Adrenal activity and anxiety-like behavior in fur-chewing chinchillas (Chinchilla lanigera).

Due to its complexity, in combination with a lack of scientific reports, fur-chewing became one of the most challenging behavioral problems common to captive chinchillas. In the last years, the hypothesis that fur-chewing is an abnormal repetitive behavior and that stress plays a role in its development and performance has arisen. Here, we investigated whether a relationship existed between the expression and intensity of fur-chewing behavior, elevated urinary cortisol excretion and anxiety-related behaviors. Specifically, we evaluated the following parameters in behaviorally normal and fur-chewing animals of both sexes: (1) mean concentrations of urinary cortisol metabolites and (2) anxiety-like behavior in an elevated plus-maze test. Urinary cortisol metabolites were higher only in females that expressed the most severe form of the fur-chewing behavior (P≤0.05). Likewise, only fur-chewing females exhibited increased (P≤0.05) anxiety-like behaviors associated with the elevated plus-maze test. Overall, these data provided additional evidence to support the concept that fur-chewing is a manifestation of physiological stress in chinchilla, and that a female sex bias exists in the development of this abnormal behavior.

Surtos de intoxicação por salinomicina em chinchilas (Chinchilla lanigera) / Outbreaks of salinomycin toxicosis in Chinchillas (Chinchilla lanigera)

Quatro surtos de intoxicação por salinomicina são descrito em chinchilas de três municípios do Estado do Rio Grande do Sul. Uma semana após a ingestão de ração contendo 37 ppm de salinomicina, aproximadamente duas mil chinchilas de quatro fazendas expostas diminuíram o consumo da ração. Quatrocentos e vinte sete chinchilas demonstraram apatia. Dessas, duzentos e setenta e sete desenvolveram decúbito esternal e lateral, dispneia e coma, seguidos de morte. As primeiras mortes ocorreram oito dias após a ingestão da ração. A evolução dos sinais clínicos até a morte ou eutanásia foi de 2-5 dias. Os exames bioquímicos do soro sanguíneo em quatro chinchilas revelaram níveis aumentados da alanina aminotransferase, aspartato transaminase, fosfatase alcalina, creatina cinase, glicose, triglicerídeos e colesterol total. Quarenta e cinco chinchilas foram submetidas à necropsia. Os achados macroscópicos consistiam de marcada lipidose hepática em todas as chinchilas necropsiadas; fetos em estado de decomposição em doze chinchilas que estavam prenhes. Microscopicamente, múltiplas fibras musculares esqueléticas estavam hipereosinofílicas, tumefeitas e com perda das estriações. Nas chinchilas que sobreviveram por mais dias era possível observar segmentos fragmentados de miofibras afetadas (necrose flocular) e regeneração de miofibras. No fígado foi observada marcada degeneração gordurosa. Não foram observadas anormalidades microscópicas nos demais órgãos analisados. Análises à procura de aflatoxinas, resíduos de pesticidas e isolamento bacteriano foram negativos. A análise da ração por cromatografia líquida revelou 37ppm de salinomicina na ração. A ração suspeita foi administrada a 12 chinchilas, três das quais (25 por cento) morreram apresentando lesões semelhantes às observadas nas chinchilas com a doença natural. O diagnóstico de intoxicação por salinomicina foi baseado na epidemiologia, lesões histológicas características e na presença de salinomicina na ração administrada nas quatro criações envolvidas.(AU)

Four outbreaks of ionophore toxicosis are described in chinchillas from four commercial farms located in three municipalities in the state of Rio Grande do Sul, southern Brazil. Approximately 2,000 chinchillas showed decrease in food intake one week after start ingesting a ration containing 37 ppm of salinomycin. Four hundred and twenty seven chinchillas showed apathy. Of those 277 develop sternal and lateral recumbence, dyspnea and coma followed by death. First deaths occurred eight days after the start on the salinomycin containing ration; clinical course was 2-5 days. Serum chemistry carried out in four chinchillas revealed increased levels of alanine transaminase, aspartate transaminase, alkaline phosphatase, creatinenin kinase, glucose, triglicerids and total cholesterol. Forty five affected chinchillas were necropsied; consistent necropsy findings were marked hepatic lipidosis; additionally twelve pregnant chinchillas had dead decomposing fetuses. Microscopically skeletal muscles had multifocally swollen hypereosinophilic myofibers with loss of cross striations. In those chinchillas that survived longer than a few days, microscopic features in the skeletal muscle included segmental fragmentation of dead fibers (floccular necrosis) and myofiber regeneration. Marked fatty degeneration was observed in the livers of all affected chinchillas. No microscopic changes were observed in other organs. Chemical analysis in the feed consumed by the chinchillas did not detect aflatoxins or pesticides residues; bacterial culture performed in samples of liver and intestinal contents from necropsied chinchillas yielded no significant bacterial growth. Analysis by thin layer chromatography performed in the ration consumed by the chinchillas detected 37 ppm of salinomycin. The suspected ration was fed to 12 chinchillas three of which (25 percent) died with similar lesions to those observed in the natural cases. The diagnosis of salinomycin toxicosis was based in the epidemiology, histology of the lesions, on the detection of significant amounts of salinomycin in the ration used to feed the chinchillas in the four involved farms and on the reproduction of disease by feeding the suspected ration to susceptible chinchillas.(AU)

Surtos de intoxicação por salinomicina em chinchilas (Chinchilla lanigera) / Outbreaks of salinomycin toxicosis in Chinchillas (Chinchilla lanigera)

Quatro surtos de intoxicação por salinomicina são descrito em chinchilas de três municípios do Estado do Rio Grande do Sul. Uma semana após a ingestão de ração contendo 37 ppm de salinomicina, aproximadamente duas mil chinchilas de quatro fazendas expostas diminuíram o consumo da ração. Quatrocentos e vinte sete chinchilas demonstraram apatia. Dessas, duzentos e setenta e sete desenvolveram decúbito esternal e lateral, dispneia e coma, seguidos de morte. As primeiras mortes ocorreram oito dias após a ingestão da ração. A evolução dos sinais clínicos até a morte ou eutanásia foi de 2-5 dias. Os exames bioquímicos do soro sanguíneo em quatro chinchilas revelaram níveis aumentados da alanina aminotransferase, aspartato transaminase, fosfatase alcalina, creatina cinase, glicose, triglicerídeos e colesterol total. Quarenta e cinco chinchilas foram submetidas à necropsia. Os achados macroscópicos consistiam de marcada lipidose hepática em todas as chinchilas necropsiadas; fetos em estado de decomposição em doze chinchilas que estavam prenhes. Microscopicamente, múltiplas fibras musculares esqueléticas estavam hipereosinofílicas, tumefeitas e com perda das estriações. Nas chinchilas que sobreviveram por mais dias era possível observar segmentos fragmentados de miofibras afetadas (necrose flocular) e regeneração de miofibras. No fígado foi observada marcada degeneração gordurosa. Não foram observadas anormalidades microscópicas nos demais órgãos analisados. Análises à procura de aflatoxinas, resíduos de pesticidas e isolamento bacteriano foram negativos. A análise da ração por cromatografia líquida revelou 37ppm de salinomicina na ração. A ração suspeita foi administrada a 12 chinchilas, três das quais (25 por cento) morreram apresentando lesões semelhantes às observadas nas chinchilas com a doença natural. O diagnóstico de intoxicação por salinomicina foi baseado na epidemiologia, lesões histológicas características e na presença de salinomicina na ração administrada nas quatro criações envolvidas.

Four outbreaks of ionophore toxicosis are described in chinchillas from four commercial farms located in three municipalities in the state of Rio Grande do Sul, southern Brazil. Approximately 2,000 chinchillas showed decrease in food intake one week after start ingesting a ration containing 37 ppm of salinomycin. Four hundred and twenty seven chinchillas showed apathy. Of those 277 develop sternal and lateral recumbence, dyspnea and coma followed by death. First deaths occurred eight days after the start on the salinomycin containing ration; clinical course was 2-5 days. Serum chemistry carried out in four chinchillas revealed increased levels of alanine transaminase, aspartate transaminase, alkaline phosphatase, creatinenin kinase, glucose, triglicerids and total cholesterol. Forty five affected chinchillas were necropsied; consistent necropsy findings were marked hepatic lipidosis; additionally twelve pregnant chinchillas had dead decomposing fetuses. Microscopically skeletal muscles had multifocally swollen hypereosinophilic myofibers with loss of cross striations. In those chinchillas that survived longer than a few days, microscopic features in the skeletal muscle included segmental fragmentation of dead fibers (floccular necrosis) and myofiber regeneration. Marked fatty degeneration was observed in the livers of all affected chinchillas. No microscopic changes were observed in other organs. Chemical analysis in the feed consumed by the chinchillas did not detect aflatoxins or pesticides residues; bacterial culture performed in samples of liver and intestinal contents from necropsied chinchillas yielded no significant bacterial growth. Analysis by thin layer chromatography performed in the ration consumed by the chinchillas detected 37 ppm of salinomycin. The suspected ration was fed to 12 chinchillas three of which (25 percent) died with similar lesions to those observed in the natural cases. The diagnosis of salinomycin toxicosis was based in the epidemiology, histology of the lesions, on the detection of significant amounts of salinomycin in the ration used to feed the chinchillas in the four involved farms and on the reproduction of disease by feeding the suspected ration to susceptible chinchillas.

The pituitary of non-pregnant and pregnant viscachas (Lagostomus maximus maximus): a comparative study by immunohistochemistry and morphometric analysis.

The neuroendocrine hypothalamic-pituitary axis undergoes morphological and biochemical changes throughout gestation. In viscacha, pregnancy lasts approximately 154 days, and three stages can be described: early, mid- and late pregnancy. The aim of this work was to study the pituitary LH-gonadotrophs, FSH-gonadotrophs, somatotrophs, corticotrophs and thyrotrophs of non-pregnant and pregnant adult viscachas by immunohistochemistry and morphometric analysis. Immunopositive percentage area (%IA), cell percentage in the pars distalis (%PDC), number of cells per reference area (n°cell/RA), and major cellular (MCD) and nuclear (ND) diameters were analyzed. The different cell populations showed a well-defined morphology, immunolabeling patterns and regionalization in the pars distalis (PD). In the early pregnancy of animals the morphometric analysis demonstrated that %IA, %PDC and n°cell/RA increased in the FSH-gonadotrophs and decreased in the somatotrophs in relation to non-pregnant animals. In mid-pregnancy, there was an increase in %IA, %PDC, and n°cell/RA of LH-gonadotrophs, FSH-gonadotrophs, somatotrophs, and thyrotrophs. The MCD of LH-gonadotrophs and FSH-gonadotrophs increased. In late pregnancy, the %IA, %PDC and n°cell/RA of LH-gonadotrophs, FSH-gonadotrophs, somatotrophs and corticotrophs decreased whereas the values of the thyrotrophs remained constant. The MCD of LH-gonadotrophs, FSH-gonadotrophs and corticotrophs decreased. No significant changes were observed in the ND of the studied cell types. In conclusion, this work provides evidence for histological and morphometric changes in the different cell types of the pituitary PD in viscachas during pregnancy, probably according to the requirements of this physiological stage.

Assessment of urine and fecal testosterone metabolite excretion in Chinchilla lanigera males.

Endemic chinchilla (Chinchilla spp.) populations are nearly extinct in the wild (South America). In captive animals (Chinchilla lanigera and C. brevicaudata), reproduction is characterized by poor fertility and limited by seasonal breeding patterns. Techniques applied for studying male reproductive physiology in these species are often invasive and stressful (i.e. repeated blood sampling for sexual steroids analysis). To evaluate endocrine testicular function, the present experiments were designed to (a) determine the main route of testosterone excretion (14C-testosterone infusion in four males); (b) validate urine and fecal testosterone metabolite measurements (HPLC was used to separate metabolites and immunoreactivity was assessed in all metabolites using a commercial testosterone radioimmunoassay, and parallelism, accuracy and precision tests were conducted to validate the immunoassay); and (c) investigate the biological relevance of the techniques applied (quantification of testosterone metabolite excretion into urine and feces from five males injected with hCG and comparison between 10 males and 10 females). Radiolabelled metabolites of 14C-testosterone were excreted, 84.7+/-4.2 % in urine and 15.2+/-3.9 % in feces. A total of 82.7+/-4.2% of urinary and 45.7+/-13.6% of fecal radioactivity was excreted over the first 24 h period post-infusion (metabolite concentration peaked at 8.2+/-2.5 h and 22.0+/-7.0 h, respectively). Several urinary and fecal androgen metabolites were separated by HPLC but only fecal metabolites were associated with native testosterone; however, there was immunoreactivity in more than one metabolite derived from 14C-testosterone. After hCG administration, an increase in androgen metabolite excretion was observed (p<0.05). Males excreted greater amounts daily of urinary androgen metabolites as compared with females (p<0.05); this difference was not evident in feces. Results of the present study indicate that the procedure used is a reliable and non-invasive method to repeatedly monitor variations in testicular endocrine activity in this species. It can be a useful tool that would help ensure the survival of the wild populations as well as to provide the basis for a more efficient use by the fur industry.

A non-invasive method for assessing adrenal activity in the chinchilla (Chinchilla lanigera).

The Chinchilla is a rodent that was once abundant in the central Andes of South America. Excessive hunting for fur greatly reduced its distribution at the beginning of the twentieth century, and today Chinchilla species are nearly extinct in the wild. Although protected, wild populations of chinchilla are still declining. In general, this species has received little research attention and its biology is poorly understood. Improvements in captive breeding, husbandry, and genetic management are needed to ensure the conservation of the species. In this study, a noninvasive corticosteroid hormone monitoring technique was validated for use in Chinchilla lanigera. Two male domestic chinchillas were administered 3H-corticosterone (i.m.) to determine the time course and relative proportion of urinary and fecal steroid metabolites. Most radioactivity was detected in urine and feces 5-10 and approximately 30 h post-isotope administration, respectively. Corticosteroid immunoreactivity was assessed by corticosterone radioimmunoassay (RIA) and cortisol enzyme immunoassay (EIA). High-pressure liquid chromatography (HPLC) separation of corticosteroid metabolites in unprocessed urine revealed the presence of highly polar corticosteroid metabolites, but after enzymatic hydrolysis and diethyl ether extraction, most immunoreactivity co-eluted with unconjugated cortisol. A 'cause-and-effect' relationship between the administration of exogenous adrenocorticotrophic hormone (ACTH), and the appearance of increased urinary corticosteroid metabolites demonstrated the physiological relevance of these measures for evaluating adrenal status in male chinchillas. From a conservation perspective, these methods can aid in situ and ex situ initiatives designed to evaluate how environmental conditions and management strategies affect overall animal health, well-being and reproduction.