THE MERCK VETERINARY MANUAL
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Parasitic Diseases of Marine Mammals

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Marine mammals are susceptible to all of the major groups of parasites, including various nematodes, trematodes, cestodes, mites, lice, and acanthocephalans. Clinical experience with many of these is limited, while others are commonly seen in recently captured specimens.

Cetaceans are the primary host of Bolbosoma spp but can be infested with parasites of the genus Corynosoma, which have pinnipeds and sea otters as primary hosts. Bolbosoma spp have been reported in pinnipeds. C enhydra has only been reported from sea otters. Diagnosis is by detection of eggs in feces, but clinical disease and therapy are not well documented. Three species of Profilicollis (also found in birds) are reported to cause peritonitis associated with intestinal perforation in sea otters. Mortality usually occurs before the parasite produces ova. Premortem diagnosis is problematic. No successful treatment has been reported.

Nasal and lung mites are found in phocid and otarid seals. Lung mites cause rattling coughs. Nasal mites cause nasal discharge but apparently little discomfort. Diagnosis is made by identifying the mite in nasal secretions or sputum. The life cycles of these mites are unknown. Infections have been cleared rapidly with 2 injections of ivermectin at 200 μg/kg, 2 wk apart. Treatment of infected animals eliminates the problem in captive enclosures without environmental treatment. Mites have been associated with large, roughened lesions of the laryngeal area of cetaceans, but their overall significance or treatment is unknown.

Demodectic mange has been diagnosed in California sea lions. Nonpruritic, alopecic lesions with hyperkeratosis, scaling, and excoriation occur on the flippers and other body surfaces that contact the substrate. Diagnosis is made by deep skin scrapings and identification of the mite. Secondary bacterial infection that results in pyoderma occurs in chronic cases. Treatment is the same as in dogs (see Mange in Dogs and Cats). Predisposing factors in pinnipeds are unknown. The mites are not readily transmitted among contact animals.

Heavy infestations of sucking lice are common in wild pinnipeds and can cause severe anemia. The lice can be seen grossly and are readily transmitted. They are highly sensitive to ivermectin as well as chlorinated hydrocarbon insecticides. Rotenone powder is also effective. The affected animal must be removed from the water, allowed to dry before being dusted, and kept out of the water ≥12 hr. Treatments must be repeated in 10–12 days. Animals in captivity can be freed of parasites, provided no new sources of infestation are introduced.

Lungworms are common in all pinnipeds. Sea lions have Parafilaroides decorus, while true seals are usually parasitized by Otostrongylus circumlitus. The latter parasite is also found in the hearts of some phocids; however, it does not produce a microfilaremia. Both of these parasites use fish as intermediate hosts. There are at least 4 species of lungworms in various cetacean hosts, including Halocercus lagenorhynchi, which has caused prenatal infections in Atlantic bottlenose dolphins.

Lungworm infection can be diagnosed by examination of feces or bronchial mucus. Anorexia, coughing, and sometimes blood-flecked mucus are the first signs of pulmonary parasitism. Treatment of P decorus infection consists of mucolytic agents administered intratracheally, antibiotics to treat any concomitant bacterial pneumonia, ivermectin, and concurrent prednisone or dexamethasone. Diagnosis of O circumlitus in elephant seals is complicated by mortality occurring after generalized clinical signs of depression, dehydration, and neutrophilia before the parasites become patent and first-stage larvae can be detected in sputum or feces. Some success in treatment has been reported using intratracheal administration of levamisole phosphate (5 mg/kg, sid for 5 days); however, combined therapy with ivermectin and fenbendazole given 3 days after initiation of therapy with dexamethasone, antibiotics, and mucolytic agents may be more effective. Cetacean lungworms probably are also susceptible to levamisole and ivermectin; however, the sudden deaths of 2 beluga whales injected IM with levamisole phosphate suggest this drug administered by that route may be contraindicated. A percentage of pinnipeds also show neurologic reactions to IM injection of levamisole; PO or SC administration has been recommended.

Lungworm infections often remain asymptomatic for long periods with clinical signs appearing only when an animal becomes debilitated for other reasons. In captivity, lungworm infections are usually self-limiting if larvae are not introduced in fresh fish intermediate hosts. Feeding frozen fish prevents reinfection.

Heartworms of the genus Acanthocheilonema are a common necropsy finding in pinnipeds but have not been reported in cetaceans, sea otters, or sirenians. Phocid seals are affected by A spirocauda, and otarids are infected subcutaneously by A odendhali. Transmission of A spirocauda is thought to be by the seal louse (Echinophthirius horridus). Both groups of pinnipeds can be infected with the canine heartworm Dirofilaria immitis in endemic areas; however, phocid seals are abnormal hosts. Dirofilariasis is diagnosed by identifying microfilariae in the blood. Transmission is thought to be by the same mosquitos that bite dogs. A graded regimen of levamisole phosphate progressing to a high dosage (40 mg/kg, sid for 1 wk) has successfully cleared infection in captive pinnipeds, with the advantage of oral administration. Prevention in endemic areas has been successful with oral administration of ivermectin (canine dosages) monthly or diethylcarbamazine (3.3 mg/kg) weekly, in food during the mosquito season (see Heartworm Disease).

The Anasakidae are pathogenic nematodes found in the stomach of marine mammals. Granulomas form at their attachment sites and can lead to blood loss, ulceration, and ultimately perforation and peritonitis. Raw fish is most often incriminated as the source of infection. Infections with Contracaecum spp are common in wild cetaceans and pinnipeds. Polar bears in captivity are prone to heavy ascarid infection. Gastric nematodes can be successfully treated with oral dichlorvos (30 mg/kg), fenbendazole (11 mg/kg), or mebendazole (9 mg/kg) given twice, 10 days apart. Ivermectin may be considered.

Hookworms (Uncinaria spp) are found in pinnipeds. Severe infections are known only in the fur seals. Newborn pups are infected via colostrum. Disophenol (12.5 mg/kg) or ivermectin (100 μg/kg) injected SC are effective against these parasites.

Many species of a large spirurid nematode (Crassicauda spp) infect the cranial sinuses, major vessels, kidneys, and mammary gland ducts of cetaceans. Successful treatments are not documented but are potentially possible with systemic parasiticides.

Diphyllobothrium pacificum is commonly found in sea lions, and heavy infection is thought to cause intestinal obstruction. Praziquantel (10 mg/kg) or niclosamide (160 mg/kg) are effective treatments. Other cestodes commonly seen include D lanceolatum in phocid seals, Diplogonoporus tetrapterous in all pinnipeds, and Tetrabothrium forsteri and Strobilocephalus triangularis in cetaceans. Cetaceans are also commonly infected with subcutaneous tapeworm cysts throughout the blubber. These usually are the larval forms of tapeworms of sharks. Several species of cestodes are reported in sea otters and polar bears, but are not known to have clinical significance.

Fluke infections are common in pinnipeds and cetaceans; Nasitrema spp are found in the nasal passages and sinuses of cetaceans. Ova of these trematodes have been associated with necrotic foci in the brains of animals showing behavioral aberrations and have been incriminated as a cause of localized pneumonia in cetaceans. Infections are often accompanied by halitosis and brown mucus around the blowhole and occasionally by coughing. Diagnosis is based on demonstration of typical operculated trematode ova in blowhole swabs or feces. Oral praziquantel (10 mg/kg, 2 treatments 1 wk apart) is usually effective. Reinfection can be prevented by not feeding fresh or live fish.

Zalophotrema hepaticum is an important hepatic trematode of California sea lions; it causes biliary hypertrophy and fibrosis of the liver. Signs are usually seen in adults and include icterus, lethargy, and anorexia. Bilirubinemia and increased serum hepatic enzymes are common. Diagnosis is based on identification of trematode ova in the feces. Treatment with praziquantel (10 mg/kg) or with bithional (20 mg/kg) has been successful.

Various other trematodes infect the stomach, intestines, liver, pancreas, and other abdominal organs of marine mammals. Pancreatic fibrosis due to trematodiasis is a common necropsy finding.

Coccidia (Eimeria phocae) have been found in harbor seals with a fatal, bloody diarrhea. Clinical disease with this parasite is thought to be rare unless the host is stressed through capture, handling, or husbandry changes. A coccidian, Cystoisospora delphini, has been reported as the cause of enteritis in bottlenose dolphins; however, other workers consider the parasite to have been a fish coccidia not associated with the disease. Eimeria trichechi reported from the Amazonian manatee (Trichechus inunguis), and E nodulosa reported from the Florida manatee, are also not associated with disease. These coccidia are probably susceptible to anticoccidial drugs used against other species, eg, amprolium. (See also Coccidiosis.)

Sarcocystis neurona is found in high prevalence in the California population of sea otters. Infection can be asymptomatic or cause severe encephalitis characterized by generalized neurologic signs. Methods of premortem diagnosis are currently under development. No successful treatment has been reported. Sarcocystis spp have been found in the muscles of many cetacean, otarid, and phocid species and do not seem to be associated with any recognized clinical signs.

Toxoplasma gondii is known to infect the California population of sea otters causing disease that ranges from asymptomatic infection to severe encephalitis. Fatal meningoencephalitis due to T gondii has also been reported in a Florida manatee. Toxoplasma spp encephalitis is also reported in harbor seals and Northern fur seals. Disseminated toxoplasmosis is reported in California sea lions. T gondii is reported from Atlantic bottlenose, Risso's (Grampus griseus), striped (Stenella coeruleoalba), and spinner dolphins. Methods of premortem diagnosis are currently under development. No successful treatment has been reported.

Last full review/revision April 2012 by Michael K. Stoskopf, DVM, PhD, DACZM

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