Seroprevalence of Toxoplasma gondii in domestic cats in tropical region of Serra da Tiririca State Park, Niterói, Rio de Janeiro

Freitas, R.L.; Consalter, A.; Spyrides, A.F.S.; Dória, P.B.A.; Albuquerque, G.L.; Bruno, S.F.; Barbosa, C.G.; Ferreira, A.M.R.

doi:10.1590/1678-4162-12411

ABSTRACT

The present study aimed to determine the seroprevalence of anti-T. gondii antibodies in cats of the Serra da Tiririca State Park region using the IFAT to evaluate the sex and age variables. The cats were domiciled in the region of Serra da Tiririca State Park (PESET-RJ), Rio de Janeiro. Between 2015 and 2016, a total of 86 blood samples were collected from 35 female and 51 male semi-domiciled cats that were attended to by a spay-neuter program of UFF. Samples were evaluated for anti-T. gondii immunoglobulin G by the indirect immunofluorescence reaction (IFAT) with a cut-off point of 1:40. Of the samples analyzed, 29.07% (25/86) presented anti-T gondii antibodies. There was no significant association (P> 0.05) between the variables sex and age of the animals with serology results. The results obtained in this study suggest that T. gondii has a considerable distribution among the cats of the studied region (PESET-RJ). This is the first report of the seroprevalence of T. gondii in cats from this area. Age and gender were not considered risk factors for infection by T. gondii in this group of animals studied.

Keywords:
Toxoplasmosis; serology; cats; IFAT

RESUMO

O presente estudo teve como objetivo determinar a soroprevalência de anticorpos anti-Toxoplasma gondii em felinos da região do Parque Estadual da Serra da Tiririca (PESET-RJ), Rio de Janeiro, utilizando a IFAT para avaliar as variáveis de sexo e idade. Os gatos são oriundos da região do Parque Estadual da Serra da Tiririca (PESET-RJ), Niterói, Rio de Janeiro (RJ). Entre 2015 e 2016, um total de 86 amostras de sangue de felinos foi coletado de 35 fêmeas e 51 machos semidomiciliados, atendidos pelo Programa de Esterilização da UFF. As amostras foram avaliadas para pesquisa de anticorpos da classe imunoglobulina G (IgG) anti-T. gondii pela reação de imunofluorescência indireta (RIFI) com ponto de corte de 1:40. Das amostras analisadas, 29,07% (25/86) apresentaram anticorpos anti-T gondii. Não se observou associação significativa (P>0,05) entre as variáveis sexo e idade dos animais com os resultados da sorologia. Os resultados obtidos neste estudo sugerem que T. gondii possui uma distribuição considerável entre os felinos da região estudada (PESET-RJ). Este é o primeiro relato de soroprevalência de T. gondii em felinos desta área. Idade e sexo não foram considerados fatores de risco para infecção por T. gondii neste grupo de animais estudados.

Palavras-chave:
toxoplasmose; sorologia; gatos; IFAT

INTRODUCTION

Toxoplasma gondii is a protozoan belonging to the family Sarcocystidae and the class Sporozoa. It is an obligatory intracellular parasite with the definitive host being domestic and wild felines and is one of the most widely studied parasites due to its veterinary importance (Dubey et al., 2016DUBEY, J.P.; FERREIRA, L.R.; ALSAAD, M. et al. Experimental toxoplasmosis in rats induced orally with eleven strains of Toxoplasma gondii of seven genotypes: tissue tropism, tissue cyst size, neural lesions, tissue cyst rupture without reactivation, and ocular lesions. Plos One, v.11, p.e0156255, 2016.; Ahn et al., 2019AHN, K.S.; AHN, A.J.; PARK, S.I. et al. Excretion of toxoplasma gondii oocysts from feral cats in Korea. Korean J. Parasitol., v.57, p.665-670, 2019.). The intermediary hosts of T. gondii include humans, other mammals, and birds that are infected through the ingestion of tissue cysts, soil and water contaminated by oocysts, or by congenital transmission, and the disease can affect a variety of cells from different tissues (Bastos et al., 2014BASTOS, B.F.; BRENER, B.; GERSHONY, L. et al. Seroprevalence of Toxoplasma gondii (Nicole & Manceaux, 1909) and retroviral status of client-owned pet cats (Felis catus, Linnaeus, 1758) in Rio de Janeiro, Brazil. Rev. Inst. Med. Trop. São Paulo, v.56, p.201-203, 2014.).

Toxoplasmosis is a zoonotic disease of cosmopolitan distribution; moreover, it causes severe changes in fetuses, humans, and immunosuppressed populations (Wyrosdick and Schaefer, 2015WYROSDICK, H.M.; SCHAEFER, J.J. Toxoplasma gondii: history and diagnostic test development. Anim. Health Res. Rev., v.16, p.150-162, 2015.). The determination of seroprevalence in cats is essential from the epidemiological point of view since there have been reports of outbreaks associated with infections derived from the presence of oocysts in the environment (Dubey et al., 2020DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.).

Domestic and wild cats are important in the T. gondii cycle, as they are the only known definitive hosts. This contributes singularly to the perpetuation of the parasite (Wyrosdick and Schaefer, 2015WYROSDICK, H.M.; SCHAEFER, J.J. Toxoplasma gondii: history and diagnostic test development. Anim. Health Res. Rev., v.16, p.150-162, 2015.; Dubey et al., 2020DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.). However, the most common mode of infection of this host is through the ingestion of sporulated oocysts from the environment or by the tissue stages of the parasite through the practice of carnivorism (Gonçalves Netto et al., 2003). The sexual reproduction of the parasite occurs in the gastrointestinal tract of cats (Martorelli Di Genova et al., 2019), which eliminates oocysts through their feces in the environment. These oocysts sporulate and become infective after 1-2 days, depending on temperature and humidity (Wei et al., 2016WEI, H.X.; HE, C.; YANG, P.L. et al. Relationship between cat contact and infection by toxoplasma gondii in humans: a meta-analysis. Comp. Parasitol., v.83, p.11-19, 2016.).

In Brazil, there is a large population of wandering cats, and little is known about the prevalence of T. gondii in these animals in the country (Dubey et al., 2012DUBEY, J.P.; LAGO, E.G.; GENNARI, S.M.; SU, C.; JONES, J.L. Toxoplasmosis in humans and animals in Brazil: high prevalence, high burden of disease, and epidemiology. Parasitology, v.139, p.1375-1424, 2012.). A single infected cat can eliminate millions of oocysts in the environment and may initiate an epidemiological outbreak of the disease (Dubey et al., 2020). The determination of seroprevalence is essential from the epidemiological point of view since there have been reports of outbreaks associated with infections derived from the presence of oocysts in the environment (Pena et al., 2006PENA, H.F.J.; SOARES, R.M.; AMAKU, M. et al. Toxoplasma gondii infection in cats from São Paulo state, Brazil: Seroprevalence, oocyst shedding, isolation in mice, and biologic and molecular characterization. Res. Vet. Sci., v.81, p.58-67, 2006.; Oliveira et al., 2000OLIVEIRA, C.S.; CAMILLO, G.; CADORE, G.C. et al. Detecção de anticorpos anti-Toxoplasma gondii em felinos domésticos. Rev. Inst. Adolfo Lutz, v.73, 2000. Disponível em: <http://revistas.bvs-vet.org.br/rialutz/article/view/27580/28904>. Acessado em: 25 jul.2017.
http://revistas.bvs-vet.org.br/rialutz/a... ).

The detection of T. gondii in cats is important to establish continuous investigation and monitoring of the serological status. The importance is not only for updating the epidemiological survey for feline toxoplasmosis in a population of a specific region but also to alert the owner of that seropositive cat, as cats develop good immunity to oocyst re-excretion; however, there is no guarantee that cats will only eliminate oocysts in feces once in their lives (Dubey et al., 2020DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.).

The present study aimed to determine the seroprevalence of anti-T. gondii antibodies in cats of the Serra da Tiririca State Park region using the indirect immunofluorescence technique (IFAT) to evaluate the sex and age variables. The felines could become infectious for other animals and humans living in this region. Therefore, the results of this study could be important since there is no data in the reviewed literature regarding the presence of this parasite in the studied region.

MATERIAL AND METHODS

This study was evaluated and approved by the Commission on Ethics for the Use of Animals of the Fluminense Federal University (UFF) under protocol number 793/2016 and by the Ethics Commission on the Use of Animals of the Federal Rural University of Rio de Janeiro (UFRRJ) under the protocol number 136/2014.

The samples were collected in the Serra da Tiririca State Park (PESET-RJ) (22°48'; 23°00'S and 42°57'; 43°02' W), area of environmental protection of lagoons and forests of the Municipality of Niterói, in the state of Rio de Janeiro, in the period from 2015 to 2016. The PESET is an area of integral coastal protection formed by the chain of mountains called Serra da Tiririca. Currently, PESET has an area of 34.92km² [3,492 hectares; (Parque…, 2019)].

A total of 86 serum samples from semi-domiciled domestic felines were used for the cat sterilization Project of the tropical region, between the period 2015 and 2016. Among the sample felines, 35 were females, and 51 were males. 3-mL blood samples were obtained from each animal by venipuncture (jugular or femoral), 10mL tubes (Vacutainer, BD Biosciences, Franklin Lanes, NJ, USA), stored in tubes without anticoagulant (EDTA), and then centrifuged (3,000 rpm for 10 min) to obtain an aliquot of each serum then conditioned in an isothermal container at 5°C. The samples were identified and maintained at −20°C, and the serology was performed by indirect immunofluorescence reaction (IFAT).

All the 86 serum samples were evaluated using an indirect fluorescent antibody test (IFAT) for demonstrate of antibodies to T. gondii in the felines. The samples were diluted 1:40 in phosphate-buffered saline (PBS), pH 7.2, and prepared according to the manufacturer’s instructions (Imunoteste®, Toxoplasma (RIFI) - Felino, Imunodot, Jaboticabal, SP, Brazil). After incubation in a humid chamber at 37°C for 30 minutes, the diluted samples and positive and negative control were washed three times with PBS and dried for 5 minutes. Then, the prepared anti-feline IgG conjugate was added with Evans blue solution and incubated for another 30 min in a dark room in the oven at 37°C. After further washing with PBS, the slides were assembled and observed under a Zeiss Axio Lab a1 fluorescence microscope with a 40× objective. Samples were considered positive when they showed evident fluorescence.

The animals were submitted to a general clinical examination and identified through an epidemiological survey that included lifestyle, age, sex, and type of feeding. The age of the animals was estimated according to data from the owners, and they were classified into kittens (up to 1-year-old), young (1- to 3-year-old), and adults (3- to 8-year-old).

Statistical analysis of the association of serology results by IFAT with sex and age was performed using the chi-square (χ²) test, with a significance level of 0.05 (Vieira, 2015VIEIRA, S. Introdução à bioestatística. 5. ed. Rio de Janeiro: GEN Guanabara Koogan, 2015.).

RESULTS AND DISCUSSION

This study is the first report on the frequency of anti-T. gondii antibodies in semi-domiciled cats from the tropical region of Serra da Tiririca State Park (PESET-RJ) in the city of Niterói (R.J.). A total seroprevalence of 29.07% (25/86) was observed (Table 1). Ribeiro et al. (2015RIBEIRO, J.F.A.; MELCHERT, A.; GUIMARÃES-OKAMOTO, P.T.C.; MITTESTAINER, J.C.; JOAQUIM, S.F.; SARTORI, R..S. et al. Soroepidemiologia da infecção por Toxoplasma gondii em gatos atendidos em hospital veterinário de Botucatu, SP, Brasil. Vet. e Zootec. Disponível em: https://rvz.emnuvens.com.br/rvz/article/download/872/468/3745. 2015 dez.; 22(4): 591-596. Acessadi em 15 out. 2021.
https://rvz.emnuvens.com.br/rvz/article/... ) described a lower seroprevalence compared to the present study that reported a 10% prevalence of seropositivity in 100 samples of cats at FMVZ - Unesp Campus de Botucatu Veterinary Hospital (H.V). Also, in the city of Niterói, a study described a seroprevalence of 24.39% in a population of non-domiciled cats (GonçalvesNetto et al., 2003).

When we compared the T. gondii-positive animals in terms of sex, 40% (10/25) of seropositive females and 60% (15/25) of seropositive males. In terms of age, 32% (8/25) were kittens, 8% (2/25) were young, and 60% (15/25) of positive adults. No significant association (p>0,05) was observed between the sex and age of these animals with the serology results obtained in the IFAT.

Pereira et al. (2018PEREIRA, P.F.; SILVA, B.A.; CARVALHO, A.L.S. et al. Toxoplasma gondii: infection among shelter and stray cats in Rio de Janeiro, Brazil. Rev. Bras. Parasitol. Vet., 2018. Disponível em: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1984-29612018005012101&lng=en&tlng=en>. Acessado em: 15 out. 2021.
http://www.scielo.br/scielo.php?script=s... ) observed 21.9% of seropositivity among cats in a shelter and a set of condominiums in Rio de Janeiro. Toxoplasma gondii seroprevalence was 22.35% in feral cats at Trap‐Neuter‐Release clinics in Central Virginia, U.S.A. (Taetzsch et al., 2018TAETZSCH, S.J.; BERTKE, A.S.; GRUSZYNSKI, K.R. Zoonotic disease transmission associated with feral cats in a metropolitan area: A geospatial analysis. Zoonoses Public Health, v.65, p.412-419, 2018.). However, in Fernando de Noronha, Brazil, a high prevalence of anti-T. gondii antibodies were found in the pet (71.26%) and feral cats (54.74%) (Magalhães et al., 2017MAGALHÃES, F.J.R.; ANDRADE, M.R.; SOUZA, F.M. et al. Seroprevalence and spatial distribution of Toxoplasma gondii infection in cats, dogs, pigs and equines of the Fernando de Noronha Island, Brazil. Parasitol. Int., v.66, p.43-46, 2017.). The prevalence of T. gondii in cats depends on the animal’s lifestyle (free access to the external environment or not), age, diet, diagnostic method, and geographical location (Pena et al., 2006PENA, H.F.J.; SOARES, R.M.; AMAKU, M. et al. Toxoplasma gondii infection in cats from São Paulo state, Brazil: Seroprevalence, oocyst shedding, isolation in mice, and biologic and molecular characterization. Res. Vet. Sci., v.81, p.58-67, 2006.). In addition, the high prevalence of antibodies in cats indicates previous infection and excretion of T. gondii oocysts in the environment (Dubey et al., 2020DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.).

The results found in this study are also consistent with the data presented by Langoni et al. (2001LANGONI, H.; SILVA. A.V.; CABRAL, K.G. et al. Prevalência de toxoplasmose em gatos dos Estados de São Paulo e Paraná. Braz. J. Vet. Res. Anim. Sci., v.38, p.243-244, 2001.), who described a 27% seroprevalence of T. gondii in a domiciled cat population, in the states of São Paulo and Paraná, using the indirect immunofluorescence technique with a dilution of 1:16. However, the dilution was different from that performed in the present study, making comparisons between studies difficult. Unlike the results of the present study, a project from the region corresponding to the Zoological Garden of the city of Rio de Janeiro conducted for three years indicated an index of high prevalence (92.1%) of T. gondii in felines in the first year of the study, with a decline in incidence in the following years (63.1% in the second year and 60.6% in the third year), among the total 75 samples studied. The authors pointed out that one of the essential factors for the fall in these indices was adopting the population control program in this area (Mendes-de-Almeida et al., 2007).

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Table 1
Seroprevalence of Toxoplasma gondii in domestic cats in tropical region of Serra da Tiririca State Park, Niterói-RJ according to sex, age, lifestyle, and type of feed

The results presented in this study demonstrate the epidemiological importance of the parasite since these positive animals are in direct contact with humans and other animals of the region. Nonhuman primates are sensitive to T. gondii, and high mortality occurs when infected (Grumann et al., 2017GRUMANN, M.R.; SILVA, Z.; SILVA FILHO, J.R. et al. Immunohistochemical and serological aspects of Toxoplasma gondii infection in Neotropical primates. Semin. Ciênc. Agrár., v.38, p.1375, 2017.). A study on nonhuman primates from the PESET-RJ tropical region reported that these animals had direct contact with the local human population and domestic animals, frequently entering the houses and digging in the garbage, and may have some degree of contact with T. gondii oocysts (Molina et al., 2017MOLINA, C.V.; KRAWCZAK, F.S.; BUENO, M.G. et al. Negative serosurvey of Toxoplasma gondii antibodies in Golden-headed Lion Tamarin (Leontopithecus chrysomelas) from Niterói/RJ, Brazil. Rev. Bras. Parasitol. Vet., v.26, p.115-118, 2017.).

Based on the studies cited above, it can be suggested that domiciled cats fed with processed foods and restricted access to the street can reduce the exposure to T. gondii and possible infection (Bastos et al., 2014BASTOS, B.F.; BRENER, B.; GERSHONY, L. et al. Seroprevalence of Toxoplasma gondii (Nicole & Manceaux, 1909) and retroviral status of client-owned pet cats (Felis catus, Linnaeus, 1758) in Rio de Janeiro, Brazil. Rev. Inst. Med. Trop. São Paulo, v.56, p.201-203, 2014.). These factors were not observed in the animals used in this study since their owners allowed free access to the PESET-RJ tropical region environment, and feeding was not restricted. In addition, the infection may originate from the predation of other animals of the region, thereby exposing themselves to risk factors that may lead to T. gondii infection. Cats play an important role in the epidemiology of T. gondii infection in humans and other animals since they are the definitive hosts and the only ones that eliminate oocyst in feces (Pena et al., 2006PENA, H.F.J.; SOARES, R.M.; AMAKU, M. et al. Toxoplasma gondii infection in cats from São Paulo state, Brazil: Seroprevalence, oocyst shedding, isolation in mice, and biologic and molecular characterization. Res. Vet. Sci., v.81, p.58-67, 2006.; Martorelli Di Genova et al., 2019).

In humans, risk factors for T. gondii infection are associated with hygiene, diet, cultural habits, and climate. One of the routes of disease and potential exposure, besides the lack of environmental sanitation and consumption of contaminated food, points to domestic felines in the environment and living with humans. This aspect further establishes the importance of seropositivity of these animals in the environment in which they live (Moura et al., 2013MOURA, F.L.; AMENDOEIRA, M.R.R.; BASTOS, O.M.P. et al. Prevalence and risk factors for Toxoplasma gondii infection among pregnant and postpartum women attended at public healthcare facilities in the City of Niterói, State of Rio de Janeiro, Brazil. Rev. Soc. Bras. Med. Trop., v.46, p.200-207, 2013.). Prophylactic knowledge among the owners about the infection of T. gondii proves to be an important but not much-studied aspect as a preventive measure for the disease. Therefore, knowledge of these measures may reduce infection in both humans and their domestic animals (Vicente et al., 2014VICENTE, R.T.; MILLAR, P.R.; NICOLAU, J.L. et al. Seroepidemiology of Toxoplasma gondii infection in students of Veterinary Medicine and other courses of public universities in Rio de Janeiro State, Brazil. Rev. Patol. Trop., v.43, p.313-322, 2014.).

Although the present study region constitutes an Environmental Protection Area of Lagoons and Forests of the Municipality of Niterói, basic sanitation is not ensured, which generates a public health problem due to the formation of sewage in the region (Barros, 2008BARROS, A.A.M. Análise florística e estrutural do Parque Estadual da Serra da Tiririca, Niterói e Maricá, RJ, Brasil. Escola Nacional de Botânica Tropical, Rio Janeiro, Brasil, 2008. Disponível em: em:<http://observatorio.wwf.org.br/site_media/upload/gestao/documentos/nps6B6.tmp.pdf>. Acessado em: 25 jul. 2017.
http://observatorio.wwf.org.br/site_medi... ). This problem may result in possible environmental contamination and diseases such as toxoplasmosis in animals and humans living in the region. Studies demonstrate that untreated or unfiltered water consumption is a strong predictor of T. gondii seropositivity in endemic areas since the oocysts can remain viable for a long period in the water (Bahia-Oliveira et al., 2003). Also, the water was the source of transmission in Santa Maria, Rio Grande do Sul, of the largest outbreak of human toxoplasmosis ever identified in the world so far, with 809 confirmed cases (Minuzzi et al., 2020MINUZZI, C.E.; PORTELLA, L.P.; BRÄUNIG, P. et al. Isolation and molecular characterization of Toxoplasma gondii from placental tissues of pregnant women who received toxoplasmosis treatment during an outbreak in southern Brazil. Plos One, v.15, p.e0228442, 2020.).

When we compared the T. gondii-positive animals in terms of sex, 40% (10/25) of seropositive females and 60% (15/25) of seropositive males. In terms of age, 32% (8/25) were kittens, 8% (2/25) were young, and 60% (15/25) were positive adults. No significant difference was observed when the sex (p = 0.8729) and age (p = 0,4809) of these animals were compared with the serology results obtained in the IFAT.

In the present study, there was no significant association with the sex and age of the animals. Similar results were obtained by Pena et al. (2006PENA, H.F.J.; SOARES, R.M.; AMAKU, M. et al. Toxoplasma gondii infection in cats from São Paulo state, Brazil: Seroprevalence, oocyst shedding, isolation in mice, and biologic and molecular characterization. Res. Vet. Sci., v.81, p.58-67, 2006.) and Bresciani et al. (2007BRESCIANI, K.D.S.; GENNARI, S.M.; SERRANO, A.C.M. et al. Antibodies to Neospora caninum and Toxoplasma gondii in domestic cats from Brazil. Parasitol. Res., v.100, p.281285, 2007.), who reported no significant difference in the prevalence of infection between males and females, both of which are equally susceptible to T. gondii. According to (Dubey et al., 2020DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.) seropositivity increases as the cats age increases, as there is strong evidence that postnatal toxoplasmosis infection occurs. Although this association was not significant in these studies, the parasite presents numerous routes for disease transmission and a complex life cycle, including several risk factors such as specific populations and exposure to the environment.

The presence of its definitive infected host in each environment has a significant serological correlation between cats and humans, not by direct contact but by environmental contamination due to the cats’ ability to eliminate millions of oocysts in the environment, which further reinforces their importance in the life cycle of the parasite and dissemination of the disease independent of the sex and age of these animals (Oliveira et al., 2000OLIVEIRA, C.S.; CAMILLO, G.; CADORE, G.C. et al. Detecção de anticorpos anti-Toxoplasma gondii em felinos domésticos. Rev. Inst. Adolfo Lutz, v.73, 2000. Disponível em: <http://revistas.bvs-vet.org.br/rialutz/article/view/27580/28904>. Acessado em: 25 jul.2017.
http://revistas.bvs-vet.org.br/rialutz/a... ; Dubey et al., 2020DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.).

Indirect immunofluorescence reaction (IFAT) is a quick and practical technique with high specificity (97.0%) and sensitivity (96.0%) for cat specimens. It is used for routine serological tests in this species and others (Baneth et al., 2016BANETH, G.; THAMSBORG, S.M.; OTRANTO, D. et al. Major parasitic zoonoses associated with dogs and cats in Europe. J. Comp. Pathol., v.155, p.S54-S74, 2016.). Comparison of this technique with the indirect agglutination method showed small differences between the two methods, demonstrating the agreement results between the two serological tests with cats’ samples (Silva et al., 2002SILVA, A.V.; CUTOLO, A.A.; LANGONI, H. Comparação da reação de imunofluorescência indireta e do método de aglutinação direta na detecção de anticorpos anti-Toxoplasma em soros de ovinos, caprinos e caninos e felinos. Arq. Inst. Biol., v.69, p.7-11, 2002.). The IFAT serological diagnostic method for the detection of T. gondii antibodies used in this study was effective, quick, and simple.

A study on the seroprevalence of T. gondii in other animals from the state of Rio de Janeiro also showed a significant prevalence of the parasite in this region. In a more comprehensive study of horses from this state, a broad distribution of the parasite was observed in the regions studied, evidencing the presence of the parasite and its zoonotic potential (Venturi et al., 2017VENTURI, S.S.; SILVA, A.F.; TEIXEIRA, E.F. et al. Characterization of the zoonotic potential of Toxoplasma gondii in horses from Rio de Janeiro State. Acta Trop., v.171, p.159-162, 2017.).

Sheep and goats are also species with epidemiological relevance in Rio de Janeiro, being important sources of parasite transmission to humans through the consumption of undercooked meat and causing reproductive losses in these species (Silva et al., 2013SILVA, A.F.; OLIVEIRA, F.C.R.; LEITE, J.S. et al. Immunohistochemical identification of Toxoplasma gondii in tissues from modified agglutination test positive sheep. Vet. Parasitol., v.191, p.347-352, 2013.; Pereira et al., 2018PEREIRA, P.F.; SILVA, B.A.; CARVALHO, A.L.S. et al. Toxoplasma gondii: infection among shelter and stray cats in Rio de Janeiro, Brazil. Rev. Bras. Parasitol. Vet., 2018. Disponível em: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1984-29612018005012101&lng=en&tlng=en>. Acessado em: 15 out. 2021.
http://www.scielo.br/scielo.php?script=s... ).

The animals used in this study had access to the region of Serra da Tiririca State Park (PESET - RJ), acquiring direct contact with the biome belonging to the park and the people living in the region; the infected felines are potential sources of contamination of the environment and water. Thus, the interaction between domestic and wild animals and humans and the transmission of zoonotic agents such as T. gondii are approximated (Nunes et al., 2013NUNES, F.V.A.; VAEZ, J.R.; PINHEIRO, R.R. et al. Soroprevalência e fatores associados à infecção por Toxoplasma gondii em caprinos de propriedades rurais do município de Mossoró, RN. Pesqui. Vet. Bras., v.33, p.565-570, 2013.).

CONCLUSION

The results obtained in this study suggest that T. gondii has a considerable distribution among the cats of the studied region (PESET-RJ). This is the first report of the seroprevalence of T. gondii in cats from this area. Age and gender were not considered risk factors for infection by T. gondii in this group of animals studied.

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BARROS, A.A.M. Análise florística e estrutural do Parque Estadual da Serra da Tiririca, Niterói e Maricá, RJ, Brasil. Escola Nacional de Botânica Tropical, Rio Janeiro, Brasil, 2008. Disponível em: em:<http://observatorio.wwf.org.br/site_media/upload/gestao/documentos/nps6B6.tmp.pdf>. Acessado em: 25 jul. 2017.
» http://observatorio.wwf.org.br/site_media/upload/gestao/documentos/nps6B6.tmp.pdf
BASTOS, B.F.; BRENER, B.; GERSHONY, L. et al. Seroprevalence of Toxoplasma gondii (Nicole & Manceaux, 1909) and retroviral status of client-owned pet cats (Felis catus, Linnaeus, 1758) in Rio de Janeiro, Brazil. Rev. Inst. Med. Trop. São Paulo, v.56, p.201-203, 2014.
BRESCIANI, K.D.S.; GENNARI, S.M.; SERRANO, A.C.M. et al. Antibodies to Neospora caninum and Toxoplasma gondii in domestic cats from Brazil. Parasitol. Res., v.100, p.281285, 2007.
DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.
DUBEY, J.P.; FERREIRA, L.R.; ALSAAD, M. et al. Experimental toxoplasmosis in rats induced orally with eleven strains of Toxoplasma gondii of seven genotypes: tissue tropism, tissue cyst size, neural lesions, tissue cyst rupture without reactivation, and ocular lesions. Plos One, v.11, p.e0156255, 2016.
DUBEY, J.P.; LAGO, E.G.; GENNARI, S.M.; SU, C.; JONES, J.L. Toxoplasmosis in humans and animals in Brazil: high prevalence, high burden of disease, and epidemiology. Parasitology, v.139, p.1375-1424, 2012.
GONÇALVES NETTO, E.G.; MUNHOZ, A.D.; ALBUQUERQUE, G.R. et al. Ocorrência de gatos soropositivos para Toxoplasma gondii Nicolle e Manceaux, 1909 (Apicomplexa: Toxoplasmatinae) na cidade de Niterói, Rio de Janeiro. Rev. Bras. Parasitol. Vet., v.12, p.145-149, 2003.
GRUMANN, M.R.; SILVA, Z.; SILVA FILHO, J.R. et al. Immunohistochemical and serological aspects of Toxoplasma gondii infection in Neotropical primates. Semin. Ciênc. Agrár., v.38, p.1375, 2017.
LANGONI, H.; SILVA. A.V.; CABRAL, K.G. et al. Prevalência de toxoplasmose em gatos dos Estados de São Paulo e Paraná. Braz. J. Vet. Res. Anim. Sci., v.38, p.243-244, 2001.
MAGALHÃES, F.J.R.; ANDRADE, M.R.; SOUZA, F.M. et al. Seroprevalence and spatial distribution of Toxoplasma gondii infection in cats, dogs, pigs and equines of the Fernando de Noronha Island, Brazil. Parasitol. Int., v.66, p.43-46, 2017.
MARTORELLI DI GENOVA, B.; WILSON, S.K.; DUBEY, J.P.; KNOLL, L.J. Intestinal delta-6-desaturase activity determines host range for Toxoplasma sexual reproduction. PLOS Biol., v.17, p.e3000364, 2019.
MENDES-DE-ALMEIDA, F.; LABARTHE, N.; GUERRERO, J. et al. Follow-up of the health conditions of an urban colony of free-roaming cats (Felis catus Linnaeus, 1758) in the city of Rio de Janeiro, Brazil. Vet. Parasitol., v.147, p.9-15, 2007.
MINUZZI, C.E.; PORTELLA, L.P.; BRÄUNIG, P. et al. Isolation and molecular characterization of Toxoplasma gondii from placental tissues of pregnant women who received toxoplasmosis treatment during an outbreak in southern Brazil. Plos One, v.15, p.e0228442, 2020.
MOLINA, C.V.; KRAWCZAK, F.S.; BUENO, M.G. et al. Negative serosurvey of Toxoplasma gondii antibodies in Golden-headed Lion Tamarin (Leontopithecus chrysomelas) from Niterói/RJ, Brazil. Rev. Bras. Parasitol. Vet., v.26, p.115-118, 2017.
MOURA, F.L.; AMENDOEIRA, M.R.R.; BASTOS, O.M.P. et al. Prevalence and risk factors for Toxoplasma gondii infection among pregnant and postpartum women attended at public healthcare facilities in the City of Niterói, State of Rio de Janeiro, Brazil. Rev. Soc. Bras. Med. Trop., v.46, p.200-207, 2013.
NUNES, F.V.A.; VAEZ, J.R.; PINHEIRO, R.R. et al. Soroprevalência e fatores associados à infecção por Toxoplasma gondii em caprinos de propriedades rurais do município de Mossoró, RN. Pesqui. Vet. Bras., v.33, p.565-570, 2013.
OLIVEIRA, C.S.; CAMILLO, G.; CADORE, G.C. et al. Detecção de anticorpos anti-Toxoplasma gondii em felinos domésticos. Rev. Inst. Adolfo Lutz, v.73, 2000. Disponível em: <http://revistas.bvs-vet.org.br/rialutz/article/view/27580/28904>. Acessado em: 25 jul.2017.
» http://revistas.bvs-vet.org.br/rialutz/article/view/27580/28904
PARQUE Estadual da Serra da Tiririca. Rio de Janeiro: INEA, 2019. Disponível em: http://www.inea.rj.gov.br/biodiversidade- territorio/conheca-as-unidades-de-conservacao/parque-estadual-da-serra-da-tiririca Acessado em: 04/03/2021.
» http://www.inea.rj.gov.br/biodiversidade- territorio/conheca-as-unidades-de-conservacao/parque-estadual-da-serra-da-tiririca
PENA, H.F.J.; SOARES, R.M.; AMAKU, M. et al. Toxoplasma gondii infection in cats from São Paulo state, Brazil: Seroprevalence, oocyst shedding, isolation in mice, and biologic and molecular characterization. Res. Vet. Sci., v.81, p.58-67, 2006.
PEREIRA, P.F.; SILVA, B.A.; CARVALHO, A.L.S. et al. Toxoplasma gondii: infection among shelter and stray cats in Rio de Janeiro, Brazil. Rev. Bras. Parasitol. Vet., 2018. Disponível em: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1984-29612018005012101&lng=en&tlng=en>. Acessado em: 15 out. 2021.
» http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1984-29612018005012101&lng=en&tlng=en
RIBEIRO, J.F.A.; MELCHERT, A.; GUIMARÃES-OKAMOTO, P.T.C.; MITTESTAINER, J.C.; JOAQUIM, S.F.; SARTORI, R..S. et al. Soroepidemiologia da infecção por Toxoplasma gondii em gatos atendidos em hospital veterinário de Botucatu, SP, Brasil. Vet. e Zootec. Disponível em: https://rvz.emnuvens.com.br/rvz/article/download/872/468/3745 2015 dez.; 22(4): 591-596. Acessadi em 15 out. 2021.
» https://rvz.emnuvens.com.br/rvz/article/download/872/468/3745
SILVA, A.F.; OLIVEIRA, F.C.R.; LEITE, J.S. et al. Immunohistochemical identification of Toxoplasma gondii in tissues from modified agglutination test positive sheep. Vet. Parasitol., v.191, p.347-352, 2013.
SILVA, A.V.; CUTOLO, A.A.; LANGONI, H. Comparação da reação de imunofluorescência indireta e do método de aglutinação direta na detecção de anticorpos anti-Toxoplasma em soros de ovinos, caprinos e caninos e felinos. Arq. Inst. Biol., v.69, p.7-11, 2002.
TAETZSCH, S.J.; BERTKE, A.S.; GRUSZYNSKI, K.R. Zoonotic disease transmission associated with feral cats in a metropolitan area: A geospatial analysis. Zoonoses Public Health, v.65, p.412-419, 2018.
VENTURI, S.S.; SILVA, A.F.; TEIXEIRA, E.F. et al. Characterization of the zoonotic potential of Toxoplasma gondii in horses from Rio de Janeiro State. Acta Trop., v.171, p.159-162, 2017.
VICENTE, R.T.; MILLAR, P.R.; NICOLAU, J.L. et al. Seroepidemiology of Toxoplasma gondii infection in students of Veterinary Medicine and other courses of public universities in Rio de Janeiro State, Brazil. Rev. Patol. Trop., v.43, p.313-322, 2014.
VIEIRA, S. Introdução à bioestatística. 5. ed. Rio de Janeiro: GEN Guanabara Koogan, 2015.
WEI, H.X.; HE, C.; YANG, P.L. et al. Relationship between cat contact and infection by toxoplasma gondii in humans: a meta-analysis. Comp. Parasitol., v.83, p.11-19, 2016.
WYROSDICK, H.M.; SCHAEFER, J.J. Toxoplasma gondii: history and diagnostic test development. Anim. Health Res. Rev., v.16, p.150-162, 2015.

Publication Dates

Publication in this collection
30 May 2022
Date of issue
Mar-Apr 2022

History

Received
25 Apr 2021
Accepted
18 Feb 2022

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] AHN, K.S.; AHN, A.J.; PARK, S.I. et al. Excretion of toxoplasma gondii oocysts from feral cats in Korea. Korean J. Parasitol., v.57, p.665-670, 2019.

[2] BAHIA-OLIVEIRA, L.M.G.; JONES, J.L.; SILVA, J.A. et al. Highly endemic, waterborne toxoplasmosis in north Rio de Janeiro state, Brazil. Emerg. Infect. Dis., v.9, p.55, 2003.

[3] BANETH, G.; THAMSBORG, S.M.; OTRANTO, D. et al. Major parasitic zoonoses associated with dogs and cats in Europe. J. Comp. Pathol., v.155, p.S54-S74, 2016.

[4] BARROS, A.A.M. Análise florística e estrutural do Parque Estadual da Serra da Tiririca, Niterói e Maricá, RJ, Brasil. Escola Nacional de Botânica Tropical, Rio Janeiro, Brasil, 2008. Disponível em: em:<http://observatorio.wwf.org.br/site_media/upload/gestao/documentos/nps6B6.tmp.pdf>. Acessado em: 25 jul. 2017.
» http://observatorio.wwf.org.br/site_media/upload/gestao/documentos/nps6B6.tmp.pdf

[5] BASTOS, B.F.; BRENER, B.; GERSHONY, L. et al. Seroprevalence of Toxoplasma gondii (Nicole & Manceaux, 1909) and retroviral status of client-owned pet cats (Felis catus, Linnaeus, 1758) in Rio de Janeiro, Brazil. Rev. Inst. Med. Trop. São Paulo, v.56, p.201-203, 2014.

[6] BRESCIANI, K.D.S.; GENNARI, S.M.; SERRANO, A.C.M. et al. Antibodies to Neospora caninum and Toxoplasma gondii in domestic cats from Brazil. Parasitol. Res., v.100, p.281285, 2007.

[7] DUBEY, J.P.; CERQUEIRA-CÉZAR, C.K.; MURATA, F.H.A. et al. All about toxoplasmosis in cats: the last decade. Vet. Parasitol., v.283, p.109145, 2020.

[8] DUBEY, J.P.; FERREIRA, L.R.; ALSAAD, M. et al. Experimental toxoplasmosis in rats induced orally with eleven strains of Toxoplasma gondii of seven genotypes: tissue tropism, tissue cyst size, neural lesions, tissue cyst rupture without reactivation, and ocular lesions. Plos One, v.11, p.e0156255, 2016.

[9] DUBEY, J.P.; LAGO, E.G.; GENNARI, S.M.; SU, C.; JONES, J.L. Toxoplasmosis in humans and animals in Brazil: high prevalence, high burden of disease, and epidemiology. Parasitology, v.139, p.1375-1424, 2012.

[10] GONÇALVES NETTO, E.G.; MUNHOZ, A.D.; ALBUQUERQUE, G.R. et al. Ocorrência de gatos soropositivos para Toxoplasma gondii Nicolle e Manceaux, 1909 (Apicomplexa: Toxoplasmatinae) na cidade de Niterói, Rio de Janeiro. Rev. Bras. Parasitol. Vet., v.12, p.145-149, 2003.

[11] GRUMANN, M.R.; SILVA, Z.; SILVA FILHO, J.R. et al. Immunohistochemical and serological aspects of Toxoplasma gondii infection in Neotropical primates. Semin. Ciênc. Agrár., v.38, p.1375, 2017.

[12] LANGONI, H.; SILVA. A.V.; CABRAL, K.G. et al. Prevalência de toxoplasmose em gatos dos Estados de São Paulo e Paraná. Braz. J. Vet. Res. Anim. Sci., v.38, p.243-244, 2001.

[13] MAGALHÃES, F.J.R.; ANDRADE, M.R.; SOUZA, F.M. et al. Seroprevalence and spatial distribution of Toxoplasma gondii infection in cats, dogs, pigs and equines of the Fernando de Noronha Island, Brazil. Parasitol. Int., v.66, p.43-46, 2017.

[14] MARTORELLI DI GENOVA, B.; WILSON, S.K.; DUBEY, J.P.; KNOLL, L.J. Intestinal delta-6-desaturase activity determines host range for Toxoplasma sexual reproduction. PLOS Biol., v.17, p.e3000364, 2019.

[15] MENDES-DE-ALMEIDA, F.; LABARTHE, N.; GUERRERO, J. et al. Follow-up of the health conditions of an urban colony of free-roaming cats (Felis catus Linnaeus, 1758) in the city of Rio de Janeiro, Brazil. Vet. Parasitol., v.147, p.9-15, 2007.

[16] MINUZZI, C.E.; PORTELLA, L.P.; BRÄUNIG, P. et al. Isolation and molecular characterization of Toxoplasma gondii from placental tissues of pregnant women who received toxoplasmosis treatment during an outbreak in southern Brazil. Plos One, v.15, p.e0228442, 2020.

[17] MOLINA, C.V.; KRAWCZAK, F.S.; BUENO, M.G. et al. Negative serosurvey of Toxoplasma gondii antibodies in Golden-headed Lion Tamarin (Leontopithecus chrysomelas) from Niterói/RJ, Brazil. Rev. Bras. Parasitol. Vet., v.26, p.115-118, 2017.

[18] MOURA, F.L.; AMENDOEIRA, M.R.R.; BASTOS, O.M.P. et al. Prevalence and risk factors for Toxoplasma gondii infection among pregnant and postpartum women attended at public healthcare facilities in the City of Niterói, State of Rio de Janeiro, Brazil. Rev. Soc. Bras. Med. Trop., v.46, p.200-207, 2013.

[19] NUNES, F.V.A.; VAEZ, J.R.; PINHEIRO, R.R. et al. Soroprevalência e fatores associados à infecção por Toxoplasma gondii em caprinos de propriedades rurais do município de Mossoró, RN. Pesqui. Vet. Bras., v.33, p.565-570, 2013.

[20] OLIVEIRA, C.S.; CAMILLO, G.; CADORE, G.C. et al. Detecção de anticorpos anti-Toxoplasma gondii em felinos domésticos. Rev. Inst. Adolfo Lutz, v.73, 2000. Disponível em: <http://revistas.bvs-vet.org.br/rialutz/article/view/27580/28904>. Acessado em: 25 jul.2017.
» http://revistas.bvs-vet.org.br/rialutz/article/view/27580/28904

[21] PARQUE Estadual da Serra da Tiririca. Rio de Janeiro: INEA, 2019. Disponível em: http://www.inea.rj.gov.br/biodiversidade- territorio/conheca-as-unidades-de-conservacao/parque-estadual-da-serra-da-tiririca Acessado em: 04/03/2021.
» http://www.inea.rj.gov.br/biodiversidade- territorio/conheca-as-unidades-de-conservacao/parque-estadual-da-serra-da-tiririca

[22] PENA, H.F.J.; SOARES, R.M.; AMAKU, M. et al. Toxoplasma gondii infection in cats from São Paulo state, Brazil: Seroprevalence, oocyst shedding, isolation in mice, and biologic and molecular characterization. Res. Vet. Sci., v.81, p.58-67, 2006.

[23] PEREIRA, P.F.; SILVA, B.A.; CARVALHO, A.L.S. et al. Toxoplasma gondii: infection among shelter and stray cats in Rio de Janeiro, Brazil. Rev. Bras. Parasitol. Vet., 2018. Disponível em: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1984-29612018005012101&lng=en&tlng=en>. Acessado em: 15 out. 2021.
» http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1984-29612018005012101&lng=en&tlng=en

[24] RIBEIRO, J.F.A.; MELCHERT, A.; GUIMARÃES-OKAMOTO, P.T.C.; MITTESTAINER, J.C.; JOAQUIM, S.F.; SARTORI, R..S. et al. Soroepidemiologia da infecção por Toxoplasma gondii em gatos atendidos em hospital veterinário de Botucatu, SP, Brasil. Vet. e Zootec. Disponível em: https://rvz.emnuvens.com.br/rvz/article/download/872/468/3745 2015 dez.; 22(4): 591-596. Acessadi em 15 out. 2021.
» https://rvz.emnuvens.com.br/rvz/article/download/872/468/3745

[25] SILVA, A.F.; OLIVEIRA, F.C.R.; LEITE, J.S. et al. Immunohistochemical identification of Toxoplasma gondii in tissues from modified agglutination test positive sheep. Vet. Parasitol., v.191, p.347-352, 2013.

[26] SILVA, A.V.; CUTOLO, A.A.; LANGONI, H. Comparação da reação de imunofluorescência indireta e do método de aglutinação direta na detecção de anticorpos anti-Toxoplasma em soros de ovinos, caprinos e caninos e felinos. Arq. Inst. Biol., v.69, p.7-11, 2002.

[27] TAETZSCH, S.J.; BERTKE, A.S.; GRUSZYNSKI, K.R. Zoonotic disease transmission associated with feral cats in a metropolitan area: A geospatial analysis. Zoonoses Public Health, v.65, p.412-419, 2018.

[28] VENTURI, S.S.; SILVA, A.F.; TEIXEIRA, E.F. et al. Characterization of the zoonotic potential of Toxoplasma gondii in horses from Rio de Janeiro State. Acta Trop., v.171, p.159-162, 2017.

[29] VICENTE, R.T.; MILLAR, P.R.; NICOLAU, J.L. et al. Seroepidemiology of Toxoplasma gondii infection in students of Veterinary Medicine and other courses of public universities in Rio de Janeiro State, Brazil. Rev. Patol. Trop., v.43, p.313-322, 2014.

[30] VIEIRA, S. Introdução à bioestatística. 5. ed. Rio de Janeiro: GEN Guanabara Koogan, 2015.

[31] WEI, H.X.; HE, C.; YANG, P.L. et al. Relationship between cat contact and infection by toxoplasma gondii in humans: a meta-analysis. Comp. Parasitol., v.83, p.11-19, 2016.

[32] WYROSDICK, H.M.; SCHAEFER, J.J. Toxoplasma gondii: history and diagnostic test development. Anim. Health Res. Rev., v.16, p.150-162, 2015.

Number	Sex	Age	Lifestyle	Type of feeding	IFAT
1.	Female	Adult	semi-domiciled	not restricted	-
2.	Male	Adult	semi-domiciled	not restricted	-
3.	Male	Adult	semi-domiciled	not restricted	-
4.	Male	Adult	semi-domiciled	not restricted	-
5.	Male	Adult	semi-domiciled	not restricted	-
6.	Male	Adult	semi-domiciled	not restricted	-
7.	Male	Adult	semi-domiciled	not restricted	-
8.	Male	Adult	semi-domiciled	not restricted	-
9.	Female	Adult	semi-domiciled	not restricted	-
10.	Female	Adult	semi-domiciled	not restricted	-
11.	Female	Adult	semi-domiciled	not restricted	-
12.	Male	Adult	semi-domiciled	not restricted	-
13.	Female	Adult	semi-domiciled	not restricted	-
14.	Female	Adult	semi-domiciled	not restricted	-
15.	Female	Adult	semi-domiciled	not restricted	-
16.	Male	Adult	semi-domiciled	not restricted	-
17.	Male	Adult	semi-domiciled	not restricted	-
18.	Female	Adult	semi-domiciled	not restricted	-
19.	Female	Adult	semi-domiciled	not restricted	-
20.	Male	Adult	semi-domiciled	not restricted	-
21.	Male	Adult	semi-domiciled	not restricted	-
22.	Male	Adult	semi-domiciled	not restricted	-
23.	Male	Adult	semi-domiciled	not restricted	-
24.	Male	Adult	semi-domiciled	not restricted	-
25.	Female	Adult	semi-domiciled	not restricted	-
26.	Male	Adult	semi-domiciled	not restricted	-
27.	Female	Adult	semi-domiciled	not restricted	-
28.	Female	Adult	semi-domiciled	not restricted	-
29.	Female	Adult	semi-domiciled	not restricted	-
30.	Female	Adult	semi-domiciled	not restricted	-
31.	Female	Adult	semi-domiciled	not restricted	-
32.	Female	Adult	semi-domiciled	not restricted	-
33.	Male	Adult	semi-domiciled	not restricted	-
34.	Male	Adult	semi-domiciled	not restricted	-
35.	Male	Adult	semi-domiciled	not restricted	-
36.	Male	Adult	semi-domiciled	not restricted	-
37.	Female	Adult	semi-domiciled	not restricted	-
38.	Male	kittens	semi-domiciled	not restricted	-
39.	Male	kittens	semi-domiciled	not restricted	-
40.	Male	kittens	semi-domiciled	not restricted	-
41.	Female	kittens	semi-domiciled	not restricted	-
42.	Female	kittens	semi-domiciled	not restricted	-
43.	Female	kittens	semi-domiciled	not restricted	-
44.	Male	kittens	semi-domiciled	not restricted	-
45.	Female	kittens	semi-domiciled	not restricted	-
46.	Male	kittens	semi-domiciled	not restricted	-
47.	Female	kittens	semi-domiciled	not restricted	-
48.	Male	kittens	semi-domiciled	not restricted	-
49.	Female	kittens	semi-domiciled	not restricted	-
50.	Male	kittens	semi-domiciled	not restricted	-
51.	Female	kittens	semi-domiciled	not restricted	-
52.	Male	Young	semi-domiciled	not restricted	-
53.	Male	Young	semi-domiciled	not restricted	-
54.	Male	Young	semi-domiciled	not restricted	-
55.	Male	Young	semi-domiciled	not restricted	-
56.	Male	Young	semi-domiciled	not restricted	-
57.	Female	Young	semi-domiciled	not restricted	-
58.	Male	Young	semi-domiciled	not restricted	-
59.	Male	Young	semi-domiciled	not restricted	-
60.	Male	Young	semi-domiciled	not restricted	-
61.	Male	Young	semi-domiciled	not restricted	-
62.	Female	Adult	semi-domiciled	not restricted	+
63.	Male	Adult	semi-domiciled	not restricted	+
64.	Male	Adult	semi-domiciled	not restricted	+
65.	Male	Adult	semi-domiciled	not restricted	+
66.	Female	Adult	semi-domiciled	not restricted	+
67.	Female	Adult	semi-domiciled	not restricted	+
68.	Female	Adult	semi-domiciled	not restricted	+
69.	Female	Adult	semi-domiciled	not restricted	+
70.	Male	Adult	semi-domiciled	not restricted	+
71.	Male	Adult	semi-domiciled	not restricted	+
72.	Male	Adult	semi-domiciled	not restricted	+
73.	Male	Adult	semi-domiciled	not restricted	+
74.	Male	Adult	semi-domiciled	not restricted	+
75.	Female	Adult	semi-domiciled	not restricted	+
76.	Male	Adult	semi-domiciled	not restricted	+
77.	Male	kittens	semi-domiciled	not restricted	+
78.	Male	kittens	semi-domiciled	not restricted	+
79.	Male	kittens	semi-domiciled	not restricted	+
80.	Female	kittens	semi-domiciled	not restricted	+
81.	Female	kittens	semi-domiciled	not restricted	+
82.	Female	kittens	semi-domiciled	not restricted	+
83.	Male	kittens	semi-domiciled	not restricted	+
84.	Male	kittens	semi-domiciled	not restricted	+
85.	Female	Young	semi-domiciled	not restricted	+
86.	Male	Young	semi-domiciled	not restricted	+
Total					29.07% (25/86)

Brasil