Metagonimus yokogawai

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Metagonimus yokogawai
Metag yokog A.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Platyhelminthes
Class: Trematoda
Order: Plagiorchiida
Family: Heterophyidae
Genus: Metagonimus
Species:
M. yokogawai
Binomial name
Metagonimus yokogawai
(Katsurada, 1912) [1]
Synonyms [2]

Heterophyes yokogawai Katsurada, 1912
Loxotrema yokogawai (Katsurada, 1912)
Yokogawa yokogawai (Katsurada, 1912)

Contents

Metagonimus yokogawai, or the Yokogawa fluke, is a species of a trematode, or fluke worm, in the family Heterophyidae.

It is a human parasite causing metagonimiasis. It is among a few species of Metagonimus that cause metagonimiasis diseases (others being M. takahashii and M. miyatai ).

Distribution

This species occurs in Korea, China, Taiwan, Japan, Russia, Indonesia, Israel, and Spain. [3] This species is found in areas with sweetfish, and that includes western and eastern riversides. [4] It is basically found in places with water.

Description

Adult Metagonimus yokogawai. Metagonimus yokogawai adult.jpg
Adult Metagonimus yokogawai.

Metagonimus yokogawai has adult flukes that parasitize the small intestine and causes inflammation. [5] This species was discovered by Fujiro Katsurada with egg samples from Japan and Taiwan [6] With this discovery, he was able to make a new genus of trematodes that this new parasite would fall under [6] The size of these eggs are about 29 μm. [7] Evidence also suggest that this parasite was present during the Yi dynasty.

Different species of trematodes Nema Fig5.gif
Different species of trematodes

Life cycle

Life cycle of Metagonimus yokogawai. Metagonamiasis Life Cycle.jpg
Life cycle of Metagonimus yokogawai.

The first intermediate hosts of Metagonimus yokogawai include freshwater snails Semisulcospira libertina , Semisulcospira coreana , [3] and Semisulcospira reiniana . [2]

The second intermediate host include freshwater fish: Plecoglossus altivelis , Tribolodon hakonensis , Tribolodon ezoe , and Lateolabrax japonicus . [2] [3]

Natural definitive hosts are: dogs, cats, rats, and humans. [3] Experminetal type hosts are: Syrian golden hamster. [2]

Here, the life cycle of Metagonimus yokogawai will be examined, however Metagonimus takahashii and Metagonimus miyatai follow similar life cycle pattern. All three species are hermaphroditic and capable of self-fertilization. Embryonated eggs are passed into an aquatic environment (fresh or brackish water) each containing a fully developed larva, called a miracidium . Development can’t proceed past this stage unless the eggs are ingested by the first intermediary host, freshwater snails. After the snail host ingests the eggs, miracidia emerge and penetrate the snail’s intestines. In the snail tissue, mircadia develop into sporocysts, then rediae, and finally emerge from the snail as cercariae. The cercariae then penetrate the skin or go under the scale of a fresh or brackish water fish and encyst as metacercariae in the tissue. The type of fish that serves as secondary host varies based on location. The host then becomes infected by consuming undercooked, raw, or pickled fish containing the infectious metacercariae. The metacercariae then excyst in the small intestine of the host (human, mammal or bird), and develop into adults. In the small intestine, the adults attach to the walls and develop new eggs.

Related Research Articles

<span class="mw-page-title-main">Trematoda</span> Class of parasitic flatworms

Trematoda is a class of flatworms known as flukes or trematodes. They are obligate internal parasites with a complex life cycle requiring at least two hosts. The intermediate host, in which asexual reproduction occurs, is usually a snail. The definitive host, where the flukes sexually reproduce, is a vertebrate. Infection by trematodes can cause disease in all five traditional vertebrate classes: mammals, birds, amphibians, reptiles, and fish.

<i>Clonorchis sinensis</i> Species of fluke

Clonorchis sinensis, the Chinese liver fluke, is a liver fluke belonging to the class Trematoda, phylum Platyhelminthes. It infects fish-eating mammals, including humans. In humans, it infects the common bile duct and gall bladder, feeding on bile. It was discovered by British physician James McConnell at the Medical College Hospital in Calcutta (Kolkata) in 1874. The first description was given by Thomas Spencer Cobbold, who named it Distoma sinense. The fluke passes its lifecycle in three different hosts, namely freshwater snail as first intermediate hosts, freshwater fish as second intermediate host, and mammals as definitive hosts.

Metagonimiasis is a disease caused by an intestinal trematode, most commonly Metagonimus yokagawai, but sometimes by M. takashii or M. miyatai. The metagonimiasis-causing flukes are one of two minute flukes called the heterophyids. Metagonimiasis was described by Katsurasa in 1911–1913 when he first observed eggs of M. yokagawai in feces. M. takahashii was described later first by Suzuki in 1930 and then M. miyatai was described in 1984 by Saito.

<i>Paragonimus westermani</i> Species of fluke

Paragonimus westermani is the most common species of lung fluke that infects humans, causing paragonimiasis. Human infections are most common in eastern Asia and in South America. Paragonimiasis may present as a sub-acute to chronic inflammatory disease of the lung. It was discovered by Coenraad Kerbert (1849–1927) in 1878.

Opisthorchis viverrini, common name Southeast Asian liver fluke, is a food-borne trematode parasite from the family Opisthorchiidae that infects the bile duct. People are infected after eating raw or undercooked fish. Infection with the parasite is called opisthorchiasis. O. viverrini infection also increases the risk of cholangiocarcinoma, a cancer of the bile ducts.

<i>Echinostoma</i> Genus of flukes

Echinostoma is a genus of trematodes (flukes), which can infect both humans and other animals. These intestinal flukes have a three-host life cycle with snails or other aquatic organisms as intermediate hosts, and a variety of animals, including humans, as their definitive hosts.

Metagonimoides oregonensis is a trematode, or fluke worm, in the family Heterophyidae. This North American parasite is found primarily in the intestines of raccoons, American minks, frogs in the genus Rana, and freshwater snails in the genus Goniobasis. It was first described in 1931 by E. W. Price. The parasite has a large distribution, from Oregon to North Carolina. Adult flukes vary in host range and morphology dependent on the geographical location. This results in different life cycles, as well as intermediate hosts, across the United States. On the west coast, the intermediate host is freshwater snails (Goniobasis), while on the east coast the intermediate host is salamanders (Desmognathus). The parasites on the west coast are generally much larger than on the east coast. For example, the pharynx as well as the body of the parasite are distinctly larger in Oregon than in North Carolina. The reverse pattern is observed on the east coast for uterine eggs, which are larger on the west coast. In snails, there is also a higher rate of infection in female snails than in males. Research on the life history traits of the parasites have been performed with hamsters and frogs as model species.

<i>Echinostoma revolutum</i> Species of fluke

Echinostoma revolutum is a trematode parasites, of which the adults can infect birds and mammals, including humans. In humans, it causes echinostomiasis.

<i>Heterophyes heterophyes</i> Species of fluke

Heterophyes heterophyes, or the intestinal fish fluke, was discovered by Theodor Maximaillian Bilharz in 1851. This parasite was found during an autopsy of an Egyptian mummy. H. heterophyes is found in the Middle East, West Europe and Africa. They use different species to complete their complex lifestyle. Humans and other mammals are the definitive host, first intermediate host are snails, and second intermediate are fish. Mammals that come in contact with the parasite are dogs, humans, and cats. Snails that are affected by this parasite are the Cerithideopsilla conica. Fish that come in contact with this parasite are Mugil cephalus, Tilapia milotica, Aphanius fasciatus, and Acanthgobius sp. Humans and mammals will come in contact with this parasite by the consumption of contaminated or raw fish. This parasite is one of the smallest endoparasite to infect humans. It can cause intestinal infection called heterophyiasis.

Echinostoma hortense is an intestinal fluke of the class Trematoda, which has been found to infect humans in East Asian countries such as Korea, China, and Japan. This parasite resides in the intestines of birds, rats and other mammals such as humans. While human infections are very rare in other regions of the world, East Asian countries have reported human infections up to about 24% of the population in some endemic sub-regions. E. hortense infections are zoonotic infections, which occurs from eating raw or undercooked freshwater fish. The primary disease associated with an E. hortense infection is called echinostomiasis, which is a general name given to diseases caused by Trematodes of the genus Echinostoma.

Echinostoma cinetorchis is a species of human intestinal fluke, a trematode in the family Echinostomatidae.

<i>Clinostomum marginatum</i> Species of fluke

Clinostomum marginatum is a species of parasitic fluke. It is commonly called the "yellow grub". It is found in many freshwater fish in North America, and no fish so far is immune to this parasite. It is also found in frogs. Clinostomum marginatum can also be found in the mouth of aquatic birds such as herons and egrets. They are commonly present in the esophagus of fish-eating birds and reptiles. Eggs of these trematodes are shed in the feces of aquatic birds and released into water. Aquatic birds become hosts of this parasite by ingesting infected freshwater fish. The metacercariae are found right beneath the skin or in the muscles of host fish.

<i>Haplorchis taichui</i> Species of fluke

Haplorchis taichui is a species of intestinal fluke in the family Heterophyidae. It is a human parasite.

<i>Semisulcospira libertina</i> Species of gastropod

Semisulcospira libertina is a species of freshwater snail with an operculum, an aquatic gastropod mollusk in the family Semisulcospiridae. Widespread in east Asia, it lives in China, Taiwan, Korea, Japan, and the Philippines. In some countries it is harvested as a food source. It is medically important as a vector of clonorchiasis, paragonimiasis, metagonimiasis and others.

<i>Semisulcospira reiniana</i> Species of gastropod

Semisulcospira reiniana is a species of freshwater snail with an operculum, an aquatic gastropod mollusk in the family Semisulcospiridae.

Metagonimus miyatai is a species of a trematode, or fluke worm, in the family Heterophyidae.

Centrocestus armatus is a species of trematodes, or fluke worms, in the family Heterophyidae.

<i>Metagonimus</i> Genus of flukes

Metagonimus is a genus of trematodes, or fluke worms, in the family Heterophyidae.

Metagonimus takahashii is a species of a trematode, or fluke worm, in the family Heterophyidae.

<span class="mw-page-title-main">Gastropod-borne parasitic disease</span> Medical condition

Gastropod-borne parasitic diseases (GPDs) are a group of infectious diseases that require a gastropod species to serve as an intermediate host for a parasitic organism that can infect humans upon ingesting the parasite or coming into contact with contaminated water sources. These diseases can cause a range of symptoms, from mild discomfort to severe, life-threatening conditions, with them being prevalent in many parts of the world, particularly in developing regions. Preventive measures such as proper sanitation and hygiene practices, avoiding contact with infected gastropods and cooking or boiling food properly can help to reduce the risk of these diseases.

References

  1. (in Japanese) Katsurada F. (1912). "Heterophyes in Japan. II. Creation of a new genus Metagonimus". Okayama Igakkai Zasshi 273: 768–778.
  2. 1 2 3 4 Shimazu, T.; Kino, H. (2015). "Metagonimus yokogawai (Trematoda: Heterophyidae): From Discovery to Designation of a Neotype". The Korean Journal of Parasitology . 53 (5): 627–639. doi:10.3347/kjp.2015.53.5.627. PMC   4635838 . PMID   26537043.
  3. 1 2 3 4 Chai, J. Y.; Darwin Murrell, K.; Lymbery, A. J. (2005). "Fish-borne parasitic zoonoses: Status and issues". International Journal for Parasitology . 35 (11–12): 1233–1254. doi:10.1016/j.ijpara.2005.07.013. PMID   16143336.
  4. Chai, Jong-Yil; Han, Eun-Taek; Park, Yun-Kyu (March 31, 2000). "High endemicity of Metagonimus yokogawai infection among residents of Samchok-shi, Kangwon-do". The Korean Journal of Parasitology. 38 (1): 33–36. doi:10.3347/kjp.2000.38.1.33. PMC   2721105 . PMID   10743357.
  5. Chai, Jong-Yil (2000). "High endemicity of Metagonimus yokogawai infection among residents of Samchok-shi, Kangwon-do". Korean J. Parasitol. 38 (1): 33–6. doi:10.3347/kjp.2000.38.1.33. PMC   2721105 . PMID   10743357.
  6. 1 2 Shimazu, Takesh (October 2015). "Metagonimus yokogawai (Trematoda: Heterophyidae): From Discovery to Designation of a Neotype". The Korean Journal of Parasitology. 53 (5): 627–639. doi:10.3347/kjp.2015.53.5.627. PMC   4635838 . PMID   26537043.
  7. Cho, Pyo Yeon; Park, Jung-Min; Hwang, Myeong-Ki; Park, Seo Hye (June 2017). "Discovery of Parasite Eggs in Archeological Residence during the 15th Century in Seoul, Korea". Korean J Parasitol. 55 (3): 357–361. doi:10.3347/kjp.2017.55.3.357. PMC   5523905 . PMID   28719964.
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