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eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

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eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

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eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

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eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

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eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

View in Context

eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

View in Context

eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

View in Context

eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

View in Context

eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

View in Context

eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

View in Context

eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

View in Context

eFigure 37–26. Life cycle of Paragonimus westermani (lung fluke). The eggs are excreted unembryonated in the sputum, or alternately, they are swallowed and passed with stool . In the external environment, the eggs become embryonated , and miracidia hatch and seek the first intermediate host, a snail, and penetrate its soft tissues . Miracidia go through several developmental stages inside the snail : sporocysts , rediae , with the latter giving rise to many cercariae , which emerge from the snail. The cercariae invade the second intermediate host, a crustacean such as a crab or crayfish, where they encyst and become metacercariae. This is the infective stage for the mammalian host . Human infection with P westermani occurs by eating inadequately cooked or pickled crab or crayfish that harbor metacercariae of the parasite . The metacercariae excyst in the duodenum , penetrate through the intestinal wall into the peritoneal cavity, then through the abdominal wall and diaphragm into the lungs, where they become encapsulated and develop into adults  (7.5–12 mm by 4–6 mm). The worms can also reach other organs and tissues, such as the brain and striated muscles, respectively. However, when this takes place completion of the life cycle is not achieved because the eggs laid cannot exit these sites. Time from infection to oviposition is 65–90 days. Infections may persist for 20 years in humans. Animals such as pigs, dogs, and a variety of feline species can also harbor P westermani. (From Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of P westermani.

Current Medical Diagnosis & Treatment 2024 > Paragonimiasis

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eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

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eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

View in Context

eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

View in Context

eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

View in Context

eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

View in Context

eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

View in Context

eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

View in Context

eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

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eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

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eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

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eFigure 37–48. Life cycle of Onchocerca volvulus (blinding worm). During a blood meal, an infected blackfly (genus Simulium) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . In subcutaneous tissues, the larvae  develop into adult filariae, which commonly reside in nodules in subcutaneous connective tissues . Adults can live in the nodules for approximately 15 years. Some nodules may contain numerous male and female worms. Females measure 33–50 cm in length and 270–400 mcm in diameter, while males measure 19–42 mm by 130–210 mcm. In the subcutaneous nodules, the female worms are capable of producing microfilariae for approximately 9 years. The microfilariae, measuring 220–360 mcm by 5–9 mcm and unsheathed, have a life span that may reach 2 years. They are occasionally found in peripheral blood, urine, and sputum but are typically found in the skin and in the lymphatics of connective tissues . A blackfly ingests the microfilariae during a blood meal . After ingestion, the microfilariae migrate from the blackfly’s midgut through the hemocoel to the thoracic muscles . There, the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the blackfly’s proboscis  and can infect another human when the fly takes a blood meal . (Global Health, Division of Parasitic Diseases and Malaria, CDC.) A flowchart of the life cycle of Onchocerca volvulus, that causes onchocerciasis, or river blindness.

Current Medical Diagnosis & Treatment 2024 > Onchocerciasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 37–52. Life cycle of Loa loa. The vector for L loa filariasis is flies from two species of the genus Chrysops: C silacea and C dimidiata. During a blood meal, an infected fly (genus Chrysops, day-biting flies) introduces third-stage filarial larvae onto the skin of the human host, where they penetrate into the bite wound . The larvae develop into adults that commonly reside in subcutaneous tissue . The female worms measure 40–70 mm in length and 0.5 mm in diameter, while the males measure 30–34 mm in length and 0.35–0.43 mm in diameter. Adults produce microfilariae measuring 250–300 mcm by 6–8 mcm, which are sheathed and have diurnal periodicity. Microfilariae have been recovered from spinal fluids, urine, and sputum. During the day they are found in peripheral blood, but during the noncirculation phase, they are found in the lungs . The fly ingests microfilariae during a blood meal . After ingestion, the microfilariae lose their sheaths and migrate from the fly’s midgut through the hemocoel to the thoracic muscles of the arthropod . There the microfilariae develop into first-stage larvae  and subsequently into third-stage infective larvae . The third-stage infective larvae migrate to the fly’s proboscis  and can infect another human when the fly takes a blood meal . A flowchart of the life cycle of loa loa.

Current Medical Diagnosis & Treatment 2024 > Loiasis

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eFigure 9–11. Anaerobic lung abscess. This CXR shows a right upper lobe lung abscess (arrow) in a previously healthy, elderly man who presented with cough, fatigue, weight loss, and foul-smelling sputum. Lung abscesses usually occur in the posterior segments of the upper lobes or superior segments of the lower lobes since these are the most frequent locations for aspiration. Note the air-fluid level within the abscess cavity. In a scan, an arrow points toward a ring-shaped abscess in the right upper lobe.

Current Medical Diagnosis & Treatment 2024 > Pneumonia

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