Search results for "Motile spermatozoa"

showing 2 items of 2 documents

Morphometric and kinematic sperm subpopulations in split ejaculates of normozoospermic men

2016

This study was designed to analyze the sperm kinematic and morphometric subpopulations in the different fractions of the ejaculate in normozoospermic men. Ejaculates from eight normozoospermic men were collected by masturbation in three fractions after 3-5 days of sexual abstinence. Analyses of sperm motility by computer-assisted sperm analysis (CASA-Mot), and of sperm morphometry by computer-assisted sperm morphometry analysis (CASA-Morph) using fluorescence were performed. Clustering and discriminant procedures were performed to identify sperm subpopulations in the kinematic and morphometric data obtained. Clustering procedures resulted in the classification of spermatozoa into three kine…

0301 basic medicineAdultMalesperm morphometry by computer-assisted sperm morphometry analysisendocrine systemsplit ejaculateUrologyKinematicsInvited Original ArticleBiologylcsh:RC870-923Andrology03 medical and health sciencesYoung Adult0302 clinical medicinemanHumansCell ShapeSperm motilityreproductive and urinary physiology030219 obstetrics & reproductive medicineurogenital systemGeneral Medicineman; sperm morphometry by computer-assisted sperm morphometry analysis; sperm motility by computer-assisted sperm analysis; sperm subpopulations; split ejaculatelcsh:Diseases of the genitourinary system. UrologySpermSpermatozoaMotile spermatozoaSemen Analysis030104 developmental biologysperm motility by computer-assisted sperm analysisSperm Motilitysperm subpopulationsAsian Journal of Andrology
researchProduct

Is sperm motility maturation affected by static magnetic fields?

1996

Kinematic parameters were evaluated in mouse epididymal extracts to monitor maturation of sperm movement in animals exposed to static magnetic fields using the Sperm-Class Analyzer computerized image analysis system. For this purpose, animals were exposed to a field of 0.7 T generated by a permanent magnet over 10 or 35 days for either 1 or 24 hr/day. The values of the motion endpoints were similar in animals used as controls and in those exposed to the nonionizing radiation, whatever the period of exposure or daily dosage. Changes in motility were observed in all groups: the percentage of total motile and progressive motile spermatozoa increased during passage through the epididymis, with …

EpididymisMaleendocrine systemLetterurogenital systemHealth Toxicology and MutagenesisPublic Health Environmental and Occupational HealthMotilityBiologyEpididymisSpermatozoaMotile spermatozoaSperm MaturationAndrologyMiceElectromagnetic Fieldsmedicine.anatomical_structureSperm movementSperm MotilitymedicineAnimalshuman activitiesSpermatogenesisSperm motilityResearch ArticleEnvironmental Health Perspectives
researchProduct