CLINICAL, HEMATOLOGICAL, AND SEMINAL ALTERATIONS AND PARASITEMIA OF MALE GOATS EXPERIMENTALLY INFECTED WITH <i>Toxoplasma gondii</i>

Santana, Luís Fernando; Gaspar, Roberta Cordeiro; Rossi, Gabriel Augusto Marques; Nascentes, Gabriel Antônio Nogueira; Rodrigues, Eliana Aparecida; Oliveira, Gilson Pereira de; Costa, Alvimar José da

doi:10.1590/1089-6891v16i326476

Abstract:

Toxoplasmosis is a parasitic disease that affects reproductive performance in small ruminants. Although the Toxoplasma gondii life cycle is well understood since 1960s, several aspects related to its infection remains unclear. This study aimed to determine the effects of T. gondiiexperimental infection, and the influence on clinical, hematological, parasitemia and seminal parameters in male goats. Nine animals were selected and distributed in three groups: GI (n=3) – control group (placebo) orally inoculated with saline solution; GII (n=3) – subcutaneously inoculated with 1 x 106 tachyzoites of T. gondii; and GIII (n=3) – orally inoculated with 2 x 10⁵ oocysts of T. gondii. After that, clinical exams, serological tests, hemograms, parasitemia determination and semen evaluation were performed. Reciprocal serological titers had highest values of 4096 in both groups of goats infected with T. gondii,confirming the experimental infections. However, we could not observe clinical changes (except for mild hyperthermia on the 5^th DAI in one of the animals - GIII) or in hematimetric parameters. Although there were some statistically significant changes (P <0.05) on the percentages of pathology and sperm concentrations in some of the dates between the infected and control animals, these changes were not associated with toxoplasmic infection. Infection was associated with animal handling methods and environmental factors.

Keywords
experimental infection; IFI; reproductive diseases; small ruminant; toxoplasmosis

Resumo:

A toxoplasmose é uma enfermidade parasitária que afeta o desempenho reprodutivo de pequenos ruminantes. Apesar de o ciclo de vida do Toxoplasma gondii ser bem conhecido desde 1960, alguns aspectos relacionados com a infecção permanecem obscuros. Este estudo objetivou determinar os efeitos da infecção experimental por T. gondii e a influência sobre parâmetros clínicos, hematológicos, parasitêmicos e seminais de machos da espécie caprina. Nove animais foram selecionados e distribuídos em três grupos: GI (n=3) – grupo controle (placebo) oralmente inoculados com solução salina; GII (n=3) – subcutaneamente inoculados com 1 x 10⁶ taquizoítos de T. gondii; e GIII (n=3) – oralmente inoculados com 2 x 10⁵ oocistos de T. gondii. Posteriormente, foram realizados exames clínicos, testes sorológicos, hemogramas, determinação de parasitemia e avaliação seminal. Em ambos os grupos infectados com o parasita, a maior titulação sorológica observada foi 4096, confirmando a ocorrência da infecção. Entretanto, não foram observadas alterações clínicas (exceto por hipertermia no 5º DPI em um dos animais - GIII) ou nos parâmetros hematológicos. Apesar de ocorrer diferença estatística significativa (P <0,05) na porcentagem de patologias e concentração espermática em algumas datas entre os animais controle e infectados, essas alterações não foram associadas ao parasitismo, mas a fatores ambientais e de manejo dos animais.

Palavras-chave
enfermidades reprodutivas; infecção experimental; pequenos ruminantes; RIFI; toxoplasmose

Introduction

Toxoplasma gondii is a protozoa that infects nucleated cells of vertebrate hosts⁽¹1 Hoff EF, Carruthers B. Is Toxoplasma aggress the first step in invasion? Trends Parasitol, 2002;18(6):251-255.⁾, including birds, wild and domestic animals, and also human beings⁽²2 Tenter AM, Heckeroth AR, Weiss LM. Toxoplasma gondii: from animals to humans. Int. J. Parasitology, 2000 Nov;30(12-13):1217-58.⁾. In breeders, such as goats, not only does T. gondii lead to fever, but it is also responsible for great economic losses due to abortions, weak newborns, and perinatal mortality⁽³3 Dubey JP, Adams DS. Prevalence of Toxoplasma gondii antibodies in dary goat from 1982 to 198. J.Am Vet Med Assoc, 1990;(196):295-296.⁾.

Several studies have shown that the strain of T. gondii can be classified into three major genotypically distinct groups, type I (virulent), II and III (non-virulent or low virulence), which can infect animals and humans, and apparently differ in their virulence, biological behavior and epidemiological patterns occurrence. There is a predominance of type II strains in human toxoplasmosis and the most common type III in animals⁽⁴4 Diana J, Persat F, Staquet MJ, Assossou O, Ferrandiz J, Gariazzo MJ, Peyron F, Picot S, Schmitt D, Vincent C. Migration and maturation of human dendritic cells infected with Toxoplasma gondii depend on parasite strain type. FEMS Immun Med Microb , 2004; 42(3):321-331.^,⁵5 Villena I, Marle M, Darde ML, Pinon Jm, Aubert D. Toxoplasma strain type and human disease: risk of bias during parasite isolation? Trends Parasitol. 2004;20(4):160-162.⁾.

Brazil has a goat herd of over 13 million animals, yet little is known about goat toxoplasmosis. Also, the possibility of human transmission due to goat breeding management activities is worrisome⁽⁶6 Ishag MY, Majud AM. Toxoplasma gondii Infection among a caprine farm workers. Int J Trop Med, 2008;3(1):12-14.⁾. Muday and Mason⁽⁷7 Munday BL, Mason RW. Toxoplasmosis as a cause of perinatal death in goats. Austr. Vet J, 1979;55(10):485-487.⁾ were the first researchers to describe this disease as a major cause of goat reproductive losses. Besides, although not well documented, the losses seem to be even higher, clinically attacking both young and adult animals⁽⁸8 Dubey JP. Toxoplasmosis in goats. Agri-practice, 1987;8(3):43-52.⁾. According to Cavalcante et al.⁽⁹9 Cavalcante ACR, Carneiro M, Gouveia AMG, Pinheiro RR, Vitor RWA. Risk factor for infection by Toxoplasma gondii in heards of goats in Ceará, Brazil. Arq Bras Med Vet e Zoot, 2008;60(1):36-41.⁾, factors such as the increase in the age of the animals, the number of felines among goat herds, and the types of breeding facilities contribute to increasing the risk of stock contamination. The major route of transmission of toxoplasmosis in goats, as well as in most domestic species, is the ingestion of sporulated oocysts of the parasite⁽¹⁰10 Tenter AM, Heckeroth AR, Weiss LM. Toxoplasma gondii: from animals to humans. Int. J. Parasitol, 2000;30(12-13):1217-1258.⁾ found in the environment.

Information on the seroprevalence of antibodies against T. gondii in goats has been reported in many countries, suggesting that this species is an important host⁽¹¹11 Machado TMM, Lima JD. Freqüência de anticorpos anti-Toxoplasma gondii em caprinos criados sob diferentes formas de exploração no Estado de Minas Gerais. Arq Bras Med Vet Zoot, 1987;39(2):255-264.

12 Kamani J, Mani AU, Egwu GO. Seroprevalence of Toxoplasma gondii infection in domestic sheep and goats in Borno state, Nigeria. Trop Anim Health Product, 2010;42(4):793-797.^-¹³13 Gebremedhin EZ, Gizaw D. Seroprevalence of Toxoplasma gondii infection in sheep and goats in the districts of southern nations, nationalities and peoples' region of Ethiopia. World Appl Sci J, 2014; 31(11):1891-1896.⁾. Serological surveys indicate that stock seropositivity ranges from 28.9% to 92.4% in Brazil, showing a high prevalence in that domestic species⁽^{11; 14}11 Machado TMM, Lima JD. Freqüência de anticorpos anti-Toxoplasma gondii em caprinos criados sob diferentes formas de exploração no Estado de Minas Gerais. Arq Bras Med Vet Zoot, 1987;39(2):255-264.

12 Kamani J, Mani AU, Egwu GO. Seroprevalence of Toxoplasma gondii infection in domestic sheep and goats in Borno state, Nigeria. Trop Anim Health Product, 2010;42(4):793-797.

13 Gebremedhin EZ, Gizaw D. Seroprevalence of Toxoplasma gondii infection in sheep and goats in the districts of southern nations, nationalities and peoples' region of Ethiopia. World Appl Sci J, 2014; 31(11):1891-1896.

14 Chiari CA, Neves DP. Toxoplasmose humana adquirida através da ingestão de leite de cabra. Mem Instit Oswaldo Cruz, 1984;79(3):337-340.

15 Sella MZ, Navarro IT, Vidotto O, Freire RL, Shida PN. Toxoplasmose caprina: levantamento sorológico do Toxoplasma gondii em caprinos leiteiros na microregião de Londrina, Paraná, Brasil., Rev Bras Parasitol Vet, 1994;3(13):13-16.

16 Mainardi RS, Modolo JR, Stachissini AVM, Padovani CR, Langoni H. Soroprevalência de Toxoplasma gondii em rebanhos caprinos no Estado de São Paulo. Rev Soc Bras Med Trop, 2003;36:759-761.^-¹⁷17 Medeiros AD, Andrade MMC, Vitor RWA, Andrade-Neto VF. Occurrence of anti-Toxoplasma gondii antibodies in meat and dairy goat herds in Rio Grande do Norte, Brazil. Rev Bras Parasitol Vet, 2014; 23(4):481-487.⁾.

Although there are some studies reporting the occurrence of clinical changes in goats infected with T. gondi⁽¹⁸18 Nishi SM, Kasai N, Gennari SM. Antibody levels in goats fed Toxoplasma gondii oocysts. J. Parasitol. 2001,87:447-452.

19 Dubey, JP. Lesions in goats fed Toxoplasma gondii oocysts, Vet Parasitol, 1989;32(2-3):133-144.^-²⁰20 Chhabra MB, Mahajan SK, Gupta SL. Experimental toxoplasmosis in pregnant goats. Ind J Anim Sci, 1982;52:661-664.⁾, there was no information found to correlate the effects of toxoplasmic infection in clinical, hematological and seminal parameters in male goats experimentally infected with this parasite, what this study aimed to investigate.

Material and Methods

The present study was carried out at the Animal Health Research Center (CPPAR) at School of Agrarian and Veterinary Sciences, Universidade Estadual de São Paulo (FCAV/UNESP), Jaboticabal campus, São Paulo, Brazil. Every procedure was approved by the university Animal Ethics and Wellness Committee from UNESP's School of Agriculture and Veterinary in Jaboticabal, São Paulo state, Brazil, under the protocol N. 010850-08.

This study used "P"⁽²¹21 Jamra LMF, Vieira MPL. Isolamento do Toxoplasma gondii de exsudato peritoneal e órgãos de camundongos com infecção experimental. Rev Instit Med Trop São Paulo, 1991; (33):435-441.⁾and "RH"⁽²²22 Sabin AB. Toxoplasmic encephalitis in children. J Amer Med Assoc, 1941;116(9):801-807.⁾ T. gondii strains kept at CPPAR, FCAV/UNESP. "P" strains were genotypically characterized by using PCR-RFLP segment of locus SAG2 located in chromosome VIII as a genetic marker and classified as Type III⁽²³23 Bresciani KDS, Costa AJ, Toniollo G, Luvizotto MCR, Kanamura C, Moraes FR, Perri SHV, Gennari SM. Transplacental transmission of Toxoplasma gondii in reinfected pregnant female canines. Parasitol Res, 2009;104(5):1213-1217.⁾. "RH" strains were previously characterized as Type I by using the same analysis of loci SAG1, SAG2, new SAG2, SAG3, BTUB, GRA6, c22-8, c29-2, L358, PK1 and Apico⁽²⁴24 Pena HFJ, Gennari SM, Dubey JP, Su C. Population structure and mouse-virulence of Toxoplasma gondii in Brazil. Int J Parasitol, 2008;38(5):561-569.^-²⁵25 Herrmann DC, Pantchev N, Globokar Vrhovec M, Barutzki D, Wilking H, Frohlich A, Luder CGK, Contraths FJ, Schares G. Atypical Toxoplasma gondii genotypes identified in oocysts shed by cats in Germany. Int J Parasitol 2010; 40(3):285-292.⁾.

Nine male goats of undefined breed, serologically negative for T. gondii, aged between one and two years, healthy and in good physical condition, were selected in a specialized rearing facility in the town of Pitangueiras, in the state of São Paulo, Brazil. Serology titers obtained by indirect immunofluorescence (IFI) were considered positive starting at a 1:16 dilution. These nine animals were then kept in proper individual stalls of CPPAR for four weeks prior to the experiment, with water and food at will, with the purpose of letting them adapt to the breeding management conditions and to the facilities.

Serological exams were carried out during the experimental period as follows: acidified buffered antigen test⁽²⁶26 Alton GG, Jones LM, Angus RD, Verger JM. Techniques for the brucellosis laboratory. Institut National de la Recherche Agronomique, 1988, p.190.⁾ for brucellosis, and microscopic agglutination test⁽²⁷27 Cole JR, Sulzer CR, Pulssely PR. Improved microtechinique for the leptospiral microscopic agglutination. Appl Microb, 1973;25(6):976-980.⁾ for leptospirosis.

The animals were identified, sorted and randomized into three groups with three animals in each, and they were kept isolated until the end of the experiment, as follows: GI (A, B and C) - non-inoculated controls; GII (D, E and F) subcutaneously infected with 1 x 10⁶ RH strain tachyzoites per animal; and GIII (G, H and I) orally infected with 2 x 10⁵ P strain oocysts per animal.

In order to confirm the real infection arising from inoculum administration: 1x10⁶ RH strain tachyzoites, subcutaneously (GII), and 2x10⁵ P strain oocysts, orally (GIII), blood samples from infected (GII and GIII) and uninfected (GI) goats were collected for serological follow-up using IFI⁽²⁸28 Camargo ME. Improved technique of indirect immunofluorescence for serological diagnosis of toxoplasmosis. Rev Instit Med Trop, 1964;6(3):117-118.⁾ two days prior to inoculation (-2^nd), and on days 3^rd, 5^th, 7^th, 11^th, 14^th, 21^st, 28^th, 35^th, 42^nd, 49^th, 56^th, 63^rd and 70^th after inoculation (DAI). Serology titers obtained by indirect immunofluorescence (IFI) were considered positive starting at a 1:16 dilution.

With the purpose of following up possible clinical changes arising from experimental infection of the animals, respiratory and cardiac frequency and rectal temperature were taken two days prior to inoculum administration (-2^nd), and on the 3^rd, 5^th, 7^th, 11^th, 14^th, 21^st, 28^th, 35^th, 42^nd, 49^th, 56^th, 63^rd and 70^th DAI.

Concomitantly with serological and clinical assessment, a laboratory study of each animal was performed using hematological examinations. Therefore, 1 mL of blood samples was collected by puncturing the jugular vein using 40x12 needles, in consonance with the technique proposed by Rosenfeld⁽²⁹29 Rosenfeld G. Etileno diamina Tetracética Disódica (EDTA) como anticoagulante para técnica hematológica. Vet Clinic, 1995;31:65-71, 1995.⁾, and the automated hemograms were performed at Clinical Pathology Laboratory at Veterinary Hospital Governador Laudo Natel at FCAV/UNESP.

Parasitemia was assessed using white mice by inoculation of the leukocytic layer⁽³⁰30 Oliveira FCR, Costa AJ, Bechara GH, Sabatini GA. Distribuição e viabilidade de cistos de Toxoplasma gondii (Apicomplexa: Toxoplasmatinae) em tecidos de Bos indicus, Bos taurus and Bubalus bubalis infectados com oocistos. Rev Bras Med Vet, 2001;23(1):28-34.⁾ of goats' blood in mice and serology was used to determine if antibodies developed against T. gondii. Mouse serum was considered positive for sample that reacted at a diluition of >64.

For nearly two months, all animals were submitted to semen collection with an electroejaculator. Ejaculate samples obtained two days before inoculation and on 3^rd, 5^th, 7^th, 11^th and 14^th DAI and then weekly until the end of the experiment were evaluated for the following sperm parameters: volume, motility, concentration, morphology and vigor⁽³¹31 Chemineau P, Cagnié Y, Guérin Y, Orgeur P, Vallet JC. Training manual on artificial insemination in sheep and goats. Food and Agriculture Organization of the United Nations (FAO). FAO Animal Production and Health Paper. p. 211-222, 1991.⁾. Immediately after ejaculation, semen samples were placed in a water bath (38 to 40 °C) to ensure sperm integrity.

To evaluate sperm motility and vigor, approximately 10 p,L of semen were used prior to dilution and placed on a slide with a coverslip⁽³¹31 Chemineau P, Cagnié Y, Guérin Y, Orgeur P, Vallet JC. Training manual on artificial insemination in sheep and goats. Food and Agriculture Organization of the United Nations (FAO). FAO Animal Production and Health Paper. p. 211-222, 1991.⁾. These exams were conducted in triplicate for each of the samples. The motility data were expressed as a percentage and vigor data, on a scale of 0 to 5.

For sperm concentration analysis (sperm/mL), in accordance with the methodology described by Chemineau et al.⁽³¹31 Chemineau P, Cagnié Y, Guérin Y, Orgeur P, Vallet JC. Training manual on artificial insemination in sheep and goats. Food and Agriculture Organization of the United Nations (FAO). FAO Animal Production and Health Paper. p. 211-222, 1991.⁾, 20 p,L of semen from each goat were diluted in 980 p,L of saline solution containing 0.1% formol. The seminal volume was verified by direct observation using a 5 mL test tube.

For spermatic pathologies evaluation, 50 µL semen aliquots were separated from each sample and diluted in 1 mL of 0.1% formol saline solution. Next, 200 cells/goat/collection were counted in accordance with the methodology adopted by Chemineau et al.⁽³¹31 Chemineau P, Cagnié Y, Guérin Y, Orgeur P, Vallet JC. Training manual on artificial insemination in sheep and goats. Food and Agriculture Organization of the United Nations (FAO). FAO Animal Production and Health Paper. p. 211-222, 1991.⁾.

Pre- and post-inoculation clinic parameters were analyzed as a split-plot in time, taking inoculated and control groups into account. F-test was used for treatment effect and Tukey test was used to compare the treatments.

Seminal parameters were evaluated among the experimental groups (control, infected with tachyzoites and infected with oocystes) using analysis of variance (ANOVA), followed by the Bonferrom's post hoc test for parametric data. In addition, for nonparametric data, we used Kruskal-Wallis test, followed by the post hoc Dunn's test. The statistical analysis were performed using the software Statistica 8.0 (STATSOFT, Tulsa, OK, USA), and p-values of <0.05 were taken to be significant.

Results and Discussion

The serological titers⁽²⁸28 Camargo ME. Improved technique of indirect immunofluorescence for serological diagnosis of toxoplasmosis. Rev Instit Med Trop, 1964;6(3):117-118.⁾ shown in Table 1confirm the development of toxoplasmic infection with fast immune response from 11^th DAI (titer ≥ 1:64), as reported by Nishi et al.⁽¹⁸18 Nishi SM, Kasai N, Gennari SM. Antibody levels in goats fed Toxoplasma gondii oocysts. J. Parasitol. 2001,87:447-452.⁾ and Santana et al.⁽³²32 Santana LF, Costa AJ, Pieroni J, Lopes WDZ, Santos RS, Oliveira GP, Mendonça RP, Sakamoto CAM. Detecion of Toxoplasma gondii in the reproductive system of male goats. Rev Bras Parasitol Vet, 2010; 19(3):179-182.⁾ in similar studies.

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Table 1
Reciprocal titers obtained by indirect immunofluorescence reaction (IFI) in the serum of inoculated goats with 1 x 10⁶ tachyzoites and 2 x 10⁵ oocysts of Toxoplasma gondii

We could also observe the highest serological titer was of 1:4096 from 14^th to 42^th DAI in the group of animals infected with 1.0 x 10⁶ tachyzoites, and on the 21^st and 35^th DAI in the group of animals infected with 2 x 10⁵ oocysts. Although there were changes in antibody titers of animals that received T. gondii,throughout the experiment there was a visible decrease in this titer after serological peaks in each inoculated animal. As expected, the animals inoculated with saline showed no growth of T. gondii infection throughout the experimental period.

According to Dubey et al.⁽³³33 Dubey JP, Sharma SP, Lopes CW, Williams JF, Willians CS, Weisbrode SE Caprine toxoplasmosis: abortion, clinical signs, and a distribution of Toxoplasma in tissues of goats fed Toxoplasma gondii oocysts. Am J Vet Res, 1980;41(7):1072-1076.⁾, the mean rectal temperature of adult goats in normal physiological conditions may reach up to 40.5 °C. In this study, as shown in Figure 1, a mild episode of hyperthermia could be noticed on the 5^th DAI in the group of animals inoculated with oocysts (GIII).

Figure 1:
Mean rectal temperature in non-inoculated male goats (GI) and in male goats experimentally inoculated with 1 x 10⁶ tachyzoites (GII) and with 2 x 10⁵ oocysts of Toxoplasma gondii (GIII)

Even though there were changes in the mean rectal temperatures in the experimental groups on the course of the experiment, they were within the normality range of the studied species. The hyperthermia episode was similar to the findings of Nishi et al.⁽¹⁸18 Nishi SM, Kasai N, Gennari SM. Antibody levels in goats fed Toxoplasma gondii oocysts. J. Parasitol. 2001,87:447-452.⁾, who reported this change as being one of the most evident clinical signs in goats orally inoculated with 10⁵ oocysts of T. gondii. Dubey et al.⁽³³33 Dubey JP, Sharma SP, Lopes CW, Williams JF, Willians CS, Weisbrode SE Caprine toxoplasmosis: abortion, clinical signs, and a distribution of Toxoplasma in tissues of goats fed Toxoplasma gondii oocysts. Am J Vet Res, 1980;41(7):1072-1076.⁾, Chhabra et al.⁽²⁰20 Chhabra MB, Mahajan SK, Gupta SL. Experimental toxoplasmosis in pregnant goats. Ind J Anim Sci, 1982;52:661-664.⁾ and Dubey⁽¹⁹19 Dubey, JP. Lesions in goats fed Toxoplasma gondii oocysts, Vet Parasitol, 1989;32(2-3):133-144.⁾ have also observed similar clinical symptomatologies, as well as the death of an animal inoculated with oocysts⁽¹⁹19 Dubey, JP. Lesions in goats fed Toxoplasma gondii oocysts, Vet Parasitol, 1989;32(2-3):133-144.⁾.

Although there have been changes in cardiac and respiratory frequencies at several dates throughout the experiment, for the groups GI, GII and GIII, these changes were not statistically related to T. gondii infection or were within normal ranges for this species⁽³⁴34 Smith JL. Documented outbreaks of toxoplasmosis: Transmission of Toxoplasma gondii to humans. J Food Protec, 1993;56(7):630-633.⁾.

Due to the lack of scientific studies on hematological parameters of males experimentally infected with T. gondii, this study aimed to compare the parameters of the experimental animals with the parameters considered to be normal for this domestic species, as well as the parameters collected in the control group and on -2^nd DAI for all experimental groups.

The oscillation in average red blood count could be observed in the three groups throughout the experiment, including in the non-inoculated group (control group). Therefore, experimental infection with T. gondii could not be deemed responsible for any change in this parameter. According to Elitok,⁽³⁷37 Elitok B. Reference values for hematological and biochemical parameters in Saanen goats breeding in Afyonkarahisar province. Kocatepe Vet. J, 2012;5(1): 7-11.⁾ the reference value for red blood cell count in adult male goats is 23.09 ± 3.63 x 10¹²/L. Although, it was noticed that on some experiment dates this highest value exceeded, it was not statistically different (P>0.05) from the other experimental groups.

Considering the adopted reference values of hemoglobin concentration,⁽³⁵35 Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.⁾13.34 ± 0.14 g/dL, in this study, average values of hemoglobin concentration (g/dL) in groups GII and GIII were similar to those found in group GI (control group) on the same dates throughout the study. There were no statistically significant differences (P>0.05) among the observed values.

A gradual reduction in the mean values of hematocrit was noticed in the three groups from the 35^th DAI to the end of the experiment. Such reduction was also observed in the group of non-inoculated animals with T. gondii,which rules out the hypothesis of change due to protozoa infection in the remaining experimental groups. Another extremely relevant datum is that there was no statistically significant difference (P>0.05) in the mean values of hematocrit (%) among the groups throughout the experiment on any of the dates. Furthermore, such values were within the normality range (22%-38%) of the species being studied⁽³⁵35 Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.⁾.

Reduction in total value count of leukocytes (x 10³/UI) in the three groups was observed from the 3^rd to the 11^th DAI. Nevertheless, besides being within the normality range, 13.84 ± 0.21 x 10³/UI⁽³⁵35 Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.⁾, these mean values did not have statistically significant differences (P>0.05) when comparing the groups on the same experiment dates, thus, they cannot be considered episodes of leukopenia.

According to Egbe-Nwiyi et al.⁽³⁵35 Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.⁾, the mean values of eosinophil and monocytes count were within the normality limits for this species (452.2 ± 56.53 cells/µL and 442.0 ± 88.74, respectively) throughout the experiment. Moreover, these values did not differ statistically (P>0.05) among the groups on any date after the infection.

Values of banded neutrophil count in this study were rare, which was also within the normality values for this parameter in goats⁽³⁵35 Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.⁾. Normal reference parameters of segmented neutrophil should range from 30 to 48% of total leukocyte count, that is 5715.9 ± 165.2/µµL⁽³⁵35 Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.⁾. In this study, a variation in the absolute mean values of the three groups could be noticed, yet, without exceeding the normality limit for this parameter.

Episodes of lymphopenia in animals inoculated with oocysts (3^rd DAI) and with tachyzoites (3^rd and 42^nd DAI) were observed; moreover, lymphocyte count was lower on these dates, being statistically different (P<0.05) from the values found in animals in the control group . However, in spite of this difference, such values were within the normality range for this parameter in goats, 7203 ± 264/ µL⁽³⁵35 Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.⁾. On other experiment dates, such as on the 63^rd and 70^th DAI, we noticed low mean count of lymphocytes, mainly regarding the animals inoculated with oocysts. Nonetheless, these values were still within the normality range although they did not differ statistically from the means of the other experimental groups (P>0.05).

Parasite presence in the blood of the male goats infected with tachyzoites (GII) was verified on 11^th, 14^th, 28^th, 49^th, 56^th, 63^rd and 70^th DAIs, and on 14^th, 21^st, 56^th, 70^th DAIs for the male goats infected with oocysts (GIII). The high frequency of parasitic outbreaks observed in the male goats could be related to the susceptibility of the host to T. gondii, as also shown by Nishi et al.,⁽¹⁸18 Nishi SM, Kasai N, Gennari SM. Antibody levels in goats fed Toxoplasma gondii oocysts. J. Parasitol. 2001,87:447-452.⁾ Chhabra et al.⁽²⁰20 Chhabra MB, Mahajan SK, Gupta SL. Experimental toxoplasmosis in pregnant goats. Ind J Anim Sci, 1982;52:661-664.⁾ and Dubey et al.⁽³³33 Dubey JP, Sharma SP, Lopes CW, Williams JF, Willians CS, Weisbrode SE Caprine toxoplasmosis: abortion, clinical signs, and a distribution of Toxoplasma in tissues of goats fed Toxoplasma gondii oocysts. Am J Vet Res, 1980;41(7):1072-1076.⁾.

Although statistical differences (P<0.05) were observed for spermatic concentration and pathologies (Tables 2 and 3, respectively) in the goats throughout the experiment, these could not be directly related to toxoplasmic infection; thus, these could be dependent on other factors, such as the collection technique, semen manipulation and scrotal temperature, among others.

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Table 2
Spermatic concentration obtained of non-inoculated goats (control group - GI) and of inoculated goats with 1 x 10⁶ tachyzoites (GII) and 2 x 10⁵ oocysts (GIII) of Toxoplasma gondii

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Table 3
Spermatic pathologies obtained of non-inoculated goats (control group - GI) and of inoculated goats with 1 x 10⁶ tachyzoites (GII) and 2 x 10⁵ oocysts (GUI) of Toxoplasma gondii

Moura et al.⁽³⁶36 Moura AB, Jordão-Filho S, Mauro DC, Paim BB, Pinto FR, Costa AJ. Avaliação dos parâmetros seminais de cachaços (Sus scrofa) experimentalmente infectados com Toxoplasma gondii.. Semina; Ciênc Agrar, 2003; 25(2):107-116.⁾affirmed that a direct effect of T. gondii on spermatogenesis should be accompanied by a significant increase in the frequency of primary pathologies, as well as relevant alterations in semen variables. However, some factors like temperature were difficult to control and could influence these results. No significant differences (P >0.05) were observed between the control and infected animals concerning motility, vigor and volume obtained.

Conclusion

Despite having found hyperthermia in the group of animals inoculated with Toxoplasma gondii oocysts just on one experimental date, the infection was asymptomatic, without clinical or hematological changes in the inoculated goats. Thus, recognition and posterior treatment of animals infected by this parasite is hindered. Furthermore, despite the absence of changes in the evaluated clinical parameters, attention should be paid to this parasitosis, not only because of the economic losses it leads to but also because of its relevance to public health.

Acknowledgements

The present study was funded by São Paulo Research Foundation (FAPESP) under processes 04/12296-2 and 08/11290-1, and by Animal Health Research Center (CPPAR) at UNESP'sSchool of Agriculture and Veterinary in Jaboticabal, in the São Paulo State, Brazil.

References

¹
Hoff EF, Carruthers B. Is Toxoplasma aggress the first step in invasion? Trends Parasitol, 2002;18(6):251-255.
²
Tenter AM, Heckeroth AR, Weiss LM. Toxoplasma gondii: from animals to humans. Int. J. Parasitology, 2000 Nov;30(12-13):1217-58.
³
Dubey JP, Adams DS. Prevalence of Toxoplasma gondii antibodies in dary goat from 1982 to 198. J.Am Vet Med Assoc, 1990;(196):295-296.
⁴
Diana J, Persat F, Staquet MJ, Assossou O, Ferrandiz J, Gariazzo MJ, Peyron F, Picot S, Schmitt D, Vincent C. Migration and maturation of human dendritic cells infected with Toxoplasma gondii depend on parasite strain type. FEMS Immun Med Microb , 2004; 42(3):321-331.
⁵
Villena I, Marle M, Darde ML, Pinon Jm, Aubert D. Toxoplasma strain type and human disease: risk of bias during parasite isolation? Trends Parasitol. 2004;20(4):160-162.
⁶
Ishag MY, Majud AM. Toxoplasma gondii Infection among a caprine farm workers. Int J Trop Med, 2008;3(1):12-14.
⁷
Munday BL, Mason RW. Toxoplasmosis as a cause of perinatal death in goats. Austr. Vet J, 1979;55(10):485-487.
⁸
Dubey JP. Toxoplasmosis in goats. Agri-practice, 1987;8(3):43-52.
⁹
Cavalcante ACR, Carneiro M, Gouveia AMG, Pinheiro RR, Vitor RWA. Risk factor for infection by Toxoplasma gondii in heards of goats in Ceará, Brazil. Arq Bras Med Vet e Zoot, 2008;60(1):36-41.
¹⁰
Tenter AM, Heckeroth AR, Weiss LM. Toxoplasma gondii: from animals to humans. Int. J. Parasitol, 2000;30(12-13):1217-1258.
¹¹
Machado TMM, Lima JD. Freqüência de anticorpos anti-Toxoplasma gondii em caprinos criados sob diferentes formas de exploração no Estado de Minas Gerais. Arq Bras Med Vet Zoot, 1987;39(2):255-264.
¹²
Kamani J, Mani AU, Egwu GO. Seroprevalence of Toxoplasma gondii infection in domestic sheep and goats in Borno state, Nigeria. Trop Anim Health Product, 2010;42(4):793-797.
¹³
Gebremedhin EZ, Gizaw D. Seroprevalence of Toxoplasma gondii infection in sheep and goats in the districts of southern nations, nationalities and peoples' region of Ethiopia. World Appl Sci J, 2014; 31(11):1891-1896.
¹⁴
Chiari CA, Neves DP. Toxoplasmose humana adquirida através da ingestão de leite de cabra. Mem Instit Oswaldo Cruz, 1984;79(3):337-340.
¹⁵
Sella MZ, Navarro IT, Vidotto O, Freire RL, Shida PN. Toxoplasmose caprina: levantamento sorológico do Toxoplasma gondii em caprinos leiteiros na microregião de Londrina, Paraná, Brasil., Rev Bras Parasitol Vet, 1994;3(13):13-16.
¹⁶
Mainardi RS, Modolo JR, Stachissini AVM, Padovani CR, Langoni H. Soroprevalência de Toxoplasma gondii em rebanhos caprinos no Estado de São Paulo. Rev Soc Bras Med Trop, 2003;36:759-761.
¹⁷
Medeiros AD, Andrade MMC, Vitor RWA, Andrade-Neto VF. Occurrence of anti-Toxoplasma gondii antibodies in meat and dairy goat herds in Rio Grande do Norte, Brazil. Rev Bras Parasitol Vet, 2014; 23(4):481-487.
¹⁸
Nishi SM, Kasai N, Gennari SM. Antibody levels in goats fed Toxoplasma gondii oocysts. J. Parasitol. 2001,87:447-452.
¹⁹
Dubey, JP. Lesions in goats fed Toxoplasma gondii oocysts, Vet Parasitol, 1989;32(2-3):133-144.
²⁰
Chhabra MB, Mahajan SK, Gupta SL. Experimental toxoplasmosis in pregnant goats. Ind J Anim Sci, 1982;52:661-664.
²¹
Jamra LMF, Vieira MPL. Isolamento do Toxoplasma gondii de exsudato peritoneal e órgãos de camundongos com infecção experimental. Rev Instit Med Trop São Paulo, 1991; (33):435-441.
²²
Sabin AB. Toxoplasmic encephalitis in children. J Amer Med Assoc, 1941;116(9):801-807.
²³
Bresciani KDS, Costa AJ, Toniollo G, Luvizotto MCR, Kanamura C, Moraes FR, Perri SHV, Gennari SM. Transplacental transmission of Toxoplasma gondii in reinfected pregnant female canines. Parasitol Res, 2009;104(5):1213-1217.
²⁴
Pena HFJ, Gennari SM, Dubey JP, Su C. Population structure and mouse-virulence of Toxoplasma gondii in Brazil. Int J Parasitol, 2008;38(5):561-569.
²⁵
Herrmann DC, Pantchev N, Globokar Vrhovec M, Barutzki D, Wilking H, Frohlich A, Luder CGK, Contraths FJ, Schares G. Atypical Toxoplasma gondii genotypes identified in oocysts shed by cats in Germany. Int J Parasitol 2010; 40(3):285-292.
²⁶
Alton GG, Jones LM, Angus RD, Verger JM. Techniques for the brucellosis laboratory. Institut National de la Recherche Agronomique, 1988, p.190.
²⁷
Cole JR, Sulzer CR, Pulssely PR. Improved microtechinique for the leptospiral microscopic agglutination. Appl Microb, 1973;25(6):976-980.
²⁸
Camargo ME. Improved technique of indirect immunofluorescence for serological diagnosis of toxoplasmosis. Rev Instit Med Trop, 1964;6(3):117-118.
²⁹
Rosenfeld G. Etileno diamina Tetracética Disódica (EDTA) como anticoagulante para técnica hematológica. Vet Clinic, 1995;31:65-71, 1995.
³⁰
Oliveira FCR, Costa AJ, Bechara GH, Sabatini GA. Distribuição e viabilidade de cistos de Toxoplasma gondii (Apicomplexa: Toxoplasmatinae) em tecidos de Bos indicus, Bos taurus and Bubalus bubalis infectados com oocistos. Rev Bras Med Vet, 2001;23(1):28-34.
³¹
Chemineau P, Cagnié Y, Guérin Y, Orgeur P, Vallet JC. Training manual on artificial insemination in sheep and goats. Food and Agriculture Organization of the United Nations (FAO). FAO Animal Production and Health Paper. p. 211-222, 1991.
³²
Santana LF, Costa AJ, Pieroni J, Lopes WDZ, Santos RS, Oliveira GP, Mendonça RP, Sakamoto CAM. Detecion of Toxoplasma gondii in the reproductive system of male goats. Rev Bras Parasitol Vet, 2010; 19(3):179-182.
³³
Dubey JP, Sharma SP, Lopes CW, Williams JF, Willians CS, Weisbrode SE Caprine toxoplasmosis: abortion, clinical signs, and a distribution of Toxoplasma in tissues of goats fed Toxoplasma gondii oocysts. Am J Vet Res, 1980;41(7):1072-1076.
³⁴
Smith JL. Documented outbreaks of toxoplasmosis: Transmission of Toxoplasma gondii to humans. J Food Protec, 1993;56(7):630-633.
³⁵
Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.
³⁶
Moura AB, Jordão-Filho S, Mauro DC, Paim BB, Pinto FR, Costa AJ. Avaliação dos parâmetros seminais de cachaços (Sus scrofa) experimentalmente infectados com Toxoplasma gondii.. Semina; Ciênc Agrar, 2003; 25(2):107-116.
³⁷
Elitok B. Reference values for hematological and biochemical parameters in Saanen goats breeding in Afyonkarahisar province. Kocatepe Vet. J, 2012;5(1): 7-11.

Publication Dates

Publication in this collection
Jul-Sep 2015

History

Received
17 Sept 2013
Accepted
06 May 2015

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
Hoff EF, Carruthers B. Is Toxoplasma aggress the first step in invasion? Trends Parasitol, 2002;18(6):251-255.

[2] ²
Tenter AM, Heckeroth AR, Weiss LM. Toxoplasma gondii: from animals to humans. Int. J. Parasitology, 2000 Nov;30(12-13):1217-58.

[3] ³
Dubey JP, Adams DS. Prevalence of Toxoplasma gondii antibodies in dary goat from 1982 to 198. J.Am Vet Med Assoc, 1990;(196):295-296.

[4] ⁴
Diana J, Persat F, Staquet MJ, Assossou O, Ferrandiz J, Gariazzo MJ, Peyron F, Picot S, Schmitt D, Vincent C. Migration and maturation of human dendritic cells infected with Toxoplasma gondii depend on parasite strain type. FEMS Immun Med Microb , 2004; 42(3):321-331.

[5] ⁵
Villena I, Marle M, Darde ML, Pinon Jm, Aubert D. Toxoplasma strain type and human disease: risk of bias during parasite isolation? Trends Parasitol. 2004;20(4):160-162.

[6] ⁶
Ishag MY, Majud AM. Toxoplasma gondii Infection among a caprine farm workers. Int J Trop Med, 2008;3(1):12-14.

[7] ⁷
Munday BL, Mason RW. Toxoplasmosis as a cause of perinatal death in goats. Austr. Vet J, 1979;55(10):485-487.

[8] ⁸
Dubey JP. Toxoplasmosis in goats. Agri-practice, 1987;8(3):43-52.

[9] ⁹
Cavalcante ACR, Carneiro M, Gouveia AMG, Pinheiro RR, Vitor RWA. Risk factor for infection by Toxoplasma gondii in heards of goats in Ceará, Brazil. Arq Bras Med Vet e Zoot, 2008;60(1):36-41.

[10] ¹⁰
Tenter AM, Heckeroth AR, Weiss LM. Toxoplasma gondii: from animals to humans. Int. J. Parasitol, 2000;30(12-13):1217-1258.

[11] ¹¹
Machado TMM, Lima JD. Freqüência de anticorpos anti-Toxoplasma gondii em caprinos criados sob diferentes formas de exploração no Estado de Minas Gerais. Arq Bras Med Vet Zoot, 1987;39(2):255-264.

[12] ¹²
Kamani J, Mani AU, Egwu GO. Seroprevalence of Toxoplasma gondii infection in domestic sheep and goats in Borno state, Nigeria. Trop Anim Health Product, 2010;42(4):793-797.

[13] ¹³
Gebremedhin EZ, Gizaw D. Seroprevalence of Toxoplasma gondii infection in sheep and goats in the districts of southern nations, nationalities and peoples' region of Ethiopia. World Appl Sci J, 2014; 31(11):1891-1896.

[14] ¹⁴
Chiari CA, Neves DP. Toxoplasmose humana adquirida através da ingestão de leite de cabra. Mem Instit Oswaldo Cruz, 1984;79(3):337-340.

[15] ¹⁵
Sella MZ, Navarro IT, Vidotto O, Freire RL, Shida PN. Toxoplasmose caprina: levantamento sorológico do Toxoplasma gondii em caprinos leiteiros na microregião de Londrina, Paraná, Brasil., Rev Bras Parasitol Vet, 1994;3(13):13-16.

[16] ¹⁶
Mainardi RS, Modolo JR, Stachissini AVM, Padovani CR, Langoni H. Soroprevalência de Toxoplasma gondii em rebanhos caprinos no Estado de São Paulo. Rev Soc Bras Med Trop, 2003;36:759-761.

[17] ¹⁷
Medeiros AD, Andrade MMC, Vitor RWA, Andrade-Neto VF. Occurrence of anti-Toxoplasma gondii antibodies in meat and dairy goat herds in Rio Grande do Norte, Brazil. Rev Bras Parasitol Vet, 2014; 23(4):481-487.

[18] ¹⁸
Nishi SM, Kasai N, Gennari SM. Antibody levels in goats fed Toxoplasma gondii oocysts. J. Parasitol. 2001,87:447-452.

[19] ¹⁹
Dubey, JP. Lesions in goats fed Toxoplasma gondii oocysts, Vet Parasitol, 1989;32(2-3):133-144.

[20] ²⁰
Chhabra MB, Mahajan SK, Gupta SL. Experimental toxoplasmosis in pregnant goats. Ind J Anim Sci, 1982;52:661-664.

[21] ²¹
Jamra LMF, Vieira MPL. Isolamento do Toxoplasma gondii de exsudato peritoneal e órgãos de camundongos com infecção experimental. Rev Instit Med Trop São Paulo, 1991; (33):435-441.

[22] ²²
Sabin AB. Toxoplasmic encephalitis in children. J Amer Med Assoc, 1941;116(9):801-807.

[23] ²³
Bresciani KDS, Costa AJ, Toniollo G, Luvizotto MCR, Kanamura C, Moraes FR, Perri SHV, Gennari SM. Transplacental transmission of Toxoplasma gondii in reinfected pregnant female canines. Parasitol Res, 2009;104(5):1213-1217.

[24] ²⁴
Pena HFJ, Gennari SM, Dubey JP, Su C. Population structure and mouse-virulence of Toxoplasma gondii in Brazil. Int J Parasitol, 2008;38(5):561-569.

[25] ²⁵
Herrmann DC, Pantchev N, Globokar Vrhovec M, Barutzki D, Wilking H, Frohlich A, Luder CGK, Contraths FJ, Schares G. Atypical Toxoplasma gondii genotypes identified in oocysts shed by cats in Germany. Int J Parasitol 2010; 40(3):285-292.

[26] ²⁶
Alton GG, Jones LM, Angus RD, Verger JM. Techniques for the brucellosis laboratory. Institut National de la Recherche Agronomique, 1988, p.190.

[27] ²⁷
Cole JR, Sulzer CR, Pulssely PR. Improved microtechinique for the leptospiral microscopic agglutination. Appl Microb, 1973;25(6):976-980.

[28] ²⁸
Camargo ME. Improved technique of indirect immunofluorescence for serological diagnosis of toxoplasmosis. Rev Instit Med Trop, 1964;6(3):117-118.

[29] ²⁹
Rosenfeld G. Etileno diamina Tetracética Disódica (EDTA) como anticoagulante para técnica hematológica. Vet Clinic, 1995;31:65-71, 1995.

[30] ³⁰
Oliveira FCR, Costa AJ, Bechara GH, Sabatini GA. Distribuição e viabilidade de cistos de Toxoplasma gondii (Apicomplexa: Toxoplasmatinae) em tecidos de Bos indicus, Bos taurus and Bubalus bubalis infectados com oocistos. Rev Bras Med Vet, 2001;23(1):28-34.

[31] ³¹
Chemineau P, Cagnié Y, Guérin Y, Orgeur P, Vallet JC. Training manual on artificial insemination in sheep and goats. Food and Agriculture Organization of the United Nations (FAO). FAO Animal Production and Health Paper. p. 211-222, 1991.

[32] ³²
Santana LF, Costa AJ, Pieroni J, Lopes WDZ, Santos RS, Oliveira GP, Mendonça RP, Sakamoto CAM. Detecion of Toxoplasma gondii in the reproductive system of male goats. Rev Bras Parasitol Vet, 2010; 19(3):179-182.

[33] ³³
Dubey JP, Sharma SP, Lopes CW, Williams JF, Willians CS, Weisbrode SE Caprine toxoplasmosis: abortion, clinical signs, and a distribution of Toxoplasma in tissues of goats fed Toxoplasma gondii oocysts. Am J Vet Res, 1980;41(7):1072-1076.

[34] ³⁴
Smith JL. Documented outbreaks of toxoplasmosis: Transmission of Toxoplasma gondii to humans. J Food Protec, 1993;56(7):630-633.

[35] ³⁵
Egbe-Nwiyi TN, Nwaosu SC, And Salami HA. Haematological values of appararently healthy sheep and goats as influenced by age and sex in arid zone of Nigeria. Afr. J. Biomed. Res, 2000;3(2): 109-115.

[36] ³⁶
Moura AB, Jordão-Filho S, Mauro DC, Paim BB, Pinto FR, Costa AJ. Avaliação dos parâmetros seminais de cachaços (Sus scrofa) experimentalmente infectados com Toxoplasma gondii.. Semina; Ciênc Agrar, 2003; 25(2):107-116.

[37] ³⁷
Elitok B. Reference values for hematological and biochemical parameters in Saanen goats breeding in Afyonkarahisar province. Kocatepe Vet. J, 2012;5(1): 7-11.

Days after infectiou (DAI)	Reciprocal titeis
	Inoculated with 1 x 10⁶ tachyzoites (GII)			Inoculated with 2 x 10⁵ oocysts (GIII)
	D	E	F	G	H	I
11	256	-	1024	-	-	256
14	4096	1024	256	-	256	256
21	4096	4096	4096	-	4096	4096
28	4096	4096	4096	2048	4096	4096
35	1024	4096	1024	4096	1024	1024
42	1024	4096	1024	2048	1024	1024
49	1024	2048	1024	2048	1024	1024
56	1024	2048	1024	1024	1024	1024
63	1024	2048	1024	1024	1024	1024
70	1024	2048	1024	1024	1024	1024

Days after Infection (DAI)	Spermatic concentration (sperm/ mL) per group			Value-p² 2 The p-value refers to the result of the ANOVA test for independent samples. Days when the ANOVA test showed a significant result (p <0.05) are marked in bold, different letters indicate significant differences between groups observed after Bonferroni's test for multiple comparisons.
Days after Infection (DAI)	Inoculated with saline solution (GI - Control)	Inoculated with 1 x 10^d tachyzoites (GII)	Inoculated with 2 x 10⁵ oocysts (GIII)
Day -2	30,7 ± 12,5	57,3 ± 16,2	40,0 ± 4,5	0,088
Day 3	36,3 ± 4,2	50,0 ± 14,5	39,7 ± 5,7	0,251
Day 5	37,0 ± 14,2	49,7 ± 4,6	32,3 ± 9,6	0,181
Day 7	31,3 ± 9,3 b	50,7 ± 5,5 a	44,7 ± 3,8 ab	0,029
Day 11	31,3 ± 4,5	50,3 ± 15,7	50,7 ± 2,5	0,077
Day 14	44,7 ± 13,7	56,3 ± 11,5	43,0 ± 9,8	0,380
Day 21	40,3 ±10,1	53,3 ± 12,2	38,7 ± 11,7	0,297
Day 28	35,0 ± 13,7	47,7 ± 13,0	42,0 ± 10,5	0,503
Day 35	39,3 ± 11,0	47,3 ± 9,2	42,3 ± 9,5	0,(532
Day 42	32,0 ± 12,0	53,0 ± 14,7	42,7 ± 4,7	0,155
Day 49	37,7 ± 0,6 b	51,3 ± 4,0 a	40,0 ± 2,6 b	0,002
Day 56	29.3 ± 11,5 b	53,0 ± 8,5 a	30,7 ± 8,1 b	0,039
Day 63	36,0 ± 19,2	47,7 ± 10,4	40,0 ± 1,7	0,550
Day 70	28,3 ± 3,1 b	46,7 ± 5,9 a	41,3 ± 5,7 a	0,011

Days after Infection (DAI)	Spermatic pathologies (%) per group			Value-p² 2 The p-value refers to the result of the Kruskal-Wallis test for independent samples.Days when the Kruskal-Wallis test showed a significant result (p <0,05) are maked in bold,different letters indicate significant differences between groups observed after Dunn's test for multiple comparisons.
Days after Infection (DAI)	Inoculated with saline solutino (GI -Control)	Inoculated with 1 x 10⁶ tachyzoites (GE)	Inoculated with 2 x 10⁵ oocysts (GIH)
Day -2	1,3 ± 0,6	4,7 ± 1,2	5,3 ± 1,5	0,054
Day 3	1,0 ± 0,0	2,0 ± 1,0	1,0 ± 1,0	0,294
Day 5	4,7 ±1,2	4,3 ± 0,6	2,7 ± 1,2	0,136
Day 7	3,0 ± 1,0	6,0 ± 1,0	3,3 ± 0,6	0,057
Day 11	3,7 ± 0,6	2,0 ± 1,0	2,0 ± 1,0	0,104
Day 14	1,7 ± 0,6	1,3 ± 1,5	1,7 ± 0,6	0,860
Day 21	2,0 ± 0,0 ab	1,3 ± 0,6 b	3,7 ± 0,6 a	0,032
Day 28	1,3 ± 0,6 b	2,0 ± 1,0 ab	4,7 ± 1,2 a	0,048
Day 35	5,7 ± 3,8	4,3 ± 3,2	6,3 ± 2.1	0,553
Day 42	2,0 ± 1,0	3,3 ± 0,6	5,0 ± 1,7	0,088
Day 49	3,3 ± 0,6	4,0 ± 1,0	4,0 ± 2,0	0,717
Day 56	0,3 ± 0,6 b	2,0 ± 1,0 ab	5,3 ± 1,5 a	0,031
Day 63	1,7 ± 0,6	2,0 ± 1,7	4,3 ± 0,6	0,100
Day 70	4,3 ± 1,5	4,7 ± 1,2	5,3 ± 2,1	0,741

Brasil

Brasil

CLINICAL, HEMATOLOGICAL, AND SEMINAL ALTERATIONS AND PARASITEMIA OF MALE GOATS EXPERIMENTALLY INFECTED WITH Toxoplasma gondii

ALTERAÇÕES CLÍNICAS, HEMATOLÓGICAS, SEMINAIS E PARASITEMIA DE CAPRINOS MACHOS EXPERIMENTALMENTE INFECTADOS COM Toxoplasma gondii

Abstract:

Resumo:

Introduction

Material and Methods

Results and Discussion

Conclusion

Acknowledgements

References

Publication Dates

History