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Effects of zinc on human semen quality and sexual behaviour of male rats

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dc.contributor.author Dissanayake, D.M.A.B.
dc.date.accessioned 2016-06-08T08:10:10Z
dc.date.available 2016-06-08T08:10:10Z
dc.date.issued 2008
dc.identifier.citation Dissanayake, D.M.A.B., Effects of zinc on human semen quality and sexual behaviour of male rats[M.Phil thesis]. Kelaniya: University of Kelaniya; 2008: 205 p en_US
dc.identifier.uri http://repository.kln.ac.lk/handle/123456789/13479
dc.description Dissertation: M.Phil., University of Kelaniya, 2008 en_US
dc.description.abstract The main aim of this study was to evaluate the effects of serum and seminal plasma zinc levels on semen quality of a subfertile male population. At the same time, effects of zinc on different aspects of male reproduction were studied. The study was carried out as a prospective hospital and laboratory based study. Semen samples from 152 males were analyzed. Seminal plasma and serum levels of zinc, serum hormone levels, seminal plasma fructose and neutral a- glucosidase levels of same males were also measured. Relationship between seminal plasma zinc and semen quality was observed using two markers; zinc concentration and total zinc per ejaculate (Total zinc). Effects of zinc on various functions of spermatozoa were studied in-vitro and, the effects on sexual competence of males were observed using a rat model. Of the 152 semen samples 55 (36 %) were normozoospermic and 97 (64 %) were pathozoospermic. The mean (SD) serum and seminal plasma zinc concentrations of the population were 0.94 (ig/ml (0.36) and 121.87 (ig/ml (69.13) respectively. Seminal plasma total zinc was significantly low in samples with low volume and hyperviscosity compared to samples with normal volume and viscosity; 139.72 ]ig (73.72) vs. 377.40 (ig (231.06), p < 0.01 for volume and 220.06 jag (144.09) vs. 336.34 |Ag (236.33), p < 0.05 for viscosity. Conversely significantly high amount of total zinc was found in low viability group compared to normal; 437.67 ug (283.88) vs. 305.15 (ig (221.19), p < 0.05. Percentage of pathozoospermics and volume abnormalities were significantly higher in abnormal total seminal zinc group compared to normal (pathozoospermics, 27 % vs. 7.3 % and volume abnormalities, 55.3 % vs. 8.8 %, p < 0.05). Mean zinc concentratiorfwas significantly high in Asthenozoospermics compared to normal motile group; 138.11 u.g/ml (83.92) vs. 110.69 11 fig/ml (54.59), p < 0.05. Significantly positive correlations were found between total seminal plasma zinc and volume (r = 0.53, p < 0.01) as well as total sperm count (r = 0.21, p < 0.05). whereas correlation between seminal zinc and pH was inverse (r = -0,193, p < 0.05 for zinc concentration and r = -0.280, p < 0.01 for total zinc). In contrast serum zinc levels correlated positively with seminal plasma pH (r = 0.167, p < 0.05). Gonadotropin levels were significantly high in azoospermics compared to normozoospennics; LH - 12.82 mlU/ml (11.82) vs. 5.90 mlU/ml (2.78), FSH - 19.69 mlU/ml (9.93) vs. 4.18 mlU/ml (2.78), p < 0.05). FSH level was inversely correlated with sperm concentration (r = -0.203, p < 0.05) and total sperm count (r = -0.206, p < 0.05). There was an inverse correlation between seminal plasma zinc concentration and serum PRL levels (r = -0.198, p < 0.05). Serum zinc concentration showed a negative correlation with serum T levels (r = -0.207, p < 0.05). Both fructose concentrations and total fructose were significantly low in abnormal volume group compared to normal; 15.30 u.mol/ml (1.52) vs. 44.27 umol/ml (2.44) for fructose concentration and 19.06 umol (2.39) vs. 160.63 umol (16.0) for total fructose, p < 0,0001. Mean fructose concentration was significantly high in oligozoospermic group compared to normal; 45.33 umol/ml (5.02) vs. 35.07 umol/ml (2.39). p < 0.05. Total neutral a -glucosidase activity was significantly low in low volume group compared to normal; 55.37 mU (8.79) vs. 140.93 mU (15.36). p < 0.0001. Seminal plasma total zinc positively correlated with total fructose (r = 0.378, p < 0.001), and NAG (r = 0.247. p < 0.001). In-vitro incorporation of zinc. > 5.0 umol/ml into the processed sperm samples and, > 10 umol/zinc into unprocessed sperm samples, caused an impairment of the progressive motility of sperms. Incorporation of 1.2 umol/ml of zinc into sperm culture medium exerts a significantly beneficial effect on sperm recovery rate. The mean post wash sperm concentration showed an increase in the 1.2 umol/ml of zinc added group compared to the zinc devoid sample; 21.87 million/ml (6.61) vs. 18.34 million/ml (9.73), p < 0.05. The percentage of hyperactwated sperm also increased in 1.2 umol/ml zinc added group compared to zinc devoid group; 46.70 % (3.80) vs. 38.83 % (3.56), p < 0.05. In behavioural studies, supplementation of zinc (5 mg/day) for two weeks led to a prolonged ejaculatory latency; 711.6 Sec. (85.47) vs. 489.50 Sec. (67.66), p < 0.05 and an increase in penile thrusting compared to controls; 52.80 Sec (11.28) vs. 26.50 Sec (6.17), p< 0.05. Similarly the PRL and T levels were significantly increased after the treatment period compared to hormone levels before the treatment; PRL - 7.22 ng/dl (3.68) vs. 2.90 ng/dl (0.34) and T - 8.21 ng/ml (6.09; vs. 2.39 ng/ml (1.79), p < 0.05. In conclusion, this study revealed that zinc is beneficial in male reproduction in different aspects. en_US
dc.language.iso en_US en_US
dc.publisher University of Kelaniya en_US
dc.subject sexual behaviour en_US
dc.title Effects of zinc on human semen quality and sexual behaviour of male rats en_US
dc.type Article en_US


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