Background: Male fertility is progressively declining in many developed countries, but the relationship between male infertility and environmental factors is still unclear. Objectives: To assess the influence of environmental temperature and air pollution on semen parameters, using a big-data approach. Methods: A big data analysis of parameters related to 5131 men, living in a province of Northern Italy and undergoing semen analyses between January 2010 and March 2016 was performed. Ambient temperature was recorded on the day of analysis and the 90 days prior to the analysis and the average value of particulate matter (PM) and NO2 in the year of the test. All data were acquired by geocoding patients residential address. A data warehouse containing 990,904,591 data was generated and analysed by multiple regressions. Results: 5573 semen analyses were collected. Both maximum and minimum temperatures registered on the day of collection were inversely related to total sperm number (p <.001), non-progressive motility (NPrM) (p <.005) and normal forms (p <.001). Results were confirmed considering temperature in the 30 and 60 days before collection, but not in the 90 days before collection. Total sperm number was lower in summer/autumn (p <.001) and was inversely related with daylight duration (p <.001). PM10 and PM2.5 were inversely related to PrM (p <.001 and p <.005) and abnormal forms (p <.001). Conclusions: This is the first evaluation of the relationship between male fertility-related parameters and environment using a big-data approach. A seasonal change in semen parameters was found, with a fluctuation related to both temperature and daylight duration. A negative correlation between air pollution and semen quality is suggested. Such seasonal and environmental associations should be considered when assessing changes of male fertility-related parameters over time. Semen parameters show seasonal changes, with fluctuations during the year related to both temperature and daylight duration. Air pollution is inversely related to semen quality.
Seasonal variation of semen parameters correlates with environmental temperature and air pollution: A big data analysis over 6 years
2018
Abstract
Background: Male fertility is progressively declining in many developed countries, but the relationship between male infertility and environmental factors is still unclear. Objectives: To assess the influence of environmental temperature and air pollution on semen parameters, using a big-data approach. Methods: A big data analysis of parameters related to 5131 men, living in a province of Northern Italy and undergoing semen analyses between January 2010 and March 2016 was performed. Ambient temperature was recorded on the day of analysis and the 90 days prior to the analysis and the average value of particulate matter (PM) and NO2 in the year of the test. All data were acquired by geocoding patients residential address. A data warehouse containing 990,904,591 data was generated and analysed by multiple regressions. Results: 5573 semen analyses were collected. Both maximum and minimum temperatures registered on the day of collection were inversely related to total sperm number (p <.001), non-progressive motility (NPrM) (p <.005) and normal forms (p <.001). Results were confirmed considering temperature in the 30 and 60 days before collection, but not in the 90 days before collection. Total sperm number was lower in summer/autumn (p <.001) and was inversely related with daylight duration (p <.001). PM10 and PM2.5 were inversely related to PrM (p <.001 and p <.005) and abnormal forms (p <.001). Conclusions: This is the first evaluation of the relationship between male fertility-related parameters and environment using a big-data approach. A seasonal change in semen parameters was found, with a fluctuation related to both temperature and daylight duration. A negative correlation between air pollution and semen quality is suggested. Such seasonal and environmental associations should be considered when assessing changes of male fertility-related parameters over time. Semen parameters show seasonal changes, with fluctuations during the year related to both temperature and daylight duration. Air pollution is inversely related to semen quality.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
