Semen specimens from 33 donors were analyzed intermittently between 1 and 24 hours after ejaculation. Motility was determined objectively by analyzing still-camera photomicrographs taken with the aid ...of the new multiple exposure photography (MEP) technique, from which the following information was obtained: the percentage of motile spermatozoa, the average velocity and frequency distribution of spermatozoal velocities, and index of motility as well as sperm concentration. From curves drawn for each of the 33 analyzed specimens, these conclusions were drawn: 1. The percentage of motile spermatozoa decreases progressively, beginning 1 hour after ejaculation, at a rate of about 5% to 10%/hour. 2. In the majority of cases, sperm velocity increases for the first 4 hours and then decreases gradually. 3. There is no unique pattern of sperm motility and velocity with time for all specimens, especially during the first 4 hours. However, three typical curves of motility change were found during the first 4 hours: increase in motility, moderate decline in motility, and rapid loss of motility. 4. The frequency distribution of velocities of motile spermatozoa revealed typical normal curves at all times, but these curves became flatter as time elapsed. An explanation for these divergent patterns and the possible role of these findings in some physiologic and clinical problems are discussed.
The patient with combat-related chronic Posttraumatic Stress Disorder suffers from a wide spectrum of maladaptive behaviors. This paper delineates the work that has been done with such a population ...in group therapy. The plan that is proposed takes into account three interrelated sets of factors: factors important for creating an effective working relation; curative factors; and particular themes. Each of these factors is analyzed in the light of the particularities of group work with such a population. Each of the points discussed is based upon the relevant literature, upon the experience of the therapist, and illustrated with examples.
A lesion was identified on the late images of a hepatobiliary scintigraphic study, but was not detected on the very early images, due to its enlarged blood pool. This combination of scan findings has ...not been previously described. The implication of the observation is that one must examine all the images of the hepatobiliary study in an effort to detect space-occupying lesions of the liver.
Spermatozoal velocity and percentage of motility were analyzed objectively with the multiple exposure photography method before and after specimens from fertile and infertile men were diluted in ...their own seminal plasma or normal saline. No significant change in percentage of motility was found in samples diluted up to 1:6 in both kinds of diluents. However, a significant relative increase (up to 25% of the original velocity) was found when a specimen was diluted with its own seminal plasma, and an even greater increase (up to 37% of the original velocity) was found when it was diluted with saline. Compared with undiluted specimens, there was no delayed effect on spermatozoal motility when semen was diluted with saline after up to 4 hours' incubation time. Contrary to the findings in animal and human semen described by others, there was no deleterious effect on sperm motility with this kind and rate of dilution and duration of time. The assumption that the increase in sperm velocity caused by dilution is not excitatory but is due only to a decrease of seminal fluid viscosity and a reduced number of spermatozoa which interfere with sperm free movement is discussed. We recommend evaluation of spermatozoal motility in diluted specimens in addition to evaluation of the original specimen in any routine semen analysis in order to determine true spermatozoal motility potential under optimal conditions.
Specimens from 100 fertile or potentially fertile men with sperm counts above 20 million/ml were analyzed objectively by the new multiple exposure photography method (MEP). The following results ...(means and standard deviations) were obtained: sperm concentration, 66 million/ml +/- 47; percentage of motile spermatozoa, 45% +/- 18; speed of motile spermatozoa, 30.3 micrometer/second +/- 5.5; abnormal forms, 29% +/- 10.2; average motility index (product of sperm speed and fraction of motile spermatozoa), 14 +/- 7.5. Low correlations were found between sperm concentration, percentage of motility, and spermatozoal velocity. Moderate correlations were found between percentage of motility and spermatozoal velocity. Negative moderate correlations were found between abnormal forms and spermatozoal velocity as well as between abnormal forms and percentage of motility. The differences between some of our results and those obtained by others are discussed.
Specimens of semen from fertile and infertile patients were exposed to different electromagnetic radiations, including visible light, ultraviolet (UV) light, x-rays, and high-frequency radio waves. ...Sperm motility was analyzed before, during, and after irradiation by the multiple exposure photography (MEP) method. No significant difference was found between controls and specimens exposed to various doses of visible and UV light and x-rays either immediately or several hours after exposure. In contrast to spermatozoa of other species that were reported to be adversely affected by visible and UV light and x-rays, human spermatozoa seem to be highly resistant to similar doses of these radiations. A deleterious influence was observed when high-frequency radio waves were applied to human spermatozoa. This may be attributed to an intracellular diathermic effect. The informative value of this study in relation to routine semen analyses and experimental studies in the physiology and comparative anatomy of spermatozoa is discussed.
Summary
To investigate in real time if and how natural gravity affects rates of swim‐up and swim‐down of human spermatozoa, samples of motile or immobilized spermatozoa in a sealed mini‐chamber were ...placed vertically on a 90° tilted microscope. The mode of their sedimentation, as well as the difference in the rate of their swimming up and down, were observed directly over 30 min and analysed from photomicrographs. Under the influence of natural gravity force, most immobilized spermatozoa turned their heads down in about 5 min and then sank slowly at an average speed of 0.2 μ/s. The number of motile spermatozoa that swam down was 5–6 times more than those swimming up. It can be implied that in spite of the mild force exerted by 1g on suspended spermatozoa in comparison to the high g force obtained by centrifugation, the overall effect of gravity on the rate of swimming up or down becomes dominant. Gravity causes the sperm heads to turn downward after which the oriented spermatozoa continue to move down by their own tail movements, causing accumulation of motile spermatozoa at the bottom. This may explain why in some recent studies swim‐down was superior to the swim‐up procedure during sperm separation by self‐migration.