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Sperm Mitochondrial DNA Biomarkers as a Measure of Male Fecundity and Overall Sperm QualityRosati, Allyson 15 July 2020 (has links)
Introduction. Sperm parameter analysis is the standard method of male fecundity testing; however, minimal evidence supports associations between individual sperm parameters and reproductive outcomes. Our previous work shows strong associations between sperm mitochondrial DNA copy number (mtDNAcn) and time-to-pregnancy (TTP) in general populations, and between mtDNAcn and fertilization outcomes in clinical populations. Thus it is possible for sperm mtDNA biomarkers to act as summary measures of semen quality. In this study, we developed a sperm quality index (SQI) from semen parameters and compared its ability to measure fecundity to sperm mtDNAcn.
Methods. We received 384 semen samples from the Longitudinal Investigation of Fertility in the Environment Study. Sperm mtDNAcn and mtDNA deletions (mtDNAdel) were quantified using a triplex probe-based qPCR method. The SQI was developed by ranking and summing select sperm parameters within the study population, including sperm concentration, sperm count, normal morphology, high DNA stainability, and DNA fragmentation to create a cumulative index. Discrete-time proportional hazards models were used to determine fecundability odds ratios (FOR), indicating associations between mtDNAcn, SQI, and TTP. Receiver operating characteristic (ROC) analyses determined the validity of the SQI and mtDNAcn as predictors of pregnancy within 12 months.
Results. The SQI was highly associated with mtDNAcn, both continuously (Spearman Rho: -0.487; p-value: <0.001) and in deciles (ANOVA p-value: <0.001). The SQI (FOR: 1.25; 95% confidence interval (CI): 1.09, 1.43) and mtDNAcn (FOR: 0.754; 95% CI: 0.657, 0.866) performed similarly in discrete-time survival models and indicated a significant decrease and increase in TTP, respectively. MtDNAcn more effectively predicted pregnancy within 12 months (AUC: 0.703; 95% CI: 0.617, 0.789) than the SQI (AUC: 0.642; 95% CI: 0.531, 0.753). With multiple predictors, mtDNAcn outperformed summary models, with addition of the SQI and percent normal morphology minimally increasing model efficacy (AUC: 0.718, 95% CI: 0.617, 0.819).
Conclusion. The association between the SQI and mtDNAcn suggest that mtDNAcn may serve as a summary biomarker for overall sperm quality. Neither individual nor summed sperm parameters are useful indicators of couple fecundity and reproductive outcomes compared to mtDNAcn. These results suggest that mtDNAcn has potential for use as a biomarker of fecundity.
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Sperm mitochondria: Species specificity and relationships to sperm morphometric features and sperm function in selected mammalian speciesMaree, Liana January 2011 (has links)
<p>Numerous studies on mammalian spermatozoa have reported large variations in the dimensions of the main sperm structural components, namely the head, midpiece and flagellum. These variations in sperm architecture are believed to be adaptations for functioning of spermatozoa in complex environments outside the male reproductive system. The midpiece of the mammalian  / permatozoon contains a varied number of mitochondria, but the reason for the marked difference in the size and structure of this sperm component is not clear. This study  / confirmed the variations in the sperm morphometry of seven selected mammalian species and revealed unique features of the sperm midpiece and sperm mitochondria of these seven species. Evaluation of several sperm kinematic parameters revealed the unique swimming characteristics of the different spermatozoa. The importance of using standardized motility  / parameters was highlighted as well as the assessment of different subpopulations of spermatozoa in order to produce more reliable and comparable data. Investigating the role of sperm mitochondria in human sperm  / metabolism indicated that these organelles are related to sperm function in terms of sperm motility. Furthermore, it was suggested that glycolysis and mitochondrial respiration are linked processes and that both are important for the maintenance of human sperm motility. By optimizing and employing standardized experimental procedures and analysis techniques, this study was  / able to confirm the species specificity of almost all the sperm parameters evaluated, while also elucidating the phylogenetic relatedness of the non-human primate species. In conclusion, the present study has confirmed that the various midpiece morphometry parameters are related to the remaining sperm morphometry parameters as well as to the sperm kinematic parameters.  / These proposed associations between the various sperm parameters were used to explain the sperm velocity of two hypothetical and morphologically different sperm structures. Therefore, the results of the current study support the idea of co-evolution between sperm components in mammalian spermatozoa and propose that the midpiece morphometry parameters that are selected for in these spermatozoa are midpiece volume, total number of mitochondrial gyres, thickness of the mitochondrial sheath and mitochondrial height.</p>
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Sperm mitochondria: Species specificity and relationships to sperm morphometric features and sperm function in selected mammalian speciesMaree, Liana January 2011 (has links)
<p>Numerous studies on mammalian spermatozoa have reported large variations in the dimensions of the main sperm structural components, namely the head, midpiece and flagellum. These variations in sperm architecture are believed to be adaptations for functioning of spermatozoa in complex environments outside the male reproductive system. The midpiece of the mammalian  / permatozoon contains a varied number of mitochondria, but the reason for the marked difference in the size and structure of this sperm component is not clear. This study  / confirmed the variations in the sperm morphometry of seven selected mammalian species and revealed unique features of the sperm midpiece and sperm mitochondria of these seven species. Evaluation of several sperm kinematic parameters revealed the unique swimming characteristics of the different spermatozoa. The importance of using standardized motility  / parameters was highlighted as well as the assessment of different subpopulations of spermatozoa in order to produce more reliable and comparable data. Investigating the role of sperm mitochondria in human sperm  / metabolism indicated that these organelles are related to sperm function in terms of sperm motility. Furthermore, it was suggested that glycolysis and mitochondrial respiration are linked processes and that both are important for the maintenance of human sperm motility. By optimizing and employing standardized experimental procedures and analysis techniques, this study was  / able to confirm the species specificity of almost all the sperm parameters evaluated, while also elucidating the phylogenetic relatedness of the non-human primate species. In conclusion, the present study has confirmed that the various midpiece morphometry parameters are related to the remaining sperm morphometry parameters as well as to the sperm kinematic parameters.  / These proposed associations between the various sperm parameters were used to explain the sperm velocity of two hypothetical and morphologically different sperm structures. Therefore, the results of the current study support the idea of co-evolution between sperm components in mammalian spermatozoa and propose that the midpiece morphometry parameters that are selected for in these spermatozoa are midpiece volume, total number of mitochondrial gyres, thickness of the mitochondrial sheath and mitochondrial height.</p>
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Sperm mitochondria: species specificity and relationships to sperm morphometric features and sperm function in selected mammalian speciesMaree, Liana January 2011 (has links)
Philosophiae Doctor - PhD / Numerous studies on mammalian spermatozoa have reported large variations in the dimensions of the main sperm structural components, namely the head, midpiece and flagellum. These variations in sperm architecture are believed to be adaptations for functioning of spermatozoa in complex environments outside the male reproductive system. The midpiece of the mammalian permatozoon contains a varied number of mitochondria, but the reason for the marked difference in the size and structure of this sperm component is not clear. This study confirmed the variations in the sperm morphometry of seven selected mammalian species and revealed unique features of the sperm midpiece and sperm mitochondria of these seven species. Evaluation of several sperm kinematic parameters revealed the unique swimming characteristics of the different spermatozoa. The importance of using standardized motility parameters was highlighted as well as the assessment of different subpopulations of spermatozoa in order to produce more reliable and comparable data. Investigating the role of sperm mitochondria in human sperm metabolism indicated that these organelles are related to sperm function in terms of sperm motility. Furthermore, it was suggested that glycolysis and mitochondrial respiration are linked processes and that both are important for the maintenance of human sperm motility. By optimizing and employing standardized experimental procedures and analysis techniques, this study was able to confirm the species specificity of almost all the sperm parameters evaluated, while also elucidating the phylogenetic relatedness of the non-human primate species. In conclusion, the present study has confirmed that the various midpiece morphometry parameters are related to the remaining sperm morphometry parameters as well as to the sperm kinematic parameters. These proposed associations between the various sperm parameters were used to explain the sperm velocity of two hypothetical and morphologically different sperm structures. Therefore, the results of the current study support the idea of co-evolution between sperm components in mammalian spermatozoa and propose that the midpiece morphometry parameters that are selected for in these spermatozoa are midpiece volume, total number of mitochondrial gyres, thickness of the mitochondrial sheath and mitochondrial height. / South Africa
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