Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2017 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
| Texto Completo: | http://hdl.handle.net/10400.6/6689 |
Resumo: | In recent decades, several studies have shown a decline in male fertility. As wireless technologies, which use Wi-Fi, and the time spent with them are increasing, the relationship between these two facts has been a subject of investigation. There are several articles that demonstrate the negative consequences of electromagnetic radiation of wireless devices on male fertility, affecting sperm parameters: reducing motility and viability, increasing the percentage of spermatozoa with an abnormal morphology and decreasing sperm concentration. There are also studies that show that the electromagnetic radiation of these devices enhances oxidative stress and increases reactive oxygen species, and is also capable of causing histopathological changes in the male reproductive organs and even alter the production of hormones important for male fertility, such as testosterone. However, all studies show flaws in the design of a realistic model of radiation exposure and there are no studies concerning the effects of electromagnetic radiation on testicular metabolism. A normal reproductive function is affected by the process of spermatogenesis, which in turn is dependent on the testicular metabolism, more specifically the Sertoli cells that provide nutritional support. These cells, located within the seminiferous tubules, in normal situations, metabolize the majority of glucose into lactate, with lactate being the preferred substrate for developing germ cells to obtain energy. However, some studies have already demonstrated in specific circumstances, Sertoli cells may use other substrates instead of glucose to obtain energy. To carry out the study, an exposure set up was developed with different electronic components commercially available to expose the seminiferous tubules in culture, in a realistic way to the electromagnetic radiation. For the validation of the developed set up, spermatozoa of adult mice were exposed for 1 hour to the electromagnetic radiation of the apparatus. From this experiment the results showed a significant decrease in sperm motility of the exposed group comparing to the control group, validating the model. From the metabolism study performed, exposing seminiferous tubules from 20-day-old rats to the built equipment, our results showed that electromagnetic radiation significantly decreased glucose consumption, however, contradictly lactate production increased significantly. The lactate dehydrogenase activity was evaluated and although not significant, the electromagnetic radiation caused an increase. Contradictory results between glucose consumption and lactate production suggest that, when exposed to electromagnetic radiation from Wi-Fi devices, cells responsible for testicular metabolism, namely Sertoli cells in the seminiferous tubules, may use alternative metabolic pathways to produce lactate and consequently obtain energy. In conclusion, this study showed that the exposure model was successfully created and validated and that electromagnetic radiations from Wi-Fi equipment, in addition to causing negative changes in the sperm parameters of the cells, promote changes in normal glycolytic metabolism, suggesting the use of an alternative way of obtaining energy which may have effects on spermatogenesis and affect male fertility. |
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Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex VivoFertilidade MasculinaMetabolismo Glicolítico.Radiação EletromagnéticaTúbulos SeminíferosWi-FiDomínio/Área Científica::Ciências Médicas::Ciências BiomédicasIn recent decades, several studies have shown a decline in male fertility. As wireless technologies, which use Wi-Fi, and the time spent with them are increasing, the relationship between these two facts has been a subject of investigation. There are several articles that demonstrate the negative consequences of electromagnetic radiation of wireless devices on male fertility, affecting sperm parameters: reducing motility and viability, increasing the percentage of spermatozoa with an abnormal morphology and decreasing sperm concentration. There are also studies that show that the electromagnetic radiation of these devices enhances oxidative stress and increases reactive oxygen species, and is also capable of causing histopathological changes in the male reproductive organs and even alter the production of hormones important for male fertility, such as testosterone. However, all studies show flaws in the design of a realistic model of radiation exposure and there are no studies concerning the effects of electromagnetic radiation on testicular metabolism. A normal reproductive function is affected by the process of spermatogenesis, which in turn is dependent on the testicular metabolism, more specifically the Sertoli cells that provide nutritional support. These cells, located within the seminiferous tubules, in normal situations, metabolize the majority of glucose into lactate, with lactate being the preferred substrate for developing germ cells to obtain energy. However, some studies have already demonstrated in specific circumstances, Sertoli cells may use other substrates instead of glucose to obtain energy. To carry out the study, an exposure set up was developed with different electronic components commercially available to expose the seminiferous tubules in culture, in a realistic way to the electromagnetic radiation. For the validation of the developed set up, spermatozoa of adult mice were exposed for 1 hour to the electromagnetic radiation of the apparatus. From this experiment the results showed a significant decrease in sperm motility of the exposed group comparing to the control group, validating the model. From the metabolism study performed, exposing seminiferous tubules from 20-day-old rats to the built equipment, our results showed that electromagnetic radiation significantly decreased glucose consumption, however, contradictly lactate production increased significantly. The lactate dehydrogenase activity was evaluated and although not significant, the electromagnetic radiation caused an increase. Contradictory results between glucose consumption and lactate production suggest that, when exposed to electromagnetic radiation from Wi-Fi devices, cells responsible for testicular metabolism, namely Sertoli cells in the seminiferous tubules, may use alternative metabolic pathways to produce lactate and consequently obtain energy. In conclusion, this study showed that the exposure model was successfully created and validated and that electromagnetic radiations from Wi-Fi equipment, in addition to causing negative changes in the sperm parameters of the cells, promote changes in normal glycolytic metabolism, suggesting the use of an alternative way of obtaining energy which may have effects on spermatogenesis and affect male fertility.Nas últimas décadas, vários estudos evidenciaram uma diminuição da fertilidade masculina. À medida que as tecnologias sem fios, Wi-Fi, e o tempo gasto com a sua utilização estão a aumentar, a relação entre estes dois fatos tem sido um tema de investigação. Existem vários artigos que demonstram as consequências negativas da radiação eletromagnética de dispositivos sem fios na fertilidade masculina, afetando os parâmetros espermáticos nomeadamente reduzindo a motilidade e viabilidade, aumentando a percentagem de espermatozóides com uma morfologia anormal e diminuindo a concentração espermática. Existem inclusivamente estudos que revelam que a radiação eletromagnética destes aparelhos potencia o stress oxidativo e aumenta as espécies reativas de oxigénio, sendo também capaz de provocar alterações histopatológicas nos órgãos reprodutores masculinos e até mesmo alterar a produção de hormonas importantes para a fertilidade masculina, como a testosterona. No entanto, todos os estudos mostram falhas na concepção de um modelo realista de exposição à radiação e não existem estudos sobre os efeitos da radiação eletromagnética no metabolismo testicular. Uma função reprodutiva normal é afectada pelo processo de espermatogénese, que por sua vez está dependente do metabolismo testicular, mais especificamente das células de Sertoli que fornecem suporte nutricional às células germinativas em desenvolvimento. As células de Sertoli, localizadas no interior dos túbulos seminíferos, em situações normais, metabolizam a maioria da glucose a lactato, sendo o lactato o substrato preferido para as células germinativas em desenvolvimento obterem energia. Contudo, alguns estudos já demonstraram que em circunstâncias específicas, as células de Sertoli podem usar outros substratos em vez da glucose para obter energia. Para realizar o estudo, foi construído um set up de exposição constituído por diferentes componentes eletrónicos comercialmente disponiveis para expor os túbulos seminíferos em cultura, de uma forma realística à radiação eletromagnética. Para a validação do modelo de exposição construído, espermatozóides de ratos adultos foram expostos durante 1 hora à radiação eletromagnética do set up desenvolvido. Desta experiência os resultados revelaram uma diminuição significativa na motilidade dos espermatozóides do grupo exposto em relação aos do grupo controlo, validando o modelo. Do estudo de metabolismo realizado, expondo túbulos seminíferos de ratos de 20 dias ao equipamento construído, os nossos resultados mostraram que a radiação eletromagnética diminuiu significativamente o consumo de glucose, no entanto contraditoriamente, a produção de lactato aumentou significativamente. A actividade da enzima lactato desidrogenase foi avaliada e embora não significativo, a radiação electromagnética causou um aumento da mesma. Os resultados obtidos contraditórios entre o consumo de glicose e a produção de lactato sugerem que, quando expostos a radiação eletromagnética de dispositivos Wi-Fi, as células responsáveis pelo metabolismo testicular, nomeadamente as células de Sertoli nos túbulos seminiferos, podem usar vias metabólicas alternativas para a produção de lactato e consequentemente obter energia. Em conclusão, este estudo demonstrou que o modelo de exposição à radiação eletromagnética de aparelhos Wi-Fi foi criado e validado com sucesso e que a radiação eletromagnética proveniente destes equipamentos, para além de causar alterações negativas nos parâmetros espermáticos das células germinativas, promove alterações no metabolismo glicolítico normal, sugerindo a utilização de uma via alternativa de obtenção de energia que pode ter efeitos na espermatogénese e afectar a fertilidade masculina.Cavaco, José Eduardo BritesEspírito Santo, António Eduardo Vitória douBibliorumPinto, Patrícia Feliciano2019-09-29T00:30:28Z2017-10-242017-10-22017-10-24T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10400.6/6689TID:202107620enginfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2023-12-15T09:45:24Zoai:ubibliorum.ubi.pt:10400.6/6689Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T00:47:21.427368Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
| dc.title.none.fl_str_mv |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo |
| title |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo |
| spellingShingle |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo Pinto, Patrícia Feliciano Fertilidade Masculina Metabolismo Glicolítico. Radiação Eletromagnética Túbulos Seminíferos Wi-Fi Domínio/Área Científica::Ciências Médicas::Ciências Biomédicas |
| title_short |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo |
| title_full |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo |
| title_fullStr |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo |
| title_full_unstemmed |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo |
| title_sort |
Effects of Wi-Fi Radiation on Metabolism of Rat Immature Seminiferous Tubules Ex Vivo |
| author |
Pinto, Patrícia Feliciano |
| author_facet |
Pinto, Patrícia Feliciano |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Cavaco, José Eduardo Brites Espírito Santo, António Eduardo Vitória do uBibliorum |
| dc.contributor.author.fl_str_mv |
Pinto, Patrícia Feliciano |
| dc.subject.por.fl_str_mv |
Fertilidade Masculina Metabolismo Glicolítico. Radiação Eletromagnética Túbulos Seminíferos Wi-Fi Domínio/Área Científica::Ciências Médicas::Ciências Biomédicas |
| topic |
Fertilidade Masculina Metabolismo Glicolítico. Radiação Eletromagnética Túbulos Seminíferos Wi-Fi Domínio/Área Científica::Ciências Médicas::Ciências Biomédicas |
| description |
In recent decades, several studies have shown a decline in male fertility. As wireless technologies, which use Wi-Fi, and the time spent with them are increasing, the relationship between these two facts has been a subject of investigation. There are several articles that demonstrate the negative consequences of electromagnetic radiation of wireless devices on male fertility, affecting sperm parameters: reducing motility and viability, increasing the percentage of spermatozoa with an abnormal morphology and decreasing sperm concentration. There are also studies that show that the electromagnetic radiation of these devices enhances oxidative stress and increases reactive oxygen species, and is also capable of causing histopathological changes in the male reproductive organs and even alter the production of hormones important for male fertility, such as testosterone. However, all studies show flaws in the design of a realistic model of radiation exposure and there are no studies concerning the effects of electromagnetic radiation on testicular metabolism. A normal reproductive function is affected by the process of spermatogenesis, which in turn is dependent on the testicular metabolism, more specifically the Sertoli cells that provide nutritional support. These cells, located within the seminiferous tubules, in normal situations, metabolize the majority of glucose into lactate, with lactate being the preferred substrate for developing germ cells to obtain energy. However, some studies have already demonstrated in specific circumstances, Sertoli cells may use other substrates instead of glucose to obtain energy. To carry out the study, an exposure set up was developed with different electronic components commercially available to expose the seminiferous tubules in culture, in a realistic way to the electromagnetic radiation. For the validation of the developed set up, spermatozoa of adult mice were exposed for 1 hour to the electromagnetic radiation of the apparatus. From this experiment the results showed a significant decrease in sperm motility of the exposed group comparing to the control group, validating the model. From the metabolism study performed, exposing seminiferous tubules from 20-day-old rats to the built equipment, our results showed that electromagnetic radiation significantly decreased glucose consumption, however, contradictly lactate production increased significantly. The lactate dehydrogenase activity was evaluated and although not significant, the electromagnetic radiation caused an increase. Contradictory results between glucose consumption and lactate production suggest that, when exposed to electromagnetic radiation from Wi-Fi devices, cells responsible for testicular metabolism, namely Sertoli cells in the seminiferous tubules, may use alternative metabolic pathways to produce lactate and consequently obtain energy. In conclusion, this study showed that the exposure model was successfully created and validated and that electromagnetic radiations from Wi-Fi equipment, in addition to causing negative changes in the sperm parameters of the cells, promote changes in normal glycolytic metabolism, suggesting the use of an alternative way of obtaining energy which may have effects on spermatogenesis and affect male fertility. |
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2017 |
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2017-10-24 2017-10-2 2017-10-24T00:00:00Z 2019-09-29T00:30:28Z |
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