Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress
| Main Author: | |
|---|---|
| Publication Date: | 2017 |
| Format: | Master thesis |
| Language: | eng |
| Source: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Download full: | http://hdl.handle.net/10400.6/6690 |
Summary: | Approximately 15% of couples globally of reproductive age fail to accomplish pregnancy within a year of unprotected intercourse, accounting the male factor approximately 50% of the cases. Over the years male fertility has been decreasing being associated with numerous factors such as lifestyle, tobacco, alcohol and chemicals. However, with technological evolution, another factor has been pointed as an important contributor to infertility: the electromagnetic radiation (EMR) from mobile devices such as mobile phones, tablets and computers. Although there are several studies correlating the EMR and negative effects on male fertility, including the increase in oxidative stress, none of those studies used a realistic model of EMR exposure. Thus, our goal was to build a realistic model of EMR exposure and use it to shed light in the association between EMR from wi-fi devices and male (in)fertility, highlighting oxidative stress and apoptosis. Therefore, firstly we developed the EMR exposure model through 3 instruments: a Wi-fi module (information transmission network), a mbed (programming module of information packets) and a wifly (reception and emissor antenna for information packets). After the development of the exposure model, we proceeded to the validation through the exposure of 3-month-old Wister rat spermatozoa for the time frame of 1h and evaluated the sperm parameters (motility, morphology and viability). Spermatozoa exposure to 2.4GHz of radiation lead to a statistically significant difference in the motility with a 2.4-fold difference, however, there wasn’t a statistically significant difference in the other parameters. Secondly, we proceeded to the selection of the ideal animals age for the present project to study EMR influences through a histological cell population study of the testis of 4 different ages: 19, 20, 21 and 22 days. As the goal of this work was to study animals in the final stages of development and maturation of SCs and in an early development of germ cells, Wistar rats with 20 days were selected. Thus, two groups of ex vivo immature rats (20 days) seminiferous tubules culture (control and exposed) were exposed to 2.4GHz radiation by the created model for 72h, TOS concentrations and Caspase 3 activity were measured. Immature rats Set exposure to our model resulted in statistically significant differences in both TOS concentration and Caspase 3 activity, with a 2-fold difference in the exposed group compared with control group in TOS concentration while Caspase 3 activity had a 1.6-fold difference. Thus, was possible to conclude through motility results that the developed model is effective in the transmission of EMR, simulating the daily use of diverse equipment existing in the present in our homes. Also, the increased in TOS concentration and Caspase 3 activity supports the hypothesis of the use of these technologies being harmful to male fertility thus being a factor to be taken into consideration in the evaluation of male fertility. |
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Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative StressApoptoseInfertilidade MasculinaRadiação Wi-FiStress OxidativoTúbulos SeminíferosApproximately 15% of couples globally of reproductive age fail to accomplish pregnancy within a year of unprotected intercourse, accounting the male factor approximately 50% of the cases. Over the years male fertility has been decreasing being associated with numerous factors such as lifestyle, tobacco, alcohol and chemicals. However, with technological evolution, another factor has been pointed as an important contributor to infertility: the electromagnetic radiation (EMR) from mobile devices such as mobile phones, tablets and computers. Although there are several studies correlating the EMR and negative effects on male fertility, including the increase in oxidative stress, none of those studies used a realistic model of EMR exposure. Thus, our goal was to build a realistic model of EMR exposure and use it to shed light in the association between EMR from wi-fi devices and male (in)fertility, highlighting oxidative stress and apoptosis. Therefore, firstly we developed the EMR exposure model through 3 instruments: a Wi-fi module (information transmission network), a mbed (programming module of information packets) and a wifly (reception and emissor antenna for information packets). After the development of the exposure model, we proceeded to the validation through the exposure of 3-month-old Wister rat spermatozoa for the time frame of 1h and evaluated the sperm parameters (motility, morphology and viability). Spermatozoa exposure to 2.4GHz of radiation lead to a statistically significant difference in the motility with a 2.4-fold difference, however, there wasn’t a statistically significant difference in the other parameters. Secondly, we proceeded to the selection of the ideal animals age for the present project to study EMR influences through a histological cell population study of the testis of 4 different ages: 19, 20, 21 and 22 days. As the goal of this work was to study animals in the final stages of development and maturation of SCs and in an early development of germ cells, Wistar rats with 20 days were selected. Thus, two groups of ex vivo immature rats (20 days) seminiferous tubules culture (control and exposed) were exposed to 2.4GHz radiation by the created model for 72h, TOS concentrations and Caspase 3 activity were measured. Immature rats Set exposure to our model resulted in statistically significant differences in both TOS concentration and Caspase 3 activity, with a 2-fold difference in the exposed group compared with control group in TOS concentration while Caspase 3 activity had a 1.6-fold difference. Thus, was possible to conclude through motility results that the developed model is effective in the transmission of EMR, simulating the daily use of diverse equipment existing in the present in our homes. Also, the increased in TOS concentration and Caspase 3 activity supports the hypothesis of the use of these technologies being harmful to male fertility thus being a factor to be taken into consideration in the evaluation of male fertility.Aproximadamente 15% dos casais mundialmente em idade reprodutiva não engravidam num período de um ano com relações sexuais não protegidas, sendo o fator masculino responsável por aproximadamente 50% dos casos. Ao longo dos anos, a fertilidade masculina tem diminuído sendo associada a vários fatores, como o estilo de vida, o tabaco, o álcool e os produtos químicos. No entanto, com a evolução tecnológica, outro fator foi apontado como uma importante causa para a infertilidade: a radiação eletromagnética (EMR) proveniente de telemóveis, tablets e computadores. Embora existam vários estudos que relacionam a EMR e os efeitos negativos na fertilidade masculina, incluindo o aumento dos níveis de stress oxidativo, nenhum destes estudos utilizou um modelo realístico de exposição à EMR. Desta forma, o nosso objetivo foi construir um modelo realístico de exposição a EMR com o intuito de estudar as influências destas radiações na fertilidade masculina com destaque para o stress oxidativo e a apoptose. Em primeiro lugar foi desenvolvido o modelo de exposição às EMR através da utilização de 3 instrumentos: um módulo wi-fi (rede de transmissão de informação), um mbed (modulo de programação dos pacotes de informação) e um wifly (antena de receção e emissão de pacotes de informação). Depois de desenvolvido o modelo, procedemos à sua validação através da exposição de espermatozóides de ratos Wistar com 3 meses ao nosso modelo durante 1h tendo sido avaliados parâmetros espermáticos (motilidade, morfologia e viabilidade). Esta exposição a radiações da gama dos 2.4GHz levou a diferenças estatisticamente significativas da motilidade com um aumento de 2.8 vezes do grupo exposto em relação ao grupo controlo, não se verificando diferenças significativas nos restantes parâmetros espermáticos. Para além disso, procedemos também à seleção da idade dos ratos Wistar para estudar a influência das EMR avaliando-se histologicamente a população celular de testículos de ratos com 19, 20, 21 e 22 dias. Tendo em consideração que para o objetivo deste trabalho pretendíamos estudar animais no final do desenvolvimento e maturação das células de Sertoli (SCs), mas com reduzido desenvolvimento das células germinativas foi selecionada a idade de 20 dias para o presente estudo. Sendo assim, dois grupos (controle e exposto) de cultura de túbulos seminíferos (Set) de ratos ex vivo imaturos (20 dias) foram expostos a radiações na gama dos 2.4GHz através do nosso modelo durante 72h, avaliando-se a concentração de Total Oxidative Status (TOS) e atividade de Caspase 3. Na exposição de Set de ratos imaturos ao nosso modelo verificou-se diferenças estatisticamente significativas tanto na concentração de TOS como na atividade da Caspase 3, ocorrendo um aumento 2 vezes do grupo exposto em relação ao grupo controlo nos níveis de concentração do TOS e de 1.6 vezes na concentração da Caspase 3. Concluímos que foi possível desenvolver um modelo eficaz na transmissão de EMR, simulando o uso diário de diversos equipamentos existentes na atualidade. Conjuntamente deduzimos que essa mesma utilização pode vir a ter efeitos negativos na fertilidade masculina sendo apoiado pelo aumento das concentrações de TOS e atividade da Caspase 3 contribuindo desta forma como um fator a ter em consideração na avaliação da fertilidade masculina.Cavaco, José Eduardo BritesuBibliorumPeixoto, Rita Alexandra Van Der Sandt2019-10-01T00:30:23Z2017-10-242017-10-22017-10-24T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10400.6/6690urn:tid:202107639enginfo:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-03-11T14:59:59Zoai:ubibliorum.ubi.pt:10400.6/6690Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-29T01:22:44.656745Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress |
| title |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress |
| spellingShingle |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress Peixoto, Rita Alexandra Van Der Sandt Apoptose Infertilidade Masculina Radiação Wi-Fi Stress Oxidativo Túbulos Seminíferos |
| title_short |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress |
| title_full |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress |
| title_fullStr |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress |
| title_full_unstemmed |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress |
| title_sort |
Effects of Wi-fi Radiation in Ex Vivo Immature Rat Seminiferous Tubules Oxidative Stress |
| author |
Peixoto, Rita Alexandra Van Der Sandt |
| author_facet |
Peixoto, Rita Alexandra Van Der Sandt |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Cavaco, José Eduardo Brites uBibliorum |
| dc.contributor.author.fl_str_mv |
Peixoto, Rita Alexandra Van Der Sandt |
| dc.subject.por.fl_str_mv |
Apoptose Infertilidade Masculina Radiação Wi-Fi Stress Oxidativo Túbulos Seminíferos |
| topic |
Apoptose Infertilidade Masculina Radiação Wi-Fi Stress Oxidativo Túbulos Seminíferos |
| description |
Approximately 15% of couples globally of reproductive age fail to accomplish pregnancy within a year of unprotected intercourse, accounting the male factor approximately 50% of the cases. Over the years male fertility has been decreasing being associated with numerous factors such as lifestyle, tobacco, alcohol and chemicals. However, with technological evolution, another factor has been pointed as an important contributor to infertility: the electromagnetic radiation (EMR) from mobile devices such as mobile phones, tablets and computers. Although there are several studies correlating the EMR and negative effects on male fertility, including the increase in oxidative stress, none of those studies used a realistic model of EMR exposure. Thus, our goal was to build a realistic model of EMR exposure and use it to shed light in the association between EMR from wi-fi devices and male (in)fertility, highlighting oxidative stress and apoptosis. Therefore, firstly we developed the EMR exposure model through 3 instruments: a Wi-fi module (information transmission network), a mbed (programming module of information packets) and a wifly (reception and emissor antenna for information packets). After the development of the exposure model, we proceeded to the validation through the exposure of 3-month-old Wister rat spermatozoa for the time frame of 1h and evaluated the sperm parameters (motility, morphology and viability). Spermatozoa exposure to 2.4GHz of radiation lead to a statistically significant difference in the motility with a 2.4-fold difference, however, there wasn’t a statistically significant difference in the other parameters. Secondly, we proceeded to the selection of the ideal animals age for the present project to study EMR influences through a histological cell population study of the testis of 4 different ages: 19, 20, 21 and 22 days. As the goal of this work was to study animals in the final stages of development and maturation of SCs and in an early development of germ cells, Wistar rats with 20 days were selected. Thus, two groups of ex vivo immature rats (20 days) seminiferous tubules culture (control and exposed) were exposed to 2.4GHz radiation by the created model for 72h, TOS concentrations and Caspase 3 activity were measured. Immature rats Set exposure to our model resulted in statistically significant differences in both TOS concentration and Caspase 3 activity, with a 2-fold difference in the exposed group compared with control group in TOS concentration while Caspase 3 activity had a 1.6-fold difference. Thus, was possible to conclude through motility results that the developed model is effective in the transmission of EMR, simulating the daily use of diverse equipment existing in the present in our homes. Also, the increased in TOS concentration and Caspase 3 activity supports the hypothesis of the use of these technologies being harmful to male fertility thus being a factor to be taken into consideration in the evaluation of male fertility. |
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2017 |
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2017-10-24 2017-10-2 2017-10-24T00:00:00Z 2019-10-01T00:30:23Z |
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