Semen collection

About: Semen collection is a research topic. Over the lifetime, 1203 publications have been published within this topic receiving 18728 citations. The topic is also known as: sperm extraction & sperm retrieval.

Decline in Semen Quality among Fertile Men in Paris during the Past 20 Years

Abstract: Background Several studies have suggested a population-wide decline in the quality of semen over the past 50 years, but clear evidence of decreasing semen quality in recent decades is lacking. Methods From 1973 through 1992 we measured the volume of seminal fluid, the sperm concentration, and the percentages of motile and morphologically normal spermatozoa in 1351 healthy fertile men. The data on the semen samples were collected at one sperm bank in Paris. The data in each calendar year were analyzed as a function of the year of donation, the age of each patient, the year of birth, and the duration of sexual abstinence before semen collection. Results There was no change in semen volume during the study period. The mean concentration of sperm decreased by 2.1 percent per year, from 89 ×106 per milliliter in 1973 to 60×106 per milliliter in 1992 (P<0.001). During the same period the percentages of motile and normal spermatozoa decreased by 0.6 percent and 0.5 percent per year, respectively (both P<0.001). ...

Semen Quality in Relation to Biomarkers of Pesticide Exposure

Abstract: We previously reported reduced sperm concentration and motility in fertile men in a U.S. agrarian area (Columbia, MO) relative to men from U.S. urban centers (Minneapolis, MN; Los Angeles, CA; New York, NY). In the present study we address the hypothesis that pesticides currently used in agriculture in the Midwest contributed to these differences in semen quality. We selected men in whom all semen parameters (concentration, percentage sperm with normal morphology, and percentage motile sperm) were low (cases) and men in whom all semen parameters were within normal limits (controls) within Missouri and Minnesota (sample sizes of 50 and 36, respectively) and measured metabolites of eight current-use pesticides in urine samples provided at the time of semen collection. All pesticide analyses were conducted blind with respect to center and case-control status. Pesticide metabolite levels were elevated in Missouri cases, compared with controls, for the herbicides alachlor and atrazine and for the insecticide diazinon [2-isopropoxy-4-methyl-pyrimidinol (IMPY)]; for Wilcoxon rank test, p = 0.0007, 0.012, and 0.0004 for alachlor, atrazine, and IMPY, respectively. Men from Missouri with high levels of alachlor or IMPY were significantly more likely to be cases than were men with low levels [odds ratios (ORs) = 30.0 and 16.7 for alachlor and IMPY, respectively], as were men with atrazine levels higher than the limit of detection (OR = 11.3). The herbicides 2,4-D (2,4-dichlorophenoxyacetic acid) and metolachlor were also associated with poor semen quality in some analyses, whereas acetochlor levels were lower in cases than in controls (p = 0.04). No significant associations were seen for any pesticides within Minnesota, where levels of agricultural pesticides were low, or for the insect repellent DEET (N,N-diethyl-m-toluamide) or the malathion metabolite malathion dicarboxylic acid. These associations between current-use pesticides and reduced semen quality suggest that agricultural chemicals may have contributed to the reduction in semen quality in fertile men from mid-Missouri we reported previously.

Applied animal reproduction

Abstract: 1. Introduction and History. I. ANATOMY, FUNCTION, AND REGULATION. 2. The Female Reproductive System. 3. The Male Reproductive System. 4. Neuroendocrine Regulators of Reproduction. II. REPRODUCTIVE PROCESSES. 5. The Estrous Cycle. 6. Spermatogenesis and Maturation of Spermatozoa. 7. Ovigenesis and Fertilization. 8. Gestation. 9. Parturition and Postpartum Recovery. 10. Lactation. 11. Male Mating Behavior. 12. Semen and Its Components. III. ARTIFICIAL INSEMINATION. 13. Introduction and History of Artificial Insemination. 14. Semen Collection. 15. Semen Evaluation. 16. Semen Processing, Storage, and Handling. 17. Insemination Techniques. IV. MANAGEMENT FOR IMPROVED REPRODUCTION. 18. Altering Reproductive Processes. 19. Reproductive Management. 20. Pregnancy Diagnosis. 21. Environmental Management. 22. Nutritional Management. V. CAUSES OF REPRODUCTIVE FAILURE. 23. Anatomical and Inherited Causes of Reproductive Failure. 24. Physiological and Psychological Causes for Reproductive Failure. 25. Infectious Diseases That Cause Reproductive Failure. Index.

Decline in Semen Quality Among Fertile Men in Paris During the Past 20 Years

Abstract: Background Several studies have suggested a population-wide decline in the quality of semen over the past 50 years, but clear evidence of decreasing semen quality in recent decades is lacking. Methods From 1973 through 1992 we measured the volume of seminal fluid, the sperm concentration, and the percentages of motile and morphologically normal spermatozoa in 1351 healthy fertile men. The data on the semen samples were collected at one sperm bank in Paris. The data in each calendar year were analyzed as a function of the year of donation, the age of each patient, the year of birth, and the duration of sexual abstinence before semen collection. Results There was no change in semen volume during the study period. The mean concentration of sperm decreased by 2.1 percent per year, from 89 ×106 per milliliter in 1973 to 60×106 per milliliter in 1992 (P<0.001). During the same period the percentages of motile and normal spermatozoa decreased by 0.6 percent and 0.5 percent per year, respectively (both P<0.001). ...