sábado, 26 de septiembre de 2015

Bloody Diarrhea Associated with Hookworm Infection in Traveler Returning to France from Myanmar - Volume 21, Number 10—October 2015 - Emerging Infectious Disease journal - CDC

Bloody Diarrhea Associated with Hookworm Infection in Traveler Returning to France from Myanmar - Volume 21, Number 10—October 2015 - Emerging Infectious Disease journal - CDC

Volume 21, Number 10—October 2015


Bloody Diarrhea Associated with Hookworm Infection in Traveler Returning to France from Myanmar

To the Editor: Human hookworm infections are commonly caused by 2 anthroponotic species, Necator americanus and Ancylostoma duodenale. However, A. ceylanicum, a zoonotic hookworm of canids and felids, is emerging as the second most common human hookworm in Southeast Asia (14). Two haplotypes of A.ceylanicum hookworm have been identified, 1 specific to humans and 1 specific to humans, dogs, and cats (4,5). We report a case of patent enteric A. ceylanicum hookworm infection in a man from France who had visited Myanmar.
In December 2014, a 33-year-old man with no medical history sought care in France after 3 weeks of fever, vomiting, dyspnea, bloody diarrhea, and weight loss (7 kg). He had returned from a 3-week trip to Myanmar 1 month earlier. Two days after his arrival in Myanmar, he had pruritic erythematous macules on the buttocks after sitting in a public park in Rangoon while wearing short pants; this sign was followed by a dry cough.
Thumbnail of Ancylostoma ceylanicum hookworm isolated from a French tourist returning from Myanmar. A) Ova and blood cells in fecal specimen. B) Filiform larvae after stool culture. Original magnifications ×40.
FigureAncylostoma ceylanicum hookworm isolated from a French tourist returning from Myanmar. A) Ova and blood cells in fecal specimen. B) Filiform larvae after stool culture. Original magnifications ×40.
Laboratory data showed leukocytosis (17.43 × 109 cells/L) with hypereosinophilia (55%) and a hemocrit of 56.1%. Direct examination of hemorrhagic stool showed numerous Charcot-Leyden crystals (CLCs) and 150–200 eggs/g feces of unembryonated hookworm ova (mean size 57.6 × 38.4 µm) (Figure, panel A). Rhabditiform and filariform larvae were isolated by stool culture (Figure, panel B). On the basis of clinical history and data suggestive of eosinophilic enteritis, which is uncommon in patients infected with parasites adapted to humans, a zoonotic hookworm species was suspected.
For species identification, DNA was extracted from larvae by using the DNeasy Tissue Kit (QIAGEN, Hilden, Germany) at the Faculty of Veterinary and Agricultural Sciences, University of Melbourne (Parkville, Victoria, Australia) and subjected to PCR specific for the ribosomal internal transcribed spacer region of hookworms (1). Testing was conducted at the University of Melbourne because this institution has the technical expertise for identifying hookworm. In addition, haplotype characterization was performed by using PCR specific for the mitochondrial cytochrome oxidase-1 gene (4). Bidirectional DNA sequences of PCR products (Macrogen Inc., Seoul, South Korea) were analyzed by using Finch TV 1.4.0 (Geospiza Inc., Seattle, WA, USA). The ribosomal internal transcribed spacer region had 100% sequence identity with an A. ceylanicum sequence in GenBank (DQ381541). Neighbor-joining analyses with MEGA 4.1 (http://www.megasoftware.net) clustered the isolate within the A. ceylanicum haplotype specific for animals and humans (4).
By the third day of albendazole therapy (400 mg/d), clinical improvement was observed and stool specimens were negative for hookworm ova. However, eosinophilia (59%) was persistent. Three months later, the patient was hospitalized because of diarrhea and abdominal pain. CLCs and hookworm ova were observed, and the patient received a second course of albendazole.
A. ceylanicum hookworm was unequivocally identified by using molecular methods as the etiologic cause of the original signs and symptoms for this patient. In Asia, A. ceylanicum hookworm is reported at a prevalence of 62%–92% in stray dogs and cats (3) and environmental contamination of the public park by dog feces was the probable source of infection for this patient.
A. ceylanicum hookworms have been experimentally shown to develop to patency in humans within 26–35 days (6), but abdominal symptoms and eosinophilia may occur earlier (within 21 days). Natural human infections have been described in most regions where A. ceylanicum hookworm is endemic to animals, but clinical and pathologic data are scarce. In Taiwan and Malaysia, this hookworm was visualized in the mid-jejunum in patients with acute, severe abdominal pain and nausea and in terminal ileum in patients with anemia caused by chronic blood loss, nausea, and melena (79).
In all cases, leukocytosis with eosinophilia (22%–50%) was observed. In the patient we describe, transdermal infection causing cutaneous larva migrans was followed by development of eosinophilic enteritis within a 2-week period. Enteric signs were similar to those observed in previous cases in Taiwan. A 3-day course of benzimidazole is the anthelminthic drug of choice. However, clinicians must be aware of possible relapse, potentially caused by failure of the adulticidal drug to kill developing larvae before full patency is reached (3,8,9).
Differentiation of larvae and eggs of anthroponotic and zoonotic Ancylostoma spp. is difficult. Definitive diagnosis relies on detailed morphologic identification of adult worms or molecular identification of adults, eggs, or larvae in stool specimens. Thus, human infection in travelers returning from parasite-endemic regions is likely to be misdiagnosed as an anthroponotic hookworm species. Clinically, the presence of hookworm ova and an unusually high number of CLCs and eosinophils in stool should alert clinicians to the possibility of an infection with A. ceylanicum hookworm.
A. ceylanicum hookworm is reported primarily in tropical climates; the possibility of spread in temperate countries remains low because development of filariforme larva requires high temperatures and a moist environment. However, recent climate changes, coupled with poor sanitary conditions, could promote emergence of tropical species, and recently, rare cases of autochthonous hookworm-related cutaneous larva migrans have been reported in Europe (10).
This report highlights the risk for zoonotic ancylostomiasis in travelers visiting countries to which A. ceylanicum hookworm is endemic among animals. It also emphasizes the usefulness of copromolecular techniques for species-specific diagnosis.
Julie BrunetComments to Author , Jean-Philippe Lemoine, Nicolas Lefebvre, Julie Denis, Alexander W. Pfaff, Ahmed Abou-Bacar, Rebecca J. Traub, Bernard Pesson, and Ermanno Candolfi
Author affiliations: Hôpitaux Universitaires de Strasbourg, Strasbourg, France (J. Brunet, J.-P. Lemoine, N. Lefebvre, J. Denis, A.W. Pfaff, A. Abou-Bacar, B. Pesson, E. Candolfi)Université de Strasbourg, Strasbourg (J. Brunet, A.W. Pfaff, E. Candolfi)University of Melbourne, Parkville, Victoria, Australia (R.J. Traub)


  1. Traub RJInpankaew TSutthikornchai CSukthana YThompson RCPCR-based coprodiagnostic tools reveal dogs as reservoirs of zoonotic ancylostomiasis caused by Ancylostoma ceylanicum in temple communities in Bangkok. Vet Parasitol2008;155:6773DOIPubMed
  2. Mahdy MALim YANgui RSiti Fatimah MRChoy SHYap NJPrevalence and zoonotic potential of canine hookworms in Malaysia. Parasit Vectors.2012;5:88.
  3. Traub RJAncylostoma ceylanicum, a re-emerging but neglected parasitic zoonosis. Int J Parasitol2013;43:100915DOIPubMed
  4. Inpankaew TSchär FDalsgaard AKhieu VChimnoi WChhoun CHigh prevalence of Ancylostoma ceylanicum hookworm infections in humans, Cambodia, 2012. Emerg Infect Dis2014;20:97682 . DOIPubMed
  5. Ngui RMahdy MAChua KHTraub RLim YAGenetic characterization of the partial mitochondrial cytochrome oxidase c subunit I (cox 1) gene of the zoonotic parasitic nematode, Ancylostoma ceylanicum from humans, dogs and cats. Acta Trop2013;128:1547DOIPubMed
  6. Carroll SMGrove DIExperimental infection of humans with Ancylostoma ceylanicum: clinical, parasitological, haematological and immunological findings. Trop Geogr Med1986;38:3845 .PubMed
  7. Ngui RLim YAIsmail WHLim KNMahmud RZoonotic Ancylostoma ceylanicum infection detected by endoscopy. Am J Trop Med Hyg.2014;91:868 . DOIPubMed
  8. Chung CSLin CKSu KELiu CYLin CCLiang CCDiagnosis of Ancylostoma ceylanicum infestation by single-balloon enteroscopy. Gastrointest Endosc2012;76:6712DOIPubMed
  9. Hsu YCLin JTImages in clinical medicine. Intestinal infestation with Ancylostoma ceylanicum. N Engl J Med2012;366:e20 . DOIPubMed
  10. Ropars NTisseau LDarrieux LSafa GHookworm-related cutaneous larva migrans acquired in Brittany: a little-known endemic area? Ann Dermatol Venereol2015;142:2856 . DOIPubMed


Suggested citation for this article: Brunet J, Lemoine J.P, Lefebvre N, Denis J, Pfaff AW, Abou-Bacar A, et al. Bloody diarrhea associated with hookworm infection in traveler returning to France from Myanmar [letter]. Emerg Infect Dis. 2015 Oct [date cited]. http://dx.doi.org/10.3201/eid2110.150695

DOI: 10.3201/eid2110.150695

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