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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–14. Life cycle of Toxoplasma gondii. The only known definitive hosts for T gondii are members of family Felidae (domestic cats and their relatives). Unsporulated oocysts are shed in the cat’s feces . Although oocysts are usually only shed for 1–2 weeks, large numbers may be shed. Oocysts take 1–5 days to sporulate in the environment and become infective. Intermediate hosts in nature (including birds and rodents) become infected after ingesting soil, water, or plant material contaminated with oocysts . Oocysts transform into tachyzoites shortly after ingestion. These tachyzoites localize in neural and muscle tissue and develop into tissue cyst bradyzoites . Cats become infected after consuming intermediate hosts harboring tissue cysts . Cats may also become infected directly by ingestion of sporulated oocysts. Animals bred for human consumption and wild game may also become infected with tissue cysts after ingestion of sporulated oocysts in the environment . Humans can become infected by any of several routes: eating undercooked meat of animals harboring tissue cysts . consuming food or water contaminated with cat feces or by contaminated environmental samples (such as fecal-contaminated soil or changing the litter box of a pet cat) . blood transfusion or organ transplantation . transplacentally from mother to fetus . In the human host, the parasites form tissue cysts, most commonly in skeletal muscle, myocardium, brain, and eyes; these cysts may remain throughout the life of the host. Diagnosis is usually achieved by serology, although tissue cysts may be observed in stained biopsy specimens . Diagnosis of congenital infections can be achieved by detecting T gondii DNA in amniotic fluid using molecular methods such as PCR . (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Toxoplasma gondii.

Current Medical Diagnosis & Treatment 2024 > Toxoplasmosis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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eFigure 37–45. Life cycle of Gnathostoma spinigerum. In the natural definitive host (pigs, cats, dogs, wild animals), the adult worms reside in a tumor that they induce in the gastric wall. They deposit eggs that are unembryonated when passed in the feces . Eggs become embryonated in water, and eggs release first-stage larvae . If ingested by a small crustacean (Cyclops, first intermediate host), the first-stage larvae develop into second-stage larvae . Following ingestion of the Cyclops by a fish, frog, or snake (second intermediate host), the second-stage larvae migrate into the flesh and develop into third-stage larvae . When the second intermediate host is ingested by a definitive host, the third-stage larvae develop into adult parasites in the stomach wall . Alternatively, the second intermediate host may be ingested by the paratenic host (animals such as birds, snakes, and frogs) in which the third-stage larvae do not develop further but remain infective to the next predator . Humans become infected by eating undercooked fish or poultry containing third-stage larvae, or reportedly by drinking water containing infective second-stage larvae in Cyclops . (Adapted from a drawing provided by Dr. Sylvia Paz Díaz Camacho, Universidade Autónoma de Sinaloa, Mexico. Content source: Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of the Gnathostoma species.

Current Medical Diagnosis & Treatment 2024 > Gnathostomiasis

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