Emerging Infectious Diseases
[Volume 5 No.2 / March - April 1999]

Dispatches

Gnathostomosis, an Emerging Foodborne Zoonotic Disease in Acapulco, Mexico

Norma Rojas-Molina,* Sigifredo Pedraza-Sanchez,† Balfre Torres-Bibiano,*
Hector Meza-Martinez,* and Alejandro Escobar-Gutierrez†
*Hospital Regional "Vicente Guerrero," Instituto Mexicano del Seguro
Social, Acapulco, Guerrero, México; and †Secretaría de Salud, México, DF,
México

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      Between 1993 and 1997, 98 gnathostomosis cases were clinically
      identified in Acapulco, Mexico. Intermittent cutaneous
      migratory swellings were the commonest manifestation. Larvae
      were identified in 26 cases, while in 72, final diagnosis was
      made on the basis of epidemiologic data, food habits, and
      positive enzyme-linked immunosorbent assay and Western blot
      results.

Gnathostomosis is a foodborne zoonotic disease caused by several species of
nematode Gnathostoma. The life cycle of this parasite is as follows: Adult
parasites of G. spinigerum are found in the stomach of mammals (e.g., dogs
and cats). feces containing ova reach the water (i.e., when domestic
parasitized animals live at the shore of a lagoon). Free-swimming
first-stage larvae are formed, which are ingested by the minute copepod
crustacean cyclops, and become second-stage larvae. Freshwater fish eating
cyclops are the second intermediate host. Larvae develop to the third state
(L3) in the fish muscles. Consumption of this fish by cats, dogs, or other
mammals results in development of adults in the gut, closing the cycle.
Humans acquire the infection by consuming raw or undercooked freshwater
fish. When a larva is ingested by a human host, no further development
occurs, but the larva migrates through subcutaneous tissue and internal
organs where it produces migratory swelling in the skin and other symptoms
depending on the site or organ affected. In most cases, symptoms are not
serious; however, if the parasite migrates to vital organs of the host, it
can cause severe illness or even death (1,2).

With the highest prevalence in Southeast Asia, gnathostomosis is now an
emerging public health problem in Peru, Ecuador and, since 1970, in Mexico
(3). In the 1970s and 1980s a few cases were reported in towns around
Presidente Miguel Aleman Dam and Papaloapan River basin in the Gulf of
Mexico (4). The parasites may have spread when new dams built on rivers of
the Pacific Ocean coast were unnoticeably seeded with infected fish. Until
now, G. spinigerum has been the only species of Gnathostoma identified in
Mexico (5).

Acapulco (estimated population 890,000), a resort on the southern Pacific
coast, is the major Mexican city where gnathostomosis cases have been
reported (5). Between December 1, 1993, and July 31, 1997, 98 patients with
symptoms compatible with gnathostomosis were identified at the outpatient
clinics of the Dermatology and Allergy Services, Hospital Regional "Vicente
Guerrero", IMSS. Because the hospital gives medical attention to
approximately 45% of the permanent residents of the city, the number of
gnathostomosis cases identified can be considered representative prevalence
in the local population.

A standardized questionnaire was administered to each patient, requesting
demographic data, medical history, clinical features, age, occupation,
years of residence at the city, and food habits. Baseline and diagnostic
investigations were made after obtaining a written consent. Gender and age
distribution were as follows: 50 were male and 48 female and all but two (5
and 10 years) were 20 to 45 years of age (mean age 36 years). Blood samples
were obtained for full blood and eosinophil counts. Serum total
immunoglobulin E (IgE) levels were measured by a commercial enzyme-linked
immunosorbent assay (ELISA) (Pharmacia Diagnostics, Uppsala, Sweden), and
the results were expressed as international units (IU)/mL. Biopsies were
taken from the progressing eruption and were examined for worms. Commonest
symptoms were intermittent episodes of localized migratory skin swelling,
with edema of variable size, slightly reddish, feverish at times,
accompanied by stabbing pain, burning sensation and pruritus. Initial edema
generally appeared on the abdomen. Recurring edema developed randomly,
mainly in the upper and lower extremities, gluteus, thorax, and face. The
duration of edema varied from 1 day to approximately 2 weeks. Only two
patients reported visceral manifestations, mainly epigastrial pain and
nausea, lasting approximately 2 days. Medium value for blood eosinophils
was 12%, and serum IgE was 302.6 Ul/mL (normal 10 to 180 Ul/mL). Although
identification of larvae by a biopsy is recommended for definitive
diagnosis, such identification was possible in only 16 cases, including
three in which the worms were easily excised after their outward migration
to the dermis as a consequence of treatment with albendazole as has been
recommended (6).

To assess the effectiveness of serologic tests for diagnosis, a
representative sample of patients were selected for antibody screening by
ELISA (7) and Western blot confirmation (8). Antigens used were two batches
of larval total extract. The first one was prepared with worms recovered
from patient's biopsies or from muscles of freshwater fishes (Dormilatum
latrifons) from laguna Tres Palos (a large freshwater lagoon 20 km
southeast Acapulco). The second batch was obtained from G. spinigerum
freeze-dried specimens donated by Dr. Wichit Rojekittkhum (Faculty of
Tropical Medicine, Mahidol University, Bangkok, Thailand). For ELISA,
protein concentration of the antigen was adjusted to 10 g/ml, and sera with
OD(sub 420) values >/= the OD(sub 420) average obtained in control sera plus 
four standard deviations were considered positive. ELISA-positive results were
found in four of five parasitologically confirmed cases and 19 of 22
biopsy-negative patients. Immunoblots with sera from ELISA-positive
patients showed two strong bands (30 and 38 kDa) and two weak bands (35 and
43 kDa) not observed in sera from the control group. No differences between
the two batches of antigens were detected by ELISA or by immunoblotting.
However, by ELISA, higher OD(sub 420) values were seen when G. spinigerum
lyophilized antigen was used. Lyophilization may make the antigen better
for binding to the ELISA pates. No correlation was found with age, time of
onset, or parasitologic treatment in patients with negative serologic
results.

Although characteristic clinical manifestations could be very indicative of
gnathostomosis, up to now confirmation through identification of larvae has
been mandatory; nevertheless, larva identification is rare, and a
combination of such factors as permanent residence or recent visit to a
disease-endemic area, history of eating raw fish, exclusion of other
diseases, and results of serologic tests can be taken into account in
establishing a definitive diagnosis.

Inability to interrupt the parasite's life cycle and lack of effective
medical treatment (2) make preventive measures critical in controlling the
disease. Therefore, travelers to disease-endemic areas must be warned of
the possibility of acquiring gnathostomosis and be instructed to avoid
ingesting any form of raw fish. To protect the general population of
disease-endemic areas, public campaigns should be implemented and
encouraged against eating or selling raw or poorly cooked freshwater fish,
especially in the form of sushimi or "ceviche" (a spicy lime-marinated fish
salad of South American origin now very popular in Mexico).

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      Dr. Rojas-Molina is an allergologist at Service of Allergy, Hospital
Regional "Vicente Guerrero," Instituto Mexicano del Seguro Social,
Acapulco, Guerrero, México.

      Address for correspondence: Alejandro Escobar-Gutierrez, Departamento
de Investigaciones Inmunológicas, Instituto Nacional de Diagnóstico y
Referencia Epidemiológicos, SSA, Carpio 470, México, DF, 11340, México; fax
525-341-3264; e-mail: indre@cenids.ssa.gob.mx.

References

  1. Rusnak JM, Lucey DR. Clinical gnathostomiasis: case report and review
     of the English-language literature. Clin Infec Dis 1993;16:33-50.
  2. Yoshimura K, 1998. Angiostrongylus (Parastrongylus) and less common
     nematodes. In: Cox EG, Kreier JP, Wakelin D, editors. Topley &
     Wilson's microbiology and microbial infections. 9th ed. Vol 5. London:
     Arnold; 1998. p. 635-59.
  3. Pelaez D, Perez-Reyes R. Gnatostomiasis humana en America. Rev
     Latinoam Microbiol 1970;12:83-91.
  4. Martínez-Cruz JM, Bravo-Zamudio R, Aranda-Patraca A, Martínez-Marañón
     R. La gnatostomiasis en México. Salud Pública Mex 1989;31:541-9.
  5. Ogata K, Nawa Y, Akahane H, Díaz Camacho SP, Lamothe-Argumedo R,
     Cruz-Reyes A. Short report: gnathostomiasis in Mexico. Amer J Trop Med
     Hyg 1998;58:316-8.
  6. Suntharasamai P, Riganti M, Chittamas S, Desakorn V. Albendazole
     stimulates outward migration of Gnathostoma spinigerum to the dermis
     in man. Southeast Asian J Trop Med Public Health 1992;23:716-22.
  7. Dharmkrong-at A, Migasena S, Suntharasamai P, Bunnag D, Priwan R,
     Sirisinha S. Enzyme-linked immunosorbent assay for detection of
     antibody to Gnathostoma antigen in patients with intermittent
     cutaneous migratory swelling. J Clin Microbiol 1986;23:847-51.
  8. Towbin H, Straehelin T, Gordon J. Electrophoresis transfer of proteins
     from polyacrylamide gels to nitrocellulose sheets: procedure and some
     applications. Proc Natl Acad Sci U S A 1979;76:4350-4.


Emerging Infectious Diseases
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