Richard A. Oberhelman and Peter J. Hotez
Toxocariasis is one of the most common human helminth infections in North America and Europe, with the highest occurrence among disadvantaged minority populations.1-3 There are 3 major forms of the disease: visceral larva migrans (VLM), ocular larva migrans (OLM), and covert toxocariasis.
VLM and OLM are usually caused by helminth larvae of dogs and cats that ordinarily cannot complete their life cycle in humans (eFig. 331.1 ). Migrating larvae of zoonotic ascarids may be associated with significant pathology by wandering through extraintestinal viscera, causing tissue necrosis and provoking eosinophilic granulomatous inflammation. The clinical syndrome of VLM and OLM are most commonly caused by larvae of the dog ascarid Toxocara canis and, less frequently, the cat ascarid T cati. Covert toxocariasis refers to infection with either T canis or T cati that results in either asymptomatic infection or infection associated only with asthma and wheezing.2Seroprevalence surveys show presence of antibody in up to 50% of African American and Hispanic children living in poverty in the United States.1-3 Infection is common in both urban and rural areas, and some studies have linked environmental exposure to Toxocara larvae as a contributor to asthma.2,3
Adult Toxocara live in the dog’s small intestine and are 8 to 12 cm long. The ova are deposited with the dog’s feces and become infective in approximately 2 weeks. If swallowed by young dogs, second-stage larvae hatch in the small intestine, penetrate the intestinal wall, and migrate through canine tissues where they can undergo arrested development. Some larvae return to the small intestine, where they mature, mate, and oviposit. Arrested larval development more often occurs in female dogs than males, and the dormant larvae in tissues can migrate transplacentally (or possibly enter the mammary tissues) and thereby serve as a source of perinatal and postnatal infection in puppies. In the United States, large numbers of newborn puppies are infected and pose a health risk to those who handle them.
In humans, most infections have been reported in young children 1 to 4 years of age with a history of pica, especially geophagy. After a human ingests the embryonated egg, a second-stage larva emerges in the small intestine, penetrates the intestinal wall, and initiates somatic migration that may last for many weeks or months.
The liver and lungs are most often involved with Toxocara, the former probably because of the mesenteric venous portal drainage. Tissue granulomas consist of many eosinophils and histiocytes, with an occasional multinucleated foreign-body giant cell in an area of necrosis. A portion of a second-stage larva also may be evident. Granulomas can also be found in lung, kidney, lymph node, eyes, brain, heart, and skeletal muscle. The syndrome produced by granulomas from toxocariasis in the eye is termed ocular larva migrans. In Ireland the incidence of ocular larva migrans has been estimated at 9.7 per 100,000 persons.4
CLINICAL MANIFESTATIONS
In visceral larva migrans and covert toxocariasis clinical presentations vary from eosinophilia discovered by chance in an asymptomatic patient to fever, hepatomegaly, hyperglobulinemia, and marked eosinophilia. Many infections are subclinical. Some children have pulmonary symptoms (notably wheezing and rhonchi), signs of myocarditis, cutaneous nodules, or urticaria. Some children exhibit central nervous system disease, manifested as either cerebritis or epilepsy, a result of larvae migrating through the brain.2 The acute phase may last 2 to 3 weeks, and in some cases the resolution of eosinophilia and clinical symptoms may take as long as 18 months.
Ocular larva migrans is more common among older children (school-aged and adolescents). The most dramatic symptoms are due to retinal pathology and include visual changes, strabismus, and retinal detachment.
DIAGNOSIS AND TREATMENT
Diagnosis usually is made based on a combination of clinical features and serologic tests. Close association with a dog or cat frequently is disclosed by history, and a history of pica is commonly elicited with visceral larva migrans, but not ocular larva migrans. A persistently elevated eosinophil count, a moderate to high increase in gamma globulin, and elevated erythrocyte sedimentation rate all support the diagnosis. If the patient is not blood type AB, one of the antihemagglutinins (anti-A or anti-B) usually is increased, because Toxocara larvae contain surface antigens that stimulate isohemagglutinin production. An enzyme-linked immunoassay for Toxocara antibodies in serum is available through the Centers for Disease Control and Prevention (CDC) and through some private laboratories. This assay detects both IgM and IgG, and the CDC assay is reported to have a sensitivity of 85% and a specificity of 92%. Patients with visceral toxocariasis usually have elevated titers (1:1024), but those with ocular disease alone may have low or absent antibody titers. Therefore, ocular larva migrans is most frequently diagnosed on the basis of characteristic lesions seen on fundoscopy (eFig. 331.2 ).
Larvae may be detected in biopsy specimens, although most patients do not require surgical procedures for diagnosis. Occasionally, migrating larvae may also be seen in the retina.
Albendazole is the treatment of choice for visceral larva migrans.5 The drug should be used with caution because of potential toxicity from allergic responses to dying parasites. Although mebendazole is commonly used to treat a number of human helminth infections, the drug is poorly absorbed from the gastrointestinal tract and therapeutic levels of the drug are often inadequate to treat the tissue-dwelling larvae that cause toxocariasis. The benefit of albendazole in the treatment of covert toxocariasis has not been established. The management and treatment of ocular larva migrans should be done in consultation with an ophthalmologist and will often require local use of steroids or surgical modalities. The benefit of specific anthelminthic therapy with albendazole for treating ocular larva migrans has not been established, particularly given the exacerbation of host inflammation that could result. All dogs and cats should be dewormed periodically. Puppies and kittens should be dewormed at 2, 4, 6, and 8 weeks of age, because they usually are heavily infected.