Surveillance of Zoonotic Parasites in Animals Involved in Animal-Assisted Interventions (AAIs).

Animal-assisted interventions (AAIs) are based on the establishment of a therapeutic relationship between animals and beneficiaries that is certain to provide positive effects, while currently, it reads as if AAIs aim at exposing stakeholders to potential risk of infection. The surveillance of zoonotic pathogens is necessary for guaranteeing common health. This study investigated the presence of potentially zoonotic parasites, including dermatophytes, in animals involved in AAIs. Between 2015 and 2017, 190 animals (equids, dogs, cats, birds, rabbits, rodents, and goats) were investigated. Anamnestic and management data were recorded. Individual faecal samples were analysed using a copromicroscopic procedure. Fur and skin were examined for ectoparasites during clinical examinations, and samples for mycological investigation were collected by brushing. Parasites were described in 60 (31.6%) investigated animals. Thirteen out of the 60 (21.7%) animals harboured potentially zoonotic parasites, mainly recovered in dogs (Ancylostomatidae, Eucoleusaerophilus, Toxocaracanis, and Giardiaduodenalis) and a cat (G.duodenalis). Nannizziagypsea and Paraphytonmirabile, potential agents of cutaneous mycosis, were isolated in a dog and a horse, respectively. No ectoparasites were found. AAIs might represent a source of infections either directly or via environmental contamination. Thus, active surveillance is necessary and animal screenings should be planned and scheduled according to the risk of exposure.

Rhodnius prolixus Colonization and Trypanosoma cruzi Transmission in Oil Palm (Elaeis guineensis) Plantations in the Orinoco Basin, Colombia.

Trypanosoma cruzi is the etiological agent of Chagas disease that infects more than seven million people in Latin America. The parasite is transmitted by triatomine insects, of which some species are often associated with palms. The establishment of oil palm plantations (Elaeis guineensis) in the Orinoco region (Colombia) has been rapidly growing, possibly constituting a new environment for the establishment and increase in triatomine populations. In this study, the potential of Rhodnius prolixus to colonize E. guineensis plantations and maintain T. cruzi transmission was assessed. Fieldwork was conducted in two areas located in the department of Casanare for sampling E. guineensis and Attalea butyracea palms, sampling for triatomines to determine their abundance and prevalence of T. cruzi infection. To assess T. cruzi transmission potential in the area, sylvatic and domestic mammals were sampled. Results showed that palm infestation with triatomines was higher in A. butyracea than in E. guineensis palms and T. cruzi infection in triatomines varied between habitats for one study area, but was constant in the other site. Trypanosoma cruzi-infected mammals in the E. guineensis plantations were mainly generalist rodents, suggesting that these mammals could have an important role in T. cruzi transmission in plantations. In conclusion, E. guineensis plantations in the Orinoco region are suitable habitats for R. prolixus and T. cruzi transmission.

Simalikalactone D is responsible for the antimalarial properties of an Amazonian traditional remedy made with Quassia amara L. (Simaroubaceae).

French Guiana (North-East Amazonia) records high malaria incidence rates. The traditional antimalarial remedy most widespread there is a simple tea made out from Quassia amara L. leaves (Simaroubaceae). This herbal tea displays an excellent antimalarial activity both in vitro and in vivo. A known quassinoid, simalikalactone D (SkD), was identified as the active compound, with an IC(50) value of 10nM against FcB1 Plasmodium falciparum chloroquine resistant strain in vitro. Lastly, it inhibits 50% of Plasmodium yoelii yoelii rodent malaria parasite at 3.7 mg/kg/day in vivo by oral route. These findings confirm the traditional use of this herbal tea.

[Timing niches of 3 species of Plasmodium coexisting in a rodent in Central Africa]. / Niches horaires des trois espèces de Plasmodies coexistant chez un Rongeur de Centrafrique.

Freeze-thawing of blood infected with malaria parasites is a technique which brings about the destruction of all stages except the merozoites and makes possible investigations on the behaviour of these merozoites and the schizogonic rhythm of each species. Merozoites of Plasmodium y. yoelii remain in the blood during the 24 hrs. following inoculation; it is concluded that their penetration in the erythrocytes occurs gradually during this time. Synchronism is poor. Merozoites of P. vinckei petteri penetrate rapidly inside the erythrocytes independently of the time of inoculation. Infection is therefore synchronous and does not follow the circadian rhythm of the host. Penetration of merozoites of P. c. chabaudi is predominant at midnight when rodents are maintained with a normal circadian rhythm (light from 8 am to 8 pm) and predominant at noon when the rhythm of the host is inverted (light from 8 pm to 8 am). Infection is therefore synchronous and follows the host rhythm. The three species of plasmodia coexisting in Thamnomys rutilans from CAR show the same periodicity of 24 hrs. but, because of differences in the biology of the merozoites, they occupy three distinct niches. These notions have great practical implications in chronotherapy, as many data lead to the idea that merozoites are drug resistant.

Studies with Brugia pahangi. 20. An investigation of 23 anthelmintics using different screening techniques.

23 anthelmintics were tested against Brugia pahangi microfilariae and infective larvae in vitro and in Aedes aegypti infected with B. pahagi and jirds (Meriones unguiculatus) infected with a B. pahangi/patei hybrid. There was little correlation between the results obtained in vitro and in infected insects and the results obtained in these tests gave no indication of the activity in jirds. Three of the compounds were macrofilaricidal in jirds and these were tested in cats infected with B. pahangi. One of these--5-benzamido-2(4-thiazolyl)-benzimidazole--was macrofilaricidal in cats and it is suggest that it should be tested in other filarial systems. It is concluded that the insect and in vitro tests are not good primary screens for filaricidal activity.

[Preliminary results of the use of a new rodent filaria, Dipetalonema dessetae (Bain, 1973), in the evaluation of filaricides]. / Résultats préliminaires sur l'utilisation d'une nouvelle filaire de rongeur Dipetalonema dessetae (Bain, 1973) dans l'évaluation des antifilariens

The sensitivity of this filarial worm living in his natural host has been identified with respect to 2 well known filaricidal compounds. With diethylcarbamazine the microfilaremia drops rapidly but not completely and a long term treatment destroys the adults. Suramin is toxic to the adults and to the microfilariae. This experimental model is therefore more sensitive than anything presently available.