Parastrongylus cantonensis in a nonhuman primate, Florida.Parastrongylus (= Angiostrongylus) cantonensis is a parasitic nematode of Norway rats throughout tropical regions. This parasite is neurotropic neurotropic pertaining to or emanating from neurotrophy, e.g. neurotropic osteopathy. and causes disease and death in humans and other mammals. We report the first identification of P. cantonensis as the cause of a debilitating de·bil·i·tat·ing adj. Causing a loss of strength or energy. Debilitating Weakening, or reducing the strength of. Mentioned in: Stress Reduction disease in a captive primate in Florida. The Case On July 28, 2003, an acute and disabling neurologic disorder developed in a captive 49-year-old male white-handed gibbon (Hylobates lar) from the Miami Metrozoo in Florida. The gibbon was born in the wild but had been in captivity in Florida, USA since 1963. The onset of severe quadriparesis occurred overnight, without signs of prior illness. In addition to extreme weakness of all limbs and the inability to support his body, the gibbon had a slight lip droop but was able to swallow and had no other detectable cranial nerve signs. The gibbon was behaviorally depressed but responsive and aware of his surroundings. Blood analyses and thoracic radiographs did not show a cause for the clinical disease, and blood eosinophil eosinophil /eo·sin·o·phil/ (e?o-sin´o-fil) a granular leukocyte having a nucleus with two lobes connected by a thread of chromatin, and cytoplasm containing coarse, round granules of uniform size. count was not elevated. The animal did not show improvement after 48 hours and was euthanized by intravenous injection of Euthasol (Delmarva Laboratories Inc., Midlothian, VA). On postmortem examination, chronic renal disease and moderate cardiac fibrosis and endocardiosis were observed, but these conditions were considered to be age-related. Gross abnormalities were absent on external surfaces of the central nervous system (CNS See Continuous net settlement. CNS See continuous net settlement (CNS). ). Tissues of the CNS were preserved in 10% formalin. Tissue samples from regions of the CNS were embedded in paraffin by using standard procedures. Tissue sections were cut (6 [micro]m) and stained with hematoxylin hematoxylin /he·ma·tox·y·lin/ (he?mah-tok´si-lin) an acid coloring matter from the heartwood of Haematoxylon campechianum; used as a histologic stain and also as an indicator. and eosin eosin /eo·sin/ (e´o-sin) any of a class of rose-colored stains or dyes, all being bromine derivatives of fluorescein; eosin Y, the sodium salt of tetrabromofluorescein, is much used in histologic and laboratory procedures. . In the transverse sections, the only gross lesion observed was a thin, white discolored dis·col·or v. dis·col·ored, dis·col·or·ing, dis·col·ors v.tr. To alter or spoil the color of; stain. v.intr. To become altered or spoiled in color. area in the left dorsal funiculus funiculus /fu·nic·u·lus/ (fu-nik´u-lus) pl. funic´uli [L.] a cord; a cordlike structure or part.funic´ular anterior funiculus of spinal cord in the cranial cervical spinal cord segments. Microscopic examination showed necrosis and inflammation located primarily in the dorsal gray columns throughout the cervical spinal cord. This lesion was bilateral with some involvement of the adjacent funiculi funiculi plural of funiculus. . The areas of inflammation included numerous eosinophils Eosinophils A leukocyte with coarse, round granules present. Mentioned in: Histiocytosis X eosinophils and transverse sections of one or more parasitic nematodes (Figure 1). A few lesions were found in the ventral gray columns. This destructive lesion extended into the caudal caudal /cau·dal/ (kaw´d'l) 1. pertaining to a cauda. 2. situated more toward the cauda, or tail, than some specified reference point; toward the inferior (in humans) or posterior (in animals) end of the body. medulla medulla: see brain stem. . Rostral to this were a few scattered destructive lesions, and a few sections of the parasite were present in the leptomeninges leptomeninges /lep·to·me·nin·ges/ (lep?to-me-nin´jez) sing. leptome´ninx the pia mater and arachnoid taken together; the pia-arachnoid.leptomenin´geal lep·to·me·nin·ges n. . Wallerian degeneration occurred in the dorsal funiculus where the white discoloration was observed on gross examination. Preserved tissues of the CNS were examined for nematodes at 4x magnification with a dissecting microscope (Zeiss, Micro-Med Instruments, Inc., Walden, NY). Four nematodes were recovered from the meninges meninges (mĭnĭn`jēz), three membranous layers of connective tissue that envelop the brain and spinal cord (see nervous system). The outermost layer, or dura mater, is extremely tough and is fused with the membranous lining of the skull. of the brain and spinal cord. One intact male nematode and additional pieces of a male nematode were recovered from the subarachnoid space of the cervical spinal cord. A second intact male nematode was recovered from the subarachnoid space of the cerebellum cerebellum (sĕr'əbĕl`əm), portion of the brain that coordinates movements of voluntary (skeletal) muscles. It contains about half of the brain's neurons, but these particular nerve cells are so small that the cerebellum accounts for , and additional pieces of a nematode were recovered from the subarachnoid space of the cerebrum cerebrum: see brain. cerebrum Largest part of the brain. The two cerebral hemispheres consist of an inner core of myelinated nerve fibres, the white matter, and a heavily convoluted outer cortex of gray matter (see cerebral cortex). . The partial nematodes had damaged anterior and posterior ends. Nematodes were examined at 40-400x magnification, and digital images of specimens were captured (Olympus Model DP12, Olympus Optical Co., Ltd., Tokyo, Japan). Corresponding images of a stage micrometer allowed the sizes of morphologic characteristics to be determined. A key morphologic feature of the three male nematodes was the presence of a well-developed bursa (Figure 2). This feature indicated their classification within the order Strongylida. Within this group, members of the superfamilies Diaphanocephaloidea, Ancylostomatoidea, and Strongy-loidea were excluded based on morphologic features of the anterior end. Members of the Trichostrongyloidea were also excluded on the basis of the absence of a cephalic cephalic /ce·phal·ic/ (se-fal´ik) pertaining to the head, or to the head end of the body. ce·phal·ic adj. 1. Of or relating to the head. 2. vesicle vesicle /ves·i·cle/ (ves´i-k'l) 1. a small bladder or sac containing liquid. 2. a small circumscribed elevation of the epidermis containing a serous fluid; a small blister. and longitudinal cuticular ridges. In addition, with the exception of the family Dictyocaulidae, all Trichostrongyloids are restricted to the intestinal tract. Furthermore, no strongylid nematodes from the aforementioned superfamilies have been reported from the CNS. The nematodes from the gibbon CNS were thus classified as members of the superfamily superfamily /su·per·fam·i·ly/ (soo´per-fam?i-le) 1. a taxonomic category between an order and a family. 2. Metastrongyloidea. Sprent (1) and Anderson (2) documented extensively the nematodes reported from the CNS of mammals. Within the Metastrongyloidea, these include Parelaphostrongyhls spp., Elaphostrongylus spp., Skrjabingylus spp., Gurltia paralysans, and Parastrongylus spp. Of those nematodes, only Parastrongylus spp. have been reported previously from the CNS of primates. As such, the causative agent was presumed to be a species of the genus Parastrongylus. This genus comprises P. cantonensis, P. malaysiensis, P. mackerrasae, P. sandarsae, P. siamensis, P. costaricensis, P. dujardini, P. schmidti, P. tateronae, P. ryjikovi, P. sciuri, and P. petrowi (3). Of these species, P. cantonensis, P. malaysiensis, and P. costaricensis have been reported previously from primates. Spicule spicule: see chromosphere. measurements (1,140-1,180 [micro]m) of nematodes from the gibbon (Figure 2) correlated well with measurements reported for P. cantonensis. With the exception of P. malaysiensis, P. cantonensis is distinguished from all other Parastrongylus spp. based on spicules [greater than or equal to] 1,000 [micro]m. Spicules from P. malaysiensis are on average 940 [micro]m (800-1,200 [micro]m). P. cantonensis and P. malavsiensis are distinguished on the basis of the morphology of bursal rays from male nematodes (4). The bursal rays of nematodes recovered from the gibbon were consistent with those of P. cantonensis. Based on a combination of morphologic features, spicule measurements, host species, and location within the host, we concluded that the infecting nematodes were P. cantonensis. The male specimens of P. cantonensis were deposited in the U.S. National Parasite Collection (Beltsville, MD) under accession number 94698. Conclusions P. cantonensis are parasitic nematodes that reside in the cardiopulmonary system of their rat (Rattus spp.) definitive hosts. The parasite is common in Southeast Asia and the South Pacific and has been reported in Madagascar, Japan, Egypt, and India (5). Reports also document P. cantonensis from the Western Hemisphere in Cuba, Puerto Rico, Dominican Republic, Bahamas, Jamaica, and Haiti (6,7). From the mainland United States, P. cantonensis is known only in Louisiana (8) and Mississippi (9). Naturally acquired infections in these two areas resulted in neurologic disease in a horse (9), in wildlife species (10), and in both human (11) and nonhuman primates (10,12). Onset of neurologic signs in humans occur 1-45 days after infection (13,14). This feature suggests that the captive gibbon in this report likely acquired the infection shortly before onset of disease. The advanced age of the animal may have been a factor in the severity of the disease. Although deaths have been reported in human adults, infections typically result in transient neurologic debilitation debilitation being in a state of debility. (14). Conversely, death can occur in 5% of children (13). Comparative data are lacking for disease severity in older persons. Transmission of P. cantonensis infection requires first-stage larvae (L1) from rat feces to infect and develop into the infective-stage (L3) within obligate obligate /ob·li·gate/ (ob´li-gat) pertaining to or characterized by the ability to survive only in a particular environment or to assume only a particular role, as an obligate anaerobe. gastropod gastropod, member of the class Gastropoda, the largest and most successful class of mollusks (phylum Mollusca), containing over 35,000 living species and 15,000 fossil forms. intermediate hosts. Infection of rats and other mammalian hosts requires ingestion of L3, commonly through ingestion of infected gastropods. However, the L3 of P. cantonensis can also emerge in gastropod mucus trails and thereby contaminate surrounding vegetation (15). This mode of transmission was reported in a human outbreak of eosinophilic meningitis in Jamaica, where disease was correlated with eating Caesar salad (16). The present distribution of P. cantonensis within the United States is unknown outside of Louisiana (8) and Mississippi (9). The finding of P. cantonensis in the captive gibbon in this report suggests that the parasite may be established in Miami, Florida. Since neurologic disease may occur in human and nonhuman primates, dogs, horses, and numerous other species (9-12), documentation of the present distribution of P. cantonensis will prove valuable for monitoring the spread of this zoonotic Zoonotic A disease which can be spread from animals to humans. Mentioned in: Zoonosis parasite. P. cantonensis have a number of susceptible aquatic (17) and terrestrial gastropod intermediate hosts in the eastern United States (2,8). In combination with the ubiquitous distribution of rats, the probability for spread and establishment of P. cantonensis exists within eastern North America. The dispersal of P. cantonensis has, in some instances, been linked to the introduction of the African giant land snail, Achatina fulica (5). Three specimens of A. fulica were introduced into Miami, Florida, from Hawaii in 1966 (18). These exotic snails became established but were considered eradicated from Florida by 1975 (18). A survey of A. fulica in Hawaii in the mid-1960s showed that P. cantonensis infection was both highly prevalent and intense (19), which suggests that the parasite may have been introduced to Miami with the translocated snails in 1966. P. cantonensis was believed not to establish successfully (18). However, this event or a similar translocation translocation /trans·lo·ca·tion/ (trans?lo-ka´shun) the attachment of a fragment of one chromosome to a nonhomologous chromosome. Abbreviated t. involving less conspicuous exotic gastropods may have resulted in the inadvertent introduction of P. cantonensis. Live A. fulica are confiscated routinely from tourists returning to mainland United States from Hawaii, and 75 other exotic gastropod species have been introduced to the United States accidentally, inadvertently, or intentionally (20). The introduction of P. cantonensis with infected rats from areas where the parasite is endemic would be equally conceivable, as was proposed for its introduction to New Orleans, Louisiana (8). P. cantonensis may be established in rat and gastropod populations in Miami. However, given the role of emergent L3 in transmission of infections (15,16), the L3 involved in the present case may have been acquired from contaminated vegetation supplied commercially from another region. The gibbon in this report was fed a commercial monkey chow and a variety of produce both grown locally and imported from several regions of North, Central, and South America. P. cantonensis is not known to be in any of these supply regions. The source of P. cantonensis in the gibbon infection remains to be determined. However, P. cantonensis was definitely introduced to Miami through the translocation of either infected animals or contaminated plants. Future investigations aim to conduct parasitologic surveys of rats and gastropods in Miami, Florida, and develop molecular tools for specific identification of P. cantonensis. The specific source of infection in the present case report remains unknown. However, our report indicates that infection with P. cantonensis should be included as a differential diagnosis for instances of neurologic disease in human and nonhuman primates, as well as in wildlife and veterinary species in the southeastern United States. Acknowledgments We thank Judith Appleton and Dwight Bowman for advice, assistance, and use of microscopes and imaging equipment and Paige Adams for helpful comments on the manuscript. Dr. Duffy is a research associate at the James A. Baker Institute for Animal Health, Cornell University. His research interests include neurotropic parasitic nematodes and acquired immunity to these infections. References (1.) Sprent JF. On the invasion of the central nervous system by nematodes. I. The incidence and pathological significance of nematodes in the central nervous system. Parasitology. 1955;45:31-40. (2.) Anderson RC. The pathogenesis and transmission of neurotropic and accidental nematode parasites of the central nervous system of mammals and birds. Helminthol Abstr. 1968;37:191-210. (3.) Ubelaker JE. Systematics systematics: see classification. of species referred to the genus Angiostrongylus. J Parasitol. 1986;72:237-44. (4.) Bhaibulaya M, Techasoponmani V. Mixed infections of Angiostrongylus spp. in rats in Bangkok. Southeast Asian J Trop Med Public Health. 1972;3:451. (5.) Prociv P, Spratt DM, Carlisle MS. Neuro-angiostrongyliasis: unresolved issues. Int J Parasitol. 2000;30:1295-303. (6.) Lindo JF, Waugh C, Hall J, Cunningham-Myrie C, Ashley D, Eberhard ML, et al. Enzootic en·zo·ot·ic adj. Prevalent among or restricted to animals of a specific geographic area. Used of a disease. n. An enzootic disease. enzootic peculiar to or present constantly in a location. See also endemic. Angiostrongylus cantonensis in rats and snails after an outbreak of human eosinophilic meningitis, Jamaica. Emerg Infect Dis. 2002;8:324-6. (7.) Raccurt CP, Blaise J, Durette-Desset MC. Presence of Angiostrongylus cantonensis in Haiti. Trop Med Int Health. 2003;8:423-6. (8.) Campbell BG, Little MD. The finding of Angiostrongylus cantonensis in rats in New Orleans. Am J Trop Med Hyg. 1988;38:568-73. (9.) Costa LRR, McClure JJ, Snider III TG, Stewart TB. Verminous ver·min·ous adj. 1. Of, relating to, or caused by vermin. 2. Infested with vermin. verminous pertaining to, due to, or abounding in worms or in vermin. meningoencephalomyelitis by Angiostrongylus (= Parastrongylus) cantonensis in an American miniature horse American miniature horse Shetland ponies 34 inches or less high at maturity; the foals are more susceptible to colonic impaction and development of fecaliths than foals of other breeds. . Equine Vet Educ. 2000;12:2-6. (10.) Kim DY, Stewart TB, Bauer RW, Mitchell M. Parastrongylus (Angiostrongylus) cantonensis now endemic in Louisiana wildlife. J Parasitol. 2002;88:1024-6. (11.) New D, Little MD, Cross J. Angiostrongylus cantonensis infection from eating raw snails. N Engl J Med. 1995;332:1105-6. (12.) Gardiner CH, Wells S, Gutter AE, Fitzgerald L, Anderson DC, Harris RK, et al. Eosinophilic eosinophilic /eo·sin·o·phil·ic/ (-fil´ik) 1. readily stainable with eosin. 2. pertaining to eosinophils. 3. pertaining to or characterized by eosinophilia. meningoencephalitis meningoencephalitis /me·nin·go·en·ceph·a·li·tis/ (me-ning?go-en-sef?ah-li´tis) inflammation of the brain and meninges. toxoplasmic meningoencephalitis due to Angiostrongylus cantonensis as the cause of death in captive nonhuman primates. Am J Trop Med Hyg. 1990;42:70-4. (13.) Hwang KP, Chen ER. Clinical studies on Angiostrongylus cantonensis among children in Taiwan. Southeast Asian J Trop Med Public Health. 1991;22(Suppl):194-9. (14.) Punyagupta S, Bunnag T, Juttijudata P, Rosen L. Eosinophilic meningitis in Thailand. Epidemiologic studies of 484 typical cases and the etiologic role of Angiostrongylus cantonensis. Am J Trop Med Hyg. 1970;19:950-8. (15.) Heyneman D, Lim BL. Angiostrongylus cantonensis: proof of direct transmission with its epidemiological implications. Science. 1967;158:1057-8. (16.) Slom TJ, Cortese MM, Gerber SI, Jones RC, Holtz TH, Lopez AS, et al. An outbreak of eosinophilic meningitis caused by Angiostrongylus cantonensis in travelers returning from the Caribbean. N Engl J Med. 2002;346:668-75. (17.) Kocan AA. Some common North American aquatic snails as experimental hosts of Angiostrongylus cantonensis--with special reference to Lymnaea palustris. J Parasitol. 1972;58:186-7. (18.) Mead AR. Economic malacology mal·a·col·o·gy n. The branch of zoology that deals with mollusks. [French malacologie, contraction of malacozoologie, from New Latin Malacoz with particular reference to Achatina fulica. In: Fretter V, Peake J, editors. Pulmonates. Volume 2B. New York: Academic Press; 1979. p. 150. (19.) Wallace GD, Rosen L. Studies on eosinophilic meningitis. V. Molluscan mol·lus·can also mol·lus·kan adj. Of or relating to the mollusks. n. A mollusk. hosts of Angiostrongylus cantonensis on Pacific islands. Am J Trop Med Hyg. 1969;18:206-16. (20.) Robinson, DG. Alien invasions: the effects of the global economy on non-marine gastropod introductions into the United States. Malacologia. 1999;41:413-38. Michael S. Duffy, * Christine L. Miller, ([dagger]) J. Michael Kinsella, ([double dagger]) and Alexander de Lahunta * * Cornell University, Ithaca, New York
For other places or objects named Ithaca, see Ithaca (disambiguation). , USA; ([dagger]) Miami Metrozoo, Miami, Florida, USA; and ([double dagger]) HelmWest Laboratory, Missoula, Montana, USA Address for correspondence: Michael S. Duffy, James A. Baker Institute for Animal Health, College of Veterinary Medicine, Cornell University, Ithaca, NY, 14853. USA; fax: 607-256-5608; email: mjd48@cornell.edu |
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