Hyperthermia and not hypoxia may reduce sperm motility and morphology following testicular hyperthermia

Kastelic, John P.; Wilde, R.E.; Rizzoto, Guilherme; Thundathil, Jacob C.

doi:10.17221/124/2016-vetmed

Cited by 29 publications

(14 citation statements)

References 33 publications

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“…In conclusion, under acute hypoxic conditions (13% oxygen in inspired air), the testis maintained oxygen delivery and uptake by increasing blood flow and oxygen extraction, with no indications of a shift to anaerobic metabolism. Similarly, in our previous study in conscious rams, exposure of control rams (no scrotal insulation) to 85, 21 and 14% oxygen for 30 h had no significant effect on semen quality 13 . Thus, we concluded that the testis compensated for decreased oxygen concentrations in inspired air, although this needs additional confirmation.…”

Section: Discussionsupporting

confidence: 67%

“…Although hyperemia was reported when testes not covered by the scrotum were exposed to increased temperatures 12 , this was not regarded as sufficient evidence to challenge the classical view that hypoxia mediates damage caused by testicular hyperthermia. In a previous preliminary study 13 , conscious rams breathed inspired air containing 85, 21 or 14% oxygen for 30 h. Half of the rams had an insulated scrotum (a well-established model to increase testicular temperature); in those rams, percentages of morphologically normal sperm and motile sperm were significantly decreased from ~2 to 5 wk after exposure. Furthermore, in that study, hyperoxia did not mitigate effects of scrotal insulation, nor did hypoxia cause subsequent decreases in morphologically normal or motile sperm.…”

Section: Introductionmentioning

confidence: 97%

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Increased testicular blood flow maintains oxygen delivery and avoids testicular hypoxia in response to reduced oxygen content in inspired air

Rizzoto

Hall

Tyberg

et al. 2018

Sci Rep

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Despite a long-standing assertion that mammalian testes operate near hypoxia and increased testicular temperature causes frank hypoxia, we have preliminary evidence that changes are due to hyperthermia per se. The objective was to determine how variations in inspired oxygen concentration affected testicular blood flow, oxygen delivery and extraction, testicular temperature and lactate production. Eight rams were maintained under general anesthesia, with successive decreases in oxygen concentration in inspired air (100, 21 and 13%, respectively). As oxygen concentration decreased from 100 to 13%, there were increases in testicular blood flow (9.6 ± 1.7 vs 12.9 ± 1.9 ml/min/100 g of testis, P < 0.05; mean ± SEM) and conductance (normalized flow; 0.46 ± 0.07 to 1.28 ± 0.19 ml/min/mm Hg/100 g testis (P < 0.05). Increased testicular blood flow maintained oxygen delivery and increased testicular temperature by ~1 °C; this increase was correlated to increased testicular blood flow (r = 0.35, P < 0.0001). Furthermore, oxygen utilization increased concomitantly and there were no significant differences among oxygen concentrations in blood pH, HCO3− or base excess, and no effects of venous-arterial differences in lactate production. In conclusion, under acute hypoxic conditions, testes maintained oxygen delivery and uptake by increasing blood flow and oxygen extraction, with no evidence of anaerobic metabolism. However, additional studies are needed to determine longer-term responses and potential evidence of anaerobic metabolism at the molecular level.

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Section: Discussionsupporting

confidence: 67%

Section: Introductionmentioning

confidence: 97%

Increased testicular blood flow maintains oxygen delivery and avoids testicular hypoxia in response to reduced oxygen content in inspired air

Rizzoto

Hall

Tyberg

et al. 2018

Sci Rep

Self Cite

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“…It is known that the thermoregulation mechanisms of the male reproductive organ are not totally efficient (Losano et al, 2018). In the case of thermal stress, the increase in scrotal/testicular temperature occurs, thereby increasing cellular metabolism in the testicles, which leads to a higher O 2 need (Kastelic, Wilde, Rizzoto, & Thundathil, 2017). Testicular blood supply is limited and will not be enough to supply the increase in O 2 demand in testicular cells, which leads to cell death and testicular degeneration, affecting both spermatogenesis and androgenesis (Paul, Teng, & Saunders, 2009).…”

Section: Resultsmentioning

confidence: 99%

Scrotal thermography to assess the seminal quality in Nelore and Girolando bulls

Júnior

Souza

Martins

et al. 2020

SCA

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Highlights:Nelore bulls sowed lower ocular globe and scrotum surface temperatures than Girolando bulls. Nellore bulls had greater spermatic motility, vigor and fewer spermatic defects that Girolando bulls. Nelore bulls showed greater adaptability to tropical climate than Girolando bulls. AbstractBull selection by andrological examination aims to estimate the reproductive capacity of the male. Bulls of zebu origin adapt better to high temperatures than bulls of taurine origin, which may influence scrotum temperature and seminal quality due to the imbalance of testicular thermoregulation. The objective of this study was to investigate the relationship between bioclimatic variables, the temperature of body and scrotal areas, assessed with infrared thermography, and the quality of fresh and post-thawed semen in zebu Nelore bulls (Bos taurus indicus) and Girolando bulls (Bos taurus taurus x Bos taurus indicus). Bulls were kept in pickets with access to water, mineral mix and a diet supplemented with concentrate. Infrared thermographs of the scrotum, orbital globe and muzzle were performed twice a week with a Flir E40 thermal imager. For scrotal thermograms, we analyzed the temperatures of the spermatic cord, proximal and distal portion of the testes and tail of the epididymis using the Flir Tools software. Samples were collected using an artificial vagina and the ejaculates were processed and frozen in liquid nitrogen until further analyses. Data were analyzed with the Tukey test or the Kruskall-Wallis test, depending on their normal distribution. Our results showed differences (p < 0.05) between the two breeds regarding the temperature in the ocular globe, spermatic cord and proximal portion of the scrotum. Nelore bulls presented lower temperature in the body and in certain regions of the scrotum compared to Girolando bulls. Seminal characteristics varied between breeds, with the Nelore breed presenting better semen. Positive correlations were observed between minor sperm defects and ventral regions of the testes and tails of the epididymis in Girolando bulls. Nelore bulls were less influenced by climatic variables and presented lower temperature in skin surface areas in the infrared thermography examination compared to Girolando bulls. Nelore bulls presented superior semen quality in both fresh and thawed samples than Girolando bulls.A seleção de touros pelo exame andrológico visa estimar a capacidade reprodutiva do macho. Touros de origem zebuína apresentam melhor adaptabilidade às altas temperaturas, em relação aos touros de origem taurina, podendo influenciar na temperatura do escroto e na qualidade seminal pelo desequilíbrio da termorregulação testicular. Objetivou-se avaliar a influência das variáveis bioclimáticas e a relação de perfis de termogramas por infravermelho de áreas do corpo e escroto com a qualidade do sêmen fresco e descongelado em touros das raças Nelore e Girolando, mantidos em Central de Inseminação Artificial. Foram utilizados quatro touros Nelore e quatro Girolando, mantidos em piquetes com a...

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“…Em humanos e em animais de produção, para que a espermatogênese ocorra de maneira ideal é necessário que a temperatura testicular esteja de 2 a 6º C abaixo da temperatura corporal ALVES et al, 2016a), o que se denomina de termorregulação testicular. Embora a etiopatogenia da degeneração testicular tenha sido questionada recentemente (KASTELIC et al, 2017), até o momento acredita-se que a perda da termorregulação testicular, ocasionada pelo aumento da temperatura testicular, ocasiona aumento do metabolismo celular sem aumento na oxigenação testicular levando à hipóxia (PAUL et al, 2008;TENG;SAUNDERS, 2009). Essa condição resultará em estresse oxidativo das células presentes no epitélio seminífero, o que pode levar a prejuízos na qualidade espermática como queda de motilidade, aumento da porcentagem de espermatozoides anormais, danos ao DNA espermático e diminuição na concentração sérica de testosterona (ALVES et al, 2015(ALVES et al, , 2016a.…”

Section: Discussionunclassified

>b<Perfil de microRNAs presentes no sêmen e embriões bovinos e sua relação com a fertilidade>/b<

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Dedico esta tese a todos que de alguma forma contribuíram para minha formação. Dedico à minha família espalhada por Ribeirão, Peruíbe e Pirassununga. Dedico ao Tiago, por todo apoio, paciência e carinho. Dedico à minha avó (in memoriam). E, principalmente, dedico à minha mãe, que sempre me incentivou e me apoiou. Que sempre colocou minhas prioridades à frente das dela. E que, sempre me mostrou, desde pequena, que o conhecimento é o maior bem que podemos ter. Agradecimentos Agradeço à minha orientadora Profa. Dra. Eneiva Carla Carvalho Celeghini pelos ensinamentos, confiança, orientação e dedicação. Agradeço muito por ter permitido que fizéssemos colaborações e parcerias que resultassem neste trabalho. Agradeço ao Prof. Dr. Rubens Paes de Arruda pelos ensinamentos, confiança e dedicação. Agradeço muito por ter aprendido com o senhor sobre a Andrologia e sobre a complexidade dessa Ciência. Agradeço ao Prof. Dr. Felipe Perecin e ao Prof. Dr. Juliano Coelho da Silveira pelos ensinamentos, confiança e dedicação. Agradeço à oportunidade de ter feito a disciplina "Aspectos Celulares e Moleculares da Biologia do Desenvolvimento" e ter aprendido tantos assuntos novos que me mostraram outros caminhos. Agradeço pela oportunidade em trabalhar no Laboratório de Morfofisiologia Molecular e Desenvolvimento. Agradeço ao Dr. Manoel Francisco de Sá Filho pela dedicação, parceria e amizade, e à Empresa Alta Geneticis pela parceria e fornecimento das partidas de sêmen utilizadas para o desenvolvimento desta tese. Agradeço ao Prof. Dr. Flávio Vieira Meirelles, ao Prof. Mario Binelli e ao Prof. Dr. Ricardo Pimenta Bertolla pelos ensinamentos, conversas e discussões que levaram ao enriquecimento do trabalho e ao meu crescimento profissional. Agradeço também ao Prof. Dr. Flávio Meirelles pela oportunidade em trabalharmos em parceria no Laboratório de Morfofisiologia Molecular e Desenvolvimento. Agradeço também ao Prof. Dr. Mario Binelli pelos ensinamentos durante o período em que participei, como representante discente, da comissão do Programa de Pós-Graduação em Reprodução Animal. Agradeço ao Prof. Dr. André Furugen Cesar de Andrade pelos ensinamentos durante o período em que fui representante discente, pelas conversas e por ter permitido a utilização do Laboratório de Andrologia e Tecnologia de Embriões Suínos para grande parte das análises aqui realizadas. Agradeço às pós-graduandas Mariana Andrade, Gisele Mouro e Marina Passarelli por sempre atenderem prontamente aos meus pedidos para utilizar o laboratório. Agradeço aos professores do Departamento de Reprodução Animal, Prof.

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Hyperthermia and not hypoxia may reduce sperm motility and morphology following testicular hyperthermia

Cited by 29 publications

References 33 publications

Increased testicular blood flow maintains oxygen delivery and avoids testicular hypoxia in response to reduced oxygen content in inspired air

Increased testicular blood flow maintains oxygen delivery and avoids testicular hypoxia in response to reduced oxygen content in inspired air

Scrotal thermography to assess the seminal quality in Nelore and Girolando bulls

>b<Perfil de microRNAs presentes no sêmen e embriões bovinos e sua relação com a fertilidade>/b<

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