The male factor is responsible for about 40% of couple infertility cases and such percentage is expected to increase in the future because of several likely factors including the presence of endocrine disruptors in th...The male factor is responsible for about 40% of couple infertility cases and such percentage is expected to increase in the future because of several likely factors including the presence of endocrine disruptors in the environment,changes in lifestyle habits and advanced couple aging.How such factors affect male fertility status,however,should be clarified.Most studies on male fertility status have focused on parameters analyzed using a spermiogram test,the primary diagnostic tool in the routine assessment of male infertility,which is,however,poorly predictive of both natural and medically assisted conception.For these reasons it is mandatory for the scientific community to identify new molecular markers to incorporate into the existing diagnostic tests of male fertility.Ideally,such markers would be detected in mature spermatozoa to avoid invasive procedures for the patient.This review summarizes the recent advancements in benchside approaches that appear most promising for the development of new diagnostic sperm fertility tests,or identification of therapeutic targets,and,illustrates their advantages and limits.展开更多
We investigated whether DNA fragmentation in two cytometric sperm populations (PIddimmer and PIbriehter) with different biological characteristics and clinical relevance is related to clinical and color-Doppler ultr...We investigated whether DNA fragmentation in two cytometric sperm populations (PIddimmer and PIbriehter) with different biological characteristics and clinical relevance is related to clinical and color-Doppler ultrasound (CDUS) parameters of the male genital tract. One hundred and sixty males of infertile couples without genetic abnormalities were evaluated for clinical, scrotal, and transrectal CDUS characteristics, presence of prostatitis-like symptoms (with the National Institutes of Health-Chronic Prostatitis Symptom Index) and sperm DNA fragmentation (sDF) in PIdimmer and PIbrighter populations (using TUNEIJPI method coupled with flow cytometry). Data were adjusted for age (Model 1) along with waistline, testosterone levels, smoking habit, and sexual abstinence (Model 2). According to the statistical Model 2, PIdi sDF was associated with testicular abnormalities, including lower clinical and ultrasound volume (r = -0.21 and r = -0.20, respectively; P 〈 0.05), higher FSH levels (r = 0.34, P 〈 0.0001) and occurrence of testicular inhomogeneity (P 〈 0.05) and hypoechogenicity (P 〈 0.05). PIbrighter sDF was associated with prostate-related symptoms and abnormal signs, including higher NIH-CPSI total and subdomain scores, a higher prevalence of prostatitis-like symptoms and of CDUS alterations such as macro-calcifications, severe echo-texture inhomogeneity, hyperemia (all P 〈 0.05), and higher arterial peak systolic velocity (r = 0.25, P 〈 0.05). Our results suggest that DNA fragmentation in PIdimmer sperm, which is related to poor semen quality, mainly originates in the testicles, likely due to apoptosis. Conversely, DNA fragmentation in PIbrighter sperm appears to mainly originate during or after transit through the prostate, increasing with the presence of an inflammatory status of the organ. These results could lead to new perspectives for the identification of therapeutic targets to reduce sDF.展开更多
文摘The male factor is responsible for about 40% of couple infertility cases and such percentage is expected to increase in the future because of several likely factors including the presence of endocrine disruptors in the environment,changes in lifestyle habits and advanced couple aging.How such factors affect male fertility status,however,should be clarified.Most studies on male fertility status have focused on parameters analyzed using a spermiogram test,the primary diagnostic tool in the routine assessment of male infertility,which is,however,poorly predictive of both natural and medically assisted conception.For these reasons it is mandatory for the scientific community to identify new molecular markers to incorporate into the existing diagnostic tests of male fertility.Ideally,such markers would be detected in mature spermatozoa to avoid invasive procedures for the patient.This review summarizes the recent advancements in benchside approaches that appear most promising for the development of new diagnostic sperm fertility tests,or identification of therapeutic targets,and,illustrates their advantages and limits.
文摘We investigated whether DNA fragmentation in two cytometric sperm populations (PIddimmer and PIbriehter) with different biological characteristics and clinical relevance is related to clinical and color-Doppler ultrasound (CDUS) parameters of the male genital tract. One hundred and sixty males of infertile couples without genetic abnormalities were evaluated for clinical, scrotal, and transrectal CDUS characteristics, presence of prostatitis-like symptoms (with the National Institutes of Health-Chronic Prostatitis Symptom Index) and sperm DNA fragmentation (sDF) in PIdimmer and PIbrighter populations (using TUNEIJPI method coupled with flow cytometry). Data were adjusted for age (Model 1) along with waistline, testosterone levels, smoking habit, and sexual abstinence (Model 2). According to the statistical Model 2, PIdi sDF was associated with testicular abnormalities, including lower clinical and ultrasound volume (r = -0.21 and r = -0.20, respectively; P 〈 0.05), higher FSH levels (r = 0.34, P 〈 0.0001) and occurrence of testicular inhomogeneity (P 〈 0.05) and hypoechogenicity (P 〈 0.05). PIbrighter sDF was associated with prostate-related symptoms and abnormal signs, including higher NIH-CPSI total and subdomain scores, a higher prevalence of prostatitis-like symptoms and of CDUS alterations such as macro-calcifications, severe echo-texture inhomogeneity, hyperemia (all P 〈 0.05), and higher arterial peak systolic velocity (r = 0.25, P 〈 0.05). Our results suggest that DNA fragmentation in PIdimmer sperm, which is related to poor semen quality, mainly originates in the testicles, likely due to apoptosis. Conversely, DNA fragmentation in PIbrighter sperm appears to mainly originate during or after transit through the prostate, increasing with the presence of an inflammatory status of the organ. These results could lead to new perspectives for the identification of therapeutic targets to reduce sDF.
