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Revista MVZ Córdoba

Print version ISSN 0122-0268

Rev.MVZ Cordoba vol.22 no.3 Córdoba Sep./Dec. 2017

https://doi.org/10.21897/rmvz.1137 

Brief communication

Dermatophyte colonization in rabbits kept in pet stores of Santiago of Chile

Colonización por dermatofitos en conejos mantenidos en tiendas de mascotas de Santiago de Chile

Pamela Thomson M Ph.D1  * 

Pamela Monsalves Lic1 

Liliana Maier M.Sc1 

María José Rojas Lic1 

1 Universidad Santo Tomás, Facultad de Medicina Veterinaria, Unidad de Microbiología, Santiago, Chile.


ABSTRACT

Objective.

The dermatophytes are keratinophilic fungi, of importance in public health because of their anthropozoophilic nature. Given the increasing acquisition of exotic animals as pets and the scarce studies on the state of colonization by dermatophytes on these animals; we raised the objective of determine the presence of dermatophytes in clinically healthy rabbits (Oryctolagus cuniculus) from pet stores in Santiago, Chile.

Materials and Methods.

42 clinically healthy rabbits were studied. Clinical specimens were obtained from the hairy mantle and cultivated on Sabouraud glucose agar and dermatophyte test medium (DTM™); the identification of the fungal isolates was performed using classic mycological procedures that included direct microscopic examination and the analysis of micromorphological features on culture.

Results.

Of the total number of rabbits studied, three (7.1%) presented colonization by dermatophytes, being more frequent in males and in those animals that coexisted with Guinea Pigs. The species identified in all three cases was Trichophyton mentagrophytes.

Conclusions.

This study evidence colonization by dermatophytes in domestic rabbits, important information for veterinarians and owners of pets, at the time of being in contact with this animal species.

Key words: Trichophyton mentagrophytes; colonization; dermatophyte; rabbits (Source: CAB)

RESUMEN

Objetivo.

Los dermatofitos son hongos queratinofílicos, de importancia en salud pública por su rol antropozoofílico. Dado el aumento en la adquisición de animales exóticos como mascotas y los escasos estudios sobre el estado de colonización por dermatofitos en estos animales, nos planteamos el objetivo de determinar la presencia de dermatofitos en conejos (Oryctolagus cuniculus) clínicamente sanos procedentes de tiendas de mascotas en Santiago de Chile.

Materiales y Métodos.

Se estudiaron 42 conejos clínicamente sanos. Las muestras clínicas se obtuvieron desde el manto piloso y cultivadas en agar Sabouraud glucosado y dermatophyte test medium (DTM®). La identificación del agente aislado fue realizada por procedimientos micológicos clásicos que incluyeron examen microscópico directo y cultivo.

Resultados.

Del total de conejos estudiados, tres (7,1%) presentaron colonización por dermatofitos, siendo más frecuente en machos y en aquellos animales que convivían con cuyes. La especie identificada en los tres casos fue Trichophyton mentagrophytes.

Conclusiones.

Este estudio evidencia la colonización por dermatofitos en conejos domésticos, información importante para médicos veterinarios y propietarios de mascotas, al momento de estar en contacto con esta especie animal.

Palabras clave: Trichophyton mentagrophytes; colonización; dermatofitos; conejos (Fuente: CAB)

INTRODUCTION

Dermatophytoses are cutaneous diseases caused by filamentous fungi called dermatophytes, capable of invading and remaining in keratinized tissues, such as the stratum corneum of the skin, hair and nails; using keratin as their main source of energy 1-4.

Currently these fungi belong to the family Arthrodermataceae, which includes 9 well defined phylogenetically and morphologically genera 5, within which Microsporum and Trichophyton are responsible for most of the infections described in pets and exotic animals, such as dogs, cats, rabbits, guinea pigs, ferrets and hedgehogs 1-4,6-13. Those that live in a close relationship with human beings have a negative impact on their health, due to the risk of transmitting these fungi from an infected or colonized animal 4,6,13.

Due to the increase in queries for exotic animals in veterinary clinics and the limited information that exists regarding the state of colonization by dermatophytes in rabbits, the objective of this study was to determine the presence of dermatophytes in clinically healthy rabbits from pet stores in the Northern area of the city of Santiago de Chile.

MATERIALS AND METHODS

Samples. In the period between October and December 2015, 42 samples were analyzed, from the skin surface of 42 rabbits (Oryctolagus cuniculus), kept inside metal cages, living (17) or not (25) with guinea pigs, from four Pet stores from the Northern sector of the city of Santiago de Chile.

Inclusion and exclusion criteria. Clinically healthy rabbits were chosen randomly, without differentiating between sex, race or age group. Animals with any underlying disease and presence of lesions on skin and / or hair coat were excluded.

Sampling. Before the sample was taken, a clinical examination of the rabbits was carried out, by visual inspection and palpation, recording background such as age, sex, breed, type of feeding and coexistence with other animals in a clinical record. Sampling was done by separating the hair of the animal, then rubbing the entire surface of the hair coat with a sterile dressing of 3x3 cm2 11. The samples were labeled and subsequently sown by printing on Sabouraud glucose agar (ASG, Oxoid®) and Dermatophyte Test Medium (DTM, Himedia®).

Culture and identification. Incubation was carried out at 25°C under aerobic conditions with a biweekly observation for 21 days. The cultures that presented growth morphologically coincident with dermatophytes were isolated and replicated in ASG. The identification of genus and species was made based on the characterization of the colony and microscopic morphology of the fruiting structures of the dermatophyte, using a previously described classification key 14.

RESULTS

Of the 42 sampled rabbits (34 females and 8 males), three (7.1%) presented colonization by dermatophytes. Of these, two were isolated from male rabbits, while the other was recovered from a female.

The animals studied ranged in age from 3 to 6 months and were of the following breeds: rabbits with fallen ears, lion heads, and European rabbits. The three isolations were obtained from the lion head rabbits.

Regarding coexistence with guinea pigs, of the 17 rabbits that lived with them, two presented positive culture to dermatophytes, as shown in Table 1, showing a trend between coexistence and colonization by these fungi.

Table 1 Dermatophyte isolated from 42 rabbits (Oryctolagus cuniculus) according to sex and coexistence with guinea pigs. 

Number of rabbits Nº of rabbits that cohabit with spouses (n= 17) Nº of rabbits that cohabit without spouses (n= 25) Total Nº (%) of rabbits (n=42)
Positive Negative Positive Negative Positive Negative
Females (34) 0 15 1 18 1 (3%) 33 (78.6%)
Males (8) 2 0 0 6 2 (25%) 6 (14.3%)
Total (42) 2 15 1 24 3 (7.1%) 39 (92.8%)

The dermatophyte species identified in the three cases was Trichophyton mentagrophytes. In ASG, the isolates of this species were characterized macroscopically, because they show flat, yellowish-cream colored colonies, slightly darker in the central area. The mycelium was pulverulent or granular. Microscopically, the most consistent feature was the production of globose microconidia arranged in grape clusters. The macroconidia were almost completely absent; they were thin with smooth walls, in the shape of a cigar with a narrow anchorage at the base and the presence of spiral hyphae.

DISCUSSION

Dermatophytoses are skin infections that affect a wide range of animals, including rabbits (Oryctolagus cuniculus), which have been progressively incorporated as pets; thus, increasing the risk of transmission of these infections to humans.

The rate of colonization by dermatophytes in rabbits observed in this study was similar to that reported by d’Ovidio and Santoro in Italy 4, who found 3.3% colonization when 455 rabbits were studied. However, it differs from the only study conducted in Chile where a frequency of 54.7% of dermatophytes was found in healthy rabbits, with M. canis being the only isolated species 15.

In this investigation, a trend was observed between the frequency of colonization by dermatophytes and coexistence with guinea pigs; agreeing with previous publications, 4,10,11,18 it would be interesting to confirm this information with additional studies in the country, where a greater number of animals is included; given the probability of transmission of these fungi between animals when they are in direct contact, for example sharing the same cage.

The only isolated species in this study was T. mentagrophytes, which presented macro and micromorphological characteristics consistent with what was previously described 14. Different authors point to this species as the most frequent to isolate in rabbits 1-4,8,10,12,13. However, they differ from that reported by Zaror et al., 1988 almost three decades ago in the Southern part of Chile; where M. canis was identified in all the samples analyzed, obtained from the hair mantle of Angora rabbits 15.

According to the results of this research, maintain a cleaning and disinfection protocol, perform clinical and mycological surveillance and separate carrier animals from those that are not; would help reduce the possibility of dermatophyte transmission between individuals.

REFERENCES

1. Cafarchia C, Camarda A, Coccioli C, Figueredo LA, Circella E, Danesi P, et al. Epidemiology and risk factors for dermatophytoses in rabbit farms. Med Mycol 2010; 48(7):975-980. [ Links ]

2. Nweze EI. Dermatophytoses in domesticated animals. Rev Inst Med Trop Sao Paulo. 2011; 53(2):94-99 [ Links ]

3. Kraemer A, Hein J, Heusinger A, Mueller RS. Clinical signs, therapy and zoonotic risk of pet guinea pigs with dermatophytosis. Mycoses 2013; 56(2):168-172 [ Links ]

4. d'Ovidio D, Santoro D. Survey of zoonotic dermatoses in client-owned exotic pet mammals in Southern Italy. Zoonoses Public Health 2015; 62(2):100-104 [ Links ]

5. de Hoog, G.S., Dukik, K., Monod, M. et al. Mycopathologia 2017; 182:5-31. [ Links ]

6. Torres J, Martínez A. Importance of rabbits as source of human tinea. Medical Mycology 2008; 15(2):89-94 [ Links ]

7. Cafarchia C, Weigl S, Figueredo LA, Otranto D. Molecular identification and phylogenesis of dermatophytes isolated from rabbit farms and rabbit farm workers. Vet Microbiol 2012; 154(3-4):395-402 [ Links ]

8. Kraemer A, Mueller RS, Werckenthin C, Straubinger RK, Hein J. Dermatophytes in pet guinea pigs and rabbits. Vet Microbiol 2012; 25(1-2):208-213. [ Links ]

9. Dabrowska I, Dworecka B, Brillowska A. The use of a one-step PCR method for the identification of Microsporum canis and Trichophyton mentagrophytes infection of pets. Acta Biochim Pol 2014; 61(2):375-378 [ Links ]

10. d'Ovidio D, Grable SL, Ferrara M, Santoro D. Prevalence of dermatophytes and other superficial fungal organisms in asymptomatic guinea pigs in Southern Italy. J Small Anim Pract 2014; 55(7):355-358 [ Links ]

11. Thomson P, Monsalves P, Maier L, Silva V. Dermatophyte colonization on guinea pigs (Cavia porcellus) kept in pet stores. First report from Santiago, Chile. Rev Iberoam Micol 2015; 32(2):103-105 [ Links ]

12. Mesquita JR, Vasconcelos-Nóbrega C, Oliveira J, Coelho C, Vala H, Fratti M, et al. Epizootic and epidemic dermatophytose outbreaks caused by Trichophyton mentagrophytes from rabbits in Portugal, 2015. Mycoses 2016; 59(10):668-673. [ Links ]

13. Allizond V, Tullio V, Cuffini AM, Roana J, Scalas D, Marra ES, et al. Advances in microbiology, infectious diseases and public health: fungal occurrence in the hair and skin of symptomatic pets in Turin, Italy. Adv Exp Med Biol 2016; 897:55-62. [ Links ]

14. de Hoog GS, Guarro J, Gené J, Figueras M. Atlas of clinical fungi. 2nd ed. Central Bureau voor Schimmecultures, Utrecht, The Netherland; 2000. [ Links ]

15. Zaror L, Casas S. Microsporum canis in healthy angora rabbits (Valdivia, Chile). Zentralbl Veterinarmed B 1988; 35(3):204-206. [ Links ]

Received: July 2016; Accepted: April 2017

* Correspondence: ptm_thomson@hotmail.com

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