Jump to content

Dirofilaria repens

Dirofilaria repens
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Nematoda
Class: Chromadorea
Order: Rhabditida
Family: Onchocercidae
Genus: Dirofilaria
Species:
D. repens
Binomial name
Dirofilaria repens
Railliet & Henry 1911

Dirofilaria repens is a filarial nematode that affects dogs and other carnivores such as cats, wolves, coyotes, foxes, and sea lions, as well as muskrats. It is transmitted by mosquitoes. Although humans may become infected as aberrant hosts, the worms fail to reach adulthood while infecting a human body.

Epidemiology

It is most often found in the Mediterranean region, sub-Saharan Africa, and Eastern Europe. Italy bears the highest burden of European dirofilariasis cases in humans [citation needed]: (66%), followed by France (22%), Greece (8%), and Spain (4%). In Europe, the parasite has spread as far north as Estonia.[1]

Lifecycle

The lifecycle of D. repens consists of five larval stages in a vertebral host and an arthropod (mosquito) intermediate host and vector. In the first stage, mated adult female worms produce thousands of microfilariae (larvae) into the circulation daily, which are ingested by mosquitoes in a blood meal. Larvae develop into infective larvae within the mosquito over the next 10–16 days, depending on environmental conditions, before being reintroduced back into a new host.[2] Microfilariae undergo secondary developmental changes in the insect. For the final two stages of development, third-stage larvae are inoculated back into a vertebral host during an act of feeding. The adults of D. repens reside in the subcutaneous tissues of dogs and cats, where they mature in 6–7 months. Adult worms are 1–2 mm in diameter (females are 25–30 cm in length, the males being shorter).[citation needed]

Humans are accidental hosts because adult worms cannot reach maturity in the heart or in the skin. Most infective larvae introduced into humans are thought to die; therefore, infected individuals usually are not microfilaremic. Human disease is amicrofilaremic.

Infections in humans

Retro-ocular nodule of a D. repens worm detected in a 20-year-old woman, Rostov-na-Donu, Russia: The cyst (arrows) is shown by computed tomography scan (A) and magnetic resonance imaging (B). Ultrasonography image (C) shows a worm-like structure inside the cyst (arrow), and color Doppler imaging (D) shows marginal vascularization of the lesion).

Infections in humans[3] usually manifest as a single subcutaneous nodule, which is caused by a macrofilaria that is trapped by the immune system. Subcutaneous migration of the worm may result in local swellings with changing localization. In addition, rare cases of organ manifestation have been reported, affecting the lung, male genitals, female breast, or the eye. The latter is found in particular during the migratory phase of the parasite. D. repens occurs more commonly in adults (aged 40–49 years). The only exception is in Sri Lanka, where children younger than nine years are most likely to be infected. The youngest individual reported was aged four months.[4]

Diagnosis

Final diagnosis is established by microscopic examination of the excised worm. Making a definite species diagnosis on morphologic grounds is difficult, because a large number of zoonotic Dirofilaria species have been described that share morphologic features with D. repens.

Treatment

Antifilarial medication for infected humans generally is not supported in the medical literature.[2] One group of authors has recommended a single dose of ivermectin followed by three doses of diethylcarbamazine if the syndrome is recognized prior to surgery. However, most cases are diagnosed retrospectively, when histopathological sections of biopsy or excision material are viewed. In terms of surgical care, excision of lesions and affected areas is the treatment of choice for patients with human dirofilariasis. Some authors have recommended a period of observing chest coin lesions for several months if dirofilariasis is suspected and no other features in the history or examination suggesting malignancy or other infection are present. Also, no specific diet is recommended for patients with dirofilariasis.[citation needed]

References

  1. ^ Jokelainen, P; Mõtsküla, PF; Heikkinen, P; Ülevaino, E; Oksanen, A; Lassen, B (2016). "Dirofilaria repens Microfilaremia in Three Dogs in Estonia". Vector-Borne and Zoonotic Diseases. 16 (2): 136–138. doi:10.1089/vbz.2015.1833. PMID 26789635.
  2. ^ a b "Dirofilariasis", Author: Michael D Nissen, MBBS, BMedSc, FRACP, FRCPA, Associate Professor in Biomolecular, Biomedical Science & Health, Griffith University; Director of Infectious Diseases and Unit Head of Queensland Paediatric Infectious Laboratory, Sir Albert Sakzewski Viral Research Centre, Royal Children's Hospital Coauthor(s): John Charles Walker, MSc, PhD, Head, Department of Parasitology, Center for Infectious Diseases and Microbiology, Westmead Hospital, Westmead, Australia; Senior Lecturer, Department of Medicine, University of Sydney, Australia
  3. ^ Sven Poppert, Maike Hodapp, Andreas Krueger, Guido Hegasy, Wolf-Dirk Niesen, Winfried V. Kern, and Egbert Tannich (November 2009). "Dirofilaria repens Infection and Concomitant Meningoencephalitis". Emerg. Infect. Dis. 15 (11): 1844–1846. doi:10.3201/eid1511.090936. PMC 2857255. PMID 19891881.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  4. ^ Schmidt, GD, Robert, LS (2009). Foundations of Parasitology. New York, New York. McGraw-Hill Companies, Inc.

See what we do next...

OR

By submitting your email or phone number, you're giving mschf permission to send you email and/or recurring marketing texts. Data rates may apply. Text stop to cancel, help for help.

Success: You're subscribed now !