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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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eFigure 37–40. Life cycle of Strongyloides stercoralis (small roundworm of humans). The Strongyloides life cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host. Two types of cycles exist. Free-living cycle: The rhabditiform larvae passed in the stool (see “Parasitic cycle” below) can either become infective filariform larvae (direct development) , or free-living adult males and females that mate and produce eggs from which rhabditiform larvae hatch and eventually become infective filariform larvae . The filariform larvae penetrate the human host skin to initiate the parasitic cycle (see below) . Parasitic cycle: Filariform larvae in contaminated soil penetrate the human skin , and by various, often random routes, migrate to the small intestine . Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed. However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues. In the small intestine, they molt twice and become adult female worms . The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs , which yield rhabditiform larvae. The rhabditiform larvae can either be passed in the stool (see “Free-living cycle” above), or can cause autoinfection . In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body. To date, occurrence of autoinfection in humans with helminthic infections is recognized only in S stercoralis and Capillaria philippinensis infections. In the case of Strongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Strongyloides.

Current Medical Diagnosis & Treatment 2025 > Strongyloidiasis

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