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==Eosinophilic meningitis==
==Eosinophilic meningitis==
{{See also|Eosinophilic meningitis}}


Although the clinical disease caused by Angiostrongylus invasion into the central nervous system is commonly referred to as "eosinophilic meningitis" the actual pathophysiology is of a meningoencephalitis with invasion not just of the meninges, or superficial lining of the brain, but also deeper brain tissue.  Initial invasion through the lining of the brain, the meninges, may cause a typical inflammation of the meninges and a classic meningitis picture of headache, stiff neck and often fever.  The parasites subsequently invade deeper into the brain tissue, causing specific localizing neurologic symptoms depending on where in the brain [[parenchyma]] they migrate. Neurologic findings and symptoms wax and wane as initial damage is done by the physical in-migration of the worms and secondary damage is done by the inflammatory response to the presence of dead and dying worms. This inflammation can lead in the short term to paralysis, bladder dysfunction, visual disturbance and coma and in the long term to permanent nerve damage, mental retardation, nerve damage, permanent brain damage or death.  
Although the clinical disease caused by Angiostrongylus invasion into the central nervous system is commonly referred to as "eosinophilic meningitis" the actual pathophysiology is of a meningoencephalitis with invasion not just of the meninges, or superficial lining of the brain, but also deeper brain tissue.  Initial invasion through the lining of the brain, the meninges, may cause a typical inflammation of the meninges and a classic meningitis picture of headache, stiff neck and often fever.  The parasites subsequently invade deeper into the brain tissue, causing specific localizing neurologic symptoms depending on where in the brain [[parenchyma]] they migrate. Neurologic findings and symptoms wax and wane as initial damage is done by the physical in-migration of the worms and secondary damage is done by the inflammatory response to the presence of dead and dying worms. This inflammation can lead in the short term to paralysis, bladder dysfunction, visual disturbance and coma and in the long term to permanent nerve damage, mental retardation, nerve damage, permanent brain damage or death.  

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style="background:#Template:Taxobox colour;"|Template:Taxobox name
Adult female worm of Angiostrongylus cantonensis with characteristic barber-pole appearance (anterior end of worm is to the top). Scale bar is 1 mm.
Adult female worm of Angiostrongylus cantonensis with characteristic barber-pole appearance (anterior end of worm is to the top). Scale bar is 1 mm.
style="background:#Template:Taxobox colour;" | Scientific classification
Kingdom: Animalia
Phylum: Nematoda
Class: Secernentea
Order: Strongylida
Family: Metastrongylidae
Genus: Angiostrongylus
Species: A. cantonensis
Binomial name
Angiostrongylus cantonensis
(Chen, 1935)
This page is about microbiologic aspects of the organism(s).  For clinical aspects of the disease, see Angiostrongyliasis.

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Angiostrongylus cantonensis is a parasitic nematode (roundworm) that causes Angiostrongyliasis, the most common cause of eosinophilic meningitis in Southeast Asia and the Pacific Basin.[1] The nematode commonly resides in the pulmonary arteries of rats, giving it the nickname the rat lungworm. Snails are the primary intermediate hosts, where larvae develop until they are infective.

Humans are incidental hosts of this roundworm, and may become infected through ingestion of larvae in raw or undercooked snails or other vectors, or from contaminated water and vegetables. The larvae are then transported via the blood to the central nervous system (CNS), where they are the most common cause of eosinophilic meningitis, a serious condition that can lead to death or permanent brain and nerve damage.[2] Identified in 1964, Angiostrongyliasis is an infection of increasing public health importance as globalization contributes to the geographic spread of the disease.

History

Nematodes suspected to be Angiostrongylus cantonensis were first identified in the cerebrospinal fluid of a patient with eosinophilic meningitis by Nomura and Lim in Taiwan in 1944. They called the parasite Haemostrongylus ratti, and noted that raw food eaten by the patient may have been contaminated by rats. Their paper, however, was not translated from the original Japanese into English until just after the parasite had been recognized in 1964, so their discovery was not widely recognized.

In 1955, Mackerass and Sanders identified the life cycle of the worm in rats, defining snails and slugs as the intermediate host and noting the path of transmission through the blood, brain, and lungs in rats.

Infectious agent

Angiostrongylus cantonensis is a helminth of the phylum Nematoda, order Strongylida, and superfamily Metastrongyloidea. Nematodes are roundworms characterized by a tough outer cuticle, unsegmented bodies, and a fully developed gastrointestinal tract. The order Strongylida includes hookworms and lungworms. Metastrongyloidea are characterized as long, slender, threadlike worms that reside in the lungs of the definitive host.[3] Angiostrongylus costaricensis is a closely related worm that causes intestinal Angiostrongyliasis in Central and South America.

Epidemiology

Following World War II, A. cantonensis spread throughout Southeast Asia and Western Pacific Islands including Australia, Melanesia, Micronesia, and Polynesia. Cases were soon reported in the following nations: New Caledonia, the Philippines, Rarotonga, Saipan, Sumatra, Taiwan and Tahiti. In the 1960s even more cases were reported from the region from locations such as: Cambodia, Guam, Hawaii, Java, Thailand, Sarawak, Vietnam and the New Hebrides (Vanuatu).[4]

In 1961, an epidemiological study of eosinophilic meningitis in humans was conducted by Rosen, Laigret, and Bories, who hypothesized that the parasite causing these infections was carried by fish. However Alicata noted that raw fish was consumed by large numbers of people in Hawaii without apparent consequences, and patients presenting with meningitis symptoms had a history of eating raw snails or prawns in the weeks before presenting with symptoms. This observation along with epidemiology and autopsy of infected brains confirmed A. cantonensis infection in humans as the cause of the majority of eosinophilic meningitis cases in Southeast Asia and the Pacific Islands.[5]

Since then, cases of A. cantonensis infestations have appeared in American Samoa, Australia, Hong Kong, Bombay, Fiji, Hawaii, Honshu, India, Kyushu, New Britain, Okinawa, Ryukyu Islands, Western Samoa and most recently mainland China. Other sporadic occurrences of the parasite in its rat hosts have been reported in Cuba, Egypt, Louisiana, Madagascar, Nigeria, New Orleans and Puerto Rico[4]

In recent years, the parasite has been shown to be proliferating at an alarming rate due to modern food consumption trends and global transportation of food products. Scientists are calling for a more thorough study of the epidemiology of A. cantonensis, stricter food safety policies, and the increase of knowledge on how to properly consume products commonly infested by the parasite.[6]

Hosts

Intermediate hosts of larvae of for Angiostrongylus cantonensis include:

Definitive host of Angiostrongylus cantonensis include wild rodents, especially the brown rat (Rattus norvegicus)[7] and the black rat (Rattus rattus).[7]

Paratenic hosts of Angiostrongylus cantonensis include: predatory land flatworm Platydemus manokwari[9] and amphibians Bufo asiaticus,[9] Rana catesbeiana,[9] Rhacophorus leucomystax[9] and Rana limnocharis.[9]

In 2004, a captive Yellow-tailed Black Cockatoo (Calyptorhynchus funereus) and two free-living Tawny Frogmouths (Podargus strigoides) suffering neurological symptoms were shown to have the parasite. They were the first non-mammalian hosts discovered for the organism.[14]

Pathogenesis of human angiostrongylosis

The presence of parasitic worms burrowed in the neural tissue of the human CNS will cause obvious complications. All of the following will result in damage to the CNS:

  1. Direct mechanical damage to neural tissue from the worms' motion
  2. Toxic by-products such as nitrogenous waste
  3. Antigens released by dead and living parasites

Eosinophilic meningitis

Although the clinical disease caused by Angiostrongylus invasion into the central nervous system is commonly referred to as "eosinophilic meningitis" the actual pathophysiology is of a meningoencephalitis with invasion not just of the meninges, or superficial lining of the brain, but also deeper brain tissue. Initial invasion through the lining of the brain, the meninges, may cause a typical inflammation of the meninges and a classic meningitis picture of headache, stiff neck and often fever. The parasites subsequently invade deeper into the brain tissue, causing specific localizing neurologic symptoms depending on where in the brain parenchyma they migrate. Neurologic findings and symptoms wax and wane as initial damage is done by the physical in-migration of the worms and secondary damage is done by the inflammatory response to the presence of dead and dying worms. This inflammation can lead in the short term to paralysis, bladder dysfunction, visual disturbance and coma and in the long term to permanent nerve damage, mental retardation, nerve damage, permanent brain damage or death.

Eosinophilic meningitis is commonly defined by the increased number of eosinophils in the cerebrospinal fluid (CSF). In most cases, Eosinophil levels rise to 10 or more eosinophils per μL in the cerebrospinal fluid, accounting for at least 10% of the total CSF leukocyte count.[4] The chemical analysis of the CSF typically resembles the findings in "aseptic meningitis" with slightly elevated protein levels, normal glucose levels and negative bacterial cultures. Presence of a significantly decreased glucose on CSF analysis is an indicator of severe meningoencephalitis and may indicate a poor prognosis. Initial CSF analysis early in the disease process may occasionally show no increase of eosinophils only to have classical increases in eosinophils in subsequest spinal fluid analysis. Caution should be advised in using eosinophilic meningitis as the only criteria for diagnosing angiostrongylus infestation in someone with classic symptoms as the disease evolves with the migration of the worms into the central nervous system.

Eosinophils are specialized white blood cells of the granulocytic cell line which contain granules in their cytoplasm. These granules contain proteins that are toxic to parasites. When these granules degranulate, or break down, chemicals are released that combat parasites such as A. cantonensis. Eosinophils, which are located throughout the body, are guided to sites of inflammation by chemokines when the body is infested with parasites such as A. cantonensis. Once at the site of inflammation, Type 2 cytokines are released from helper T cells, which communicate with the Eosinophils, signaling them to activate. Once activated, eosinophils can begin the process of degranulation, releasing their toxic proteins in the fight against the foreign parasite.

Clinical symptoms

The clinical symptoms of eosinophilic meningitis are as follows:

  • fever is often minor or absent but the presence of high fever suggests severe disease.
  • headaches- a bitemporal character in the frontal or occipital lobe
  • meningismus - neck stiffness
  • photophobia - sensitivity to light
  • nausea with or without vomiting
  • paresthesias - tingling, prickling, or numbing of skin
  • hyperesthesia - severe sensitivity to touch
  • bladder dysfunction with urinary retention
  • vertigo
  • blindness[4]
  • paralysis localized to one area
  • general paralysis often ascending in nature starting with the feet and progressing upwards to involve the entire body.
  • coma
  • death

Treatment

The severity and clinical course of Angiostrongylus disease depends significantly on the ingested load of third stage larvae [15] creating great variability from case to case making it difficult to design clinical trials and to judge the effectiveness of treatments. Typical conservative medical management including analgesics and sedatives provide minimal relief the headaches and hyperesthesias. Removing Cerebrospinal fluid at regular 3 to 7-day intervals is the only proven method of significantly reducing intracranial pressure and can be used for symptomatic treatment of headaches. This process may be repeated until improvement is shown.[4] Recent studies have shown that treatment with an antihelminthic such as mebendazole or albendazole combined with prednisone or prednisolone can reduce the severity and duration of headaches but have not been shown to improve long term neurologic outcomes.

Antimicrobial Regimen

  • 1. Angiostrongylus cantonensis
  • Preferred: Symptomatic therapy, serial lumber puncture, corticosteroids (prednisone 60mg qd for 2 weeks) and analgesics[16]
  • Note: Albendazole and Mebendazole are generally not recommended due to the risk of exacerbation of neurological symptoms following anthelminthic therapy.[17]

Diagnosis

The diagnosis of disease caused by Angiostrongylus cantonensis infestation is often difficult and relies heavily on the history of a likely ingestion of a commonly infested host and the presence of typical features of the disease. The presumptive diagnosis is particularly strong when eospinophilic meningoencephalitis can be confirmed. The diagnosis of Eosinophilic Meningitis can be arrived at through detection of elevated cranial pressure and increased numbers of eosinophils. The diagnosis of the cause of eosinophilic meningitis and the presence of A. cantonensis is remarkably more difficult. A spinal tap, or a sample of CSF, must be taken to search for A. cantonensis worms or larvae. A. cantonensis is undetectable in the CSF of more than half of the infected individuals. Current methods of detecting specific antigens associated with A. cantonensis are also unreliable. Consequently, alternative approaches to detect antigen-antibody reactions are being explored, such as Immuno-PCR.[18]

References

  1. Template:Cite doi
  2. PMID 18840746 (PMID 18840746)
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  3. "Helminth Taxonomy - Phylum Nematoda", Schistosomiasis Research Group, accessed 26 February 2009.
  4. 4.0 4.1 4.2 4.3 4.4 "EOSINOPHILIC MENINGITIS". Revised 28 February 2006, accessed 1 June 2011.
  5. Alicata J. E. (1991). "The Discovery of Angiostrongylus cantonensis as a Cause of Human Eosinophilic Meningitis". Parasitology Today 7(6): 151-153.
  6. 6.00 6.01 6.02 6.03 6.04 6.05 6.06 6.07 6.08 6.09 6.10 6.11 6.12 6.13 6.14 6.15 6.16 6.17 6.18 6.19 Lv S., Zhang Y., Steinmann P. &, Zhou X.-N. (2008). "Emerging angiostrongyliasis in mainland China". Emerging Infectious Diseases 14(1): 161-164. HTM.
  7. 7.0 7.1 7.2 Lindo J. F., Waugh C., Hall J., Cunningham-Myrie C., Ashley D., Eberhard M. L., Sullivan J. J., Bishop H. S., Robinson D. G., Holtz T. & Robinson R. D. (2002). "Enzootic Angiostrongylus cantonensis in Rats and Snails after an Outbreak of Human Eosinophilic Meningitis, Jamaica". Emerging Infectious Diseases 8(3): 324-326. HTM.
  8. 8.0 8.1 8.2 Template:Cite PMID
  9. 9.00 9.01 9.02 9.03 9.04 9.05 9.06 9.07 9.08 9.09 9.10 9.11 Asato R., Taira K., Nakamura M., Kudaka J., Itokazu K. & Kawanaka M. (2004) "Changing Epidemiology of Angiostrongyliasis Cantonensis in Okinawa Prefecture, Japan". Japanese Journal of Infectious Diseases 57: 184-186. article
  10. 10.0 10.1 10.2 10.3 (20 June 2001). "Land snail infection rates for the human parasitic nematode, Angiostrongylus cantonensis (rat lung worm) with notes on snail and parasite biology and distribution on Kadena AB, Okinawa Japan. Consultative Letter, IERA-DO-BR-CL-2001-0049." MEMORANDUM FOR 18 MDG/SGPM, Department of the Air Force, 11 pp. PDF.
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  12. PMID 14558868 (PMID 14558868)
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  13. 13.0 13.1 13.2 13.3 Högger C. H. (update 25 March 2003). "Antagonists of Slugs and Snails. A Bibliography of Sources and a List of Citations grouped according to Taxon of the Antagonists". in web Archive.
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  15. PMID 11498063 (PMID 11498063)
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  16. Gilbert, David (2015). The Sanford guide to antimicrobial therapy. Sperryville, Va: Antimicrobial Therapy. ISBN 978-1930808843.
  17. Chotmongkol V, Kittimongkolma S, Niwattayakul K, Intapan PM, Thavornpitak Y (2009). "Comparison of prednisolone plus albendazole with prednisolone alone for treatment of patients with eosinophilic meningitis". Am J Trop Med Hyg. 81 (3): 443–5. PMID 19706911.
  18. Template:Cite doi

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