

  12. The acute acquired form however, can be a fulminating disease with an erythematous rash, fever, malaise, myositis, dyspnea, acute myocarditis,and encephalitis. Outcome can be fatal, but this form of toxoplasmosis is rare

  13. Congenital infections • in unexposed mother with an active primary infection during pregnancy or previously exposed mother before pregnancy with immune compromise eg : (AIDS ) very rare • tachyzoites cross placental barrier • fetus becomes infected only about 40% of time • when mothers are infected in the first trimester, 15 percent of fetuses become infected,as compared to 30 percent in the second trimester and 65 percent in the third trimester. • the earlier in pregnancy the infection occurs, the more severe the fetal infection.

  14. Congenital Toxoplasmosis Two types: Asymptomatic (inapparent) Congenital Toxo • 60% of infected • may suffer from Long Term Sequella • up to 90 percent of infected babies appear normal at birth, • 80 to 90 percent will develop sight-threatening eye infections months to years after birth. • About 10 percent will develop hearing loss and/or learning disabilities

  15. Symptomatic Congenital Toxo • 40% of infected— • About one in 10 infected • These newborns often have severe eye infections, an enlarged liver and spleen, jaundice (yellowing of the skin and eyes), pneumonia and other problems. • Some die within a few days of birth. • Those who survive sometimes suffer from mental retardation, severely impaired eyesight, cerebral palsy, seizures and other problems. • more likely if mother infected in 1st/2nd Trimester • Severe damage to fetus = stillbirth or abortion

  16. Lab Diagnosis Morphologic • tachyzoites in circulating WBC, bone marrow, lung, spleen, brain ? • histopathologic examination Culture or animal inoculation (rare) • Isolation of parasites from blood or other body fluids, by intraperitoneal inoculation into mice or tissue culture. • The mice should be tested for the presence of Toxoplasma organisms in the peritoneal fluid 6 to 10 days post inoculation; if no organisms are found, serology can be performed on the animals 4 to 6 weeks post inoculation. • Serologic (mainly) • Detection of parasite genetic material by PCR, especially in detecting congenital infections in utero.

  17. Pseudocyst

  18. Serologic Diagnosis of Toxo • unreliable in immunodeficient (AIDS) pts • normally IgM and IgG rise simultaneously • IgG - persists for years • IgM - undetectable after “cure” • elevated IgM titer is diagnostic of recent infection in persons with normal immunity • disseminated infection may exist in AIDS pts without demonstrable titer • A negative IgG or IgM test excludes Diagnosis • both should be + if acutely infected • If IgG screening is + then do IgM test • a + IgM test confirms acute toxoplasmosis or current Toxoplasma infection

  19. Tests which employ whole parasites include • the dyetest (Sabin-Feldman Dye Test (DT) • direct agglutination and the fluorescent antibody test, • whilst tests that use disrupted parasites as an antigen source include ELISA, latex agglutination, indirect haemagglutination and complement fixation.

  20. Polymerase Chain Reaction (PCR) • PCR amplification is used to detect T. gondii DNA in • body fluids and tissues • brain tissue • cerebrospinal fluid (CSF) • vitreous and aqueous fluid • bronchoalveolar lavage (BAL) fluid • urine • amniotic fluid • peripheral blood.

  21. Treatment: • No treatment in Asymptomatic Because it is self limiting disease Except in children to prevent retinal inflammation • In healthy people, infection with Toxoplasma gondii, leads to the production of sarcocysts in various tissues and immunity to additional infections. Thus, an infected but asymptomatic person in good health generally does not need treatment. • Treatment of pregnant women is controversy because of toxicity of medication but is still advocated

  22. Treatment of Infected Newborns • Infected babies should be treated as soon as possible after birth with pyrimethamine and sulfadiazine which, as mentioned earlier, can help prevent or reduce the disabilities associated with toxoplasmosis.

  23. Treatment pyrimethamine + sulfadiazine • High-dose therapy is continued for 4-6 weeks, and lower dose maintenance therapy is given thereafter. • Spiramycin • pyrimethamine + clindamycin or dapsone Prophylaxis –in the primary prevention of toxoplasmosis in persons with HIV who have dormant or latent infection TMP-SMX - trimethoprim-sulfamethoxazole • pyrimethamine plus folinic acid • dapsone + pyrimethamine

  24. Prevention of Toxoplasmosis • education • avoiding exposure to the parasite, mostly by simple hygienic measures. avoid exposure to oocyte • wash hands carefully after handling raw meat, fruit, vegetables, and soil

  25. Babesiosis • Babesiosis (piroplasmosis) is a hemolytic disease similar to malaria but without an exoerythrocytic cycle. • Disease caused by B. divergens can be severe, even fatal, in splenectomized and debilitated patients (Most patients are older than 50 years of age). • B. microti causes a self-limiting febrile disease characterized by fatigue and anorexia.

  26. Babesia • There are >100 species of this intracellular parasite. • The disease caused by Babesia known as Babesiosis • The disease distribute all over the world where there is tick available. • Babesia microti is the predominant human pathogen, endemic to the NE and Midwest. • Natural parasite reservoir is rodents • Its common among dogs, cattle , goats, sheep, horses and rodents • Human infect during cattle (B. bovis) rodent (B. microti) • Carried by the hard-bodied Ixodes tick. • more severe in patients who are immunosuppressed, splenectomized, and/or elderly

  27. B. bigeminaCattel B. motasiSheep B. equiHorses B. CaballiHorses The parasites reproduce by binary fission inside the R.B.Cs, after transmission with the tick saliva.

  28. Transmission • Transpalcental • Tick bite • Transfusion of infected blood

  29. Babesia life cycle

  30. Numerous erythrocytes are infected with the predominantly ring or pear-shaped form of Babesia microti. • Pleomorphic rings with 1-3 chromotin dots per parasite. • 3 dots is unique for Babesia.

  31. Clinical Symptoms • Ranges from asymptomatic infection to fatal illness (rare) • More severe infection tends to occur in immunnocompromised, elderly, and the very young. • The extreme end of the spectrum is often described as a malaria-like infection; symptoms may include Fever, sweating, chills, headache, anemia, jaundice, malaise, haemoglobinuria & Weakness.

  32. Diagnosis • Diagnosis is based on clinical suspicion and history of exposure. • Thick and thin smears remain most clinically used • However, it is necessary to examine 200 to 300 oil immersion fields before declaring a specimen negative. • Various PCR detection assays are available for detection of B microtic and other species. • More sensitive but also more time consuming and expensive. • Indirect fluorescent antibody test can also be used as a confirmatory test.

  33. Ring shaped trophozites The intraerythrocytic trophozoites multiply by binary fission or schizogony, forming two to four separate merozoites. . White eccentric “food vacuole” in a ring form. Very transient stage in Malaria. Very rarely seen. High Power

  34. The Famous Maltese Cross • Presence of 4 daughter merozoites in a tetrad is pathomnemonic. • However, rarely seen. • Never seen in malaria.

  35. Multiply Infected RBCs • RBCs can be infected with multiple organisms at the same time. Up to 12 parasites may infect a single RBC. • Plasmodium has up to 3 parasites/RBC.

  36. Control and prevention • One should avoid tick exposure and, if bitten, remove the tick from the skin immediately. • Treatment of infected animals with available drugs . • Use of the Acaricides regularly & periodically in the endemic area.

More Related