生育及不育男性血清及精浆抑制素-B水平分析

目的 :探讨生育及不育男性血清及精浆抑制素 B(inhibinB ,INHB)水平是否存在差异 ,了解血清及精浆INHB水平与精子发生的关系。　方法 :生育组 (n =2 0 )、少精子症组 (n =2 0 )、弱精子症组 (n =2 2 )和非阻塞性无精子症 (NOA)组 (n =2 0 )男性于上午 8∶0 0～ 10∶0 0留取精液和血液标本 ,进行精液常规分析 ,血清INHB、FSH、LH、T含量 ,精浆INHB、酸性磷酸酶、果糖、α 葡糖苷酶含量和活性测定。　结果 :血清、精浆INHB水平与血FSH均呈显著负相关 (r =- 0 .5 36 ,P <0 .0 0 1vsr =- 0 .2 88,P =0 .0 1) ,血清、精浆INHB水平与精子密度均呈显著正相关 (r=0 .49,P <0 .0 0 1vsr =0 .48,P <0 .0 0 1) ,血清INHB水平在生育组男性与少精子症组、NOA组男性间(分别为P <0 .0 5和P <0 .0 1)、弱精子症组与NOA组男性间 (P <0 .0 1)及少精子症组与NOA组男性间 (P <0 .0 5 )差异均有显著性 ,而精浆INHB变动范围较大 ,其水平仅在生育组男性与NOA组男性间及弱精子症组与NOA组男性间差异有显著性 (分别为P <0 .0 1和P <0 .0 5 )。精浆INHB水平与精浆α 葡糖苷酶活性呈正相关 (r=0 .377,P =0 .0 0 1)。血清INHB水平与精浆INHB水平间无相关性。　结论 :血清、精浆INHB水平均可反映睾丸的精子发生情况 ,精浆INHB水平还与     

精浆左旋肉碱与精子密度、活力和活动率关系的研究

目的:研究精浆中左旋肉碱浓度与精子密度、活力和活动率的相关性,探讨肉碱在男性不育发病中的作用。方法:分别选取精液常规检查结果为正常、少精、弱精和少弱精的不育患者12、16、20、16例,以液相色谱-质谱/质谱联用技术检测精浆中左旋肉碱浓度,以化学发光免疫分析法检测精浆中睾酮浓度,结果以SPSS15.0行双变量相关分析分析精浆中肉碱浓度与精子密度、活力和活动率的相关性,并以精浆睾酮浓度为控制变量行肉碱与精子密度的偏相关分析。结果:共有64例患者纳入研究,精浆中总肉碱浓度、游离肉碱浓度及酰基肉碱浓度分别为(91.33±40.49)mg/L、(40.89±24.13)mg/L、(50.44±21.90)mg/L;双变量相关分析结果为精浆中总肉碱浓度与精子密度、活力和活动率的相关系数分别为0.637(P<0.001),0.161(P=0.235),0.114(P=0.370),去除少精组后游离肉碱与活力和活动率的相关系数分别为0.325(P=0.024)和0.316(P=0.029);偏相关分析结果显示在剔除睾酮影响后的精子密度与肉碱的相关性仍有显著统计学意义(r=0.641,P<0.001)。结论:精浆中肉碱浓度与精子密度和活力呈正相关,其中与密度的相关性更明显。     

Free and total prostate-specific antigen levels in saliva and the comparison with serum levels in men

OBJECTIVE: We investigated free and total prostate-specific antigen (PSA) levels and free/total (f/t) ratio in the fasting saliva and compared them with the serum levels in normal individuals, in patients with benign prostatic hyperplasia (BPH) and prostate cancer. Our aim was to determine free and total PSA and f/t ratio in saliva and to improve and simplify the differentiation between BPH and prostate cancer by using saliva as an alternative to serum. METHODS: Serum and fasting saliva concentrations of free and total PSA were measured in 35 men with BPH, 16 men with stage D prostate cancer, and 25 healthy men. Serum and fasting saliva samples were collected at the same time and were analyzed on the same day at our laboratory with microparticle enzyme immunoassay technology. RESULTS: For the total of 76 men, there was a significant correlation between free and total PSA levels in each sample (r = 0.97 for serum and r = 0.44 for saliva, p<0.001). Although there was a significant difference between three groups for serum-free and total PSA levels and serum f/t ratios, no significant difference was determined between groups for salivary free and total PSA levels and salivary f/t ratios. No correlations were found between patient age and salivary PSA levels. CONCLUSIONS: Fasting salivary free and total PSA levels are not effected by high serum levels of prostatic origin. Although there was a significant difference between mean serum and salivary levels of free and total PSA in each group, the f/t ratio of saliva was very close to the serum ratio of normal subjects. Determination of free and total PSA in saliva to improve and simplify the differentiation between prostate cancer and BPH is not suitable for use as alternative measurement of serum.     

Seminal plasma albumin: origin and relation to the male reproductive parameters

We wanted to investigate the origin of seminal plasma albumin and its relation to the male reproductive parameters. Semen samples from 916 men, under infertility assessment, were analysed according to guidelines of the World Health Organization. Seminal plasma constituents, i.e. albumin, markers of the epididymal (neutral alpha-glucosidase, NAG), prostatic (prostate-specific antigen, PSA, and zinc) and seminal vesicle function (fructose), as well as levels of reproductive hormones in plasma were measured. The sperm chromatin structure assay (SCSA) was applied on 267 of the 916 samples. A negative correlation was seen for seminal albumin and plasma follicle-stimulating hormone (r=-0.1, P=0.02) and a positive correlation for seminal albumin and serum inhibin B (r=0.2, P=0.004). Albumin exhibited positive correlations with the epididymal marker, NAG (r=0.5, P<0.001) and with the prostatic markers, PSA and zinc (r=0.1, P=0.001; r=0.2, P<0.001 respectively) as well as with age (r=0.2, P<0.001). A negative significant association was seen for seminal albumin and semen volume (beta=-0.60; 95% CI -0.80 to -0.30). The opposite trend was found regarding sperm concentration (beta=0.34; 95% CI 0.30-0.40), total sperm count (beta=0.30; 95% CI 0.20-0.40), and percentage morphologically normal spermatozoa (beta=0.70; 95% CI 0.10-1.0). No association was found between albumin and sperm motility, SCSA parameters, or fructose, the marker of seminal vesicles. Our results suggest testicular, epididymal and prostatic origin of seminal plasma albumin, in addition to the contribution from blood. This is the first study to demonstrate an association between seminal plasma albumin and sperm morphology. Further studies are needed to elucidate the role of seminal albumin in sperm morphology.     

The clinical relevance of sex hormone levels and sexual activity in the ageing male

OBJECTIVES: To assess the changes in sex hormone levels with age and the relationship of sexual functioning to testosterone levels, evaluating serum testosterone levels and erectile function in men with lower urinary tract symptoms (LUTS). PATIENTS AND METHODS: The study included 213 men with LUTS (age range 31-78 years) who had no confirmed erectile dysfunction. Their serum total and free testosterone, and sex-hormone binding globulin (SHBG) levels were measured, and they completed the International Index of Erectile Function (IIEF) questionnaire. RESULTS: The total and free testosterone levels decreased and SHBG increased with age, but only the change in free testosterone and SHBG were statistically significant. The correlation with age was closer for free testosterone (r = - 0.356, P < 0.001) than for SHBG (r = 0.177, P = 0.010). Regression analysis of the five domain scores of the IIEF and three hormonal levels, after correcting for age, showed that free testosterone level was significantly correlated with erectile function (r = 0.2136, P = 0.005) and orgasmic function (r = 0.179, P = 0.020), but SHBG levels were significantly correlated only with orgasmic function (r = - 0.154, P = 0.046). Total testosterone levels showed no significant correlation with any of the five domains of the IIEF. CONCLUSIONS: Of the sex hormone levels, the change in free testosterone correlated most closely with ageing and had the closest correlation with sexual activity. Contrary to previous reports, free testosterone and SHBG levels were significantly correlated with orgasmic function and/or erectile function rather than sexual desire. A complete study of sex hormone levels is needed to evaluate patients with erectile dysfunction.     

Salivary testosterone levels in infertile men

Salivary testosterone levels were measured in 18 normal men, 29 oligospermic and six azoospermic subjects, using a specific and sensitive radioimmunoassay (RIA). There was a significant reduction (P less than 0.001) in salivary testosterone levels in the group of oligospermic (0.266 +/- 0.086 nmol/l) and azoospermic (0.234 +/- 0.055 nmol/l) subjects when compared with controls (0.348 +/- 0.070 nmol/l). A good correlation was found between salivary and plasma testosterone levels in normal (r = 0.62, P less than 0.01) and infertile men (r = 0.58, P less than 0.01). This study demonstrates that salivary testosterone levels, a non-invasive means of sample collection, may be used for evaluation of androgen status in male infertility.     

Correlation between simultaneous PSA and serum testosterone concentrations among eugonadal, untreated hypogonadal and hypogonadal men receiving testosterone replacement therapy

The primary objective of this study was to correlate simultaneous measures of prostate-specific antigen (PSA) and serum testosterone among large samples of eugonadal, untreated hypogonadal and hypogonadal men treated with testosterone replacement therapy (TRT). From 2001 to 2007, laboratory records were reviewed to identify men who underwent simultaneous measurement of PSA and serum testosterone levels. The data were stratified based on three groups of men: group 1 consisted of eugonadal men (T>300 ng per 100 ml) evaluated for BPH, reproductive failure or sexual dysfunction; group 2 consisted of untreated hypogonadal men (T<300 ng per 100 ml); and group 3 comprised symptomatic hypogonadal men receiving TRT. Correlations were found between PSA (total and free fractions) and total serum testosterone levels among the three groups. Group 1: eugonadal men (n=385 patients), mean PSA and serum testosterone were 1.60 ng ml(-1) and 484 ng 100 ml, respectively. There was no significant correlation between PSA and total serum testosterone levels (r=-0.01, P=0.8). Group 2: untreated hypogonadal men (n=229 patients), mean PSA and serum testosterone were 1.49 ng ml(-1) and 269 ng per 100 ml, respectively. There was no significant correlation between PSA and total serum testosterone levels (r=0.03, P=0.6). Group 3: hypogonadal men on TRT (n=229 patients and 994 individual samples analyzed) mean PSA and serum testosterone were 1.50 ng ml(-1) and 555 ng per 100 ml, respectively. There was no significant correlation between PSA and serum testosterone levels (r=-0.005, P=0.9). Mean total serum testosterone levels were increased significantly (P<0.001) following treatment. Mean PSA levels did not increase in a statistically or clinically significant manner following TRT (mean PSA increase from baseline 0.05 ng ml(-1), P=0.6). In conclusion, TRT does not appear to significantly influence serum PSA expression and no significant correlation was identified between PSA and serum testosterone among eugonadal, untreated hypogonadal and hypogonadal men receiving TRT.     

Possible relationship between seminal plasma inhibin B and spermatogenesis in patients with azoospermia

Inhibin B is bidirectionally secreted by Sertoli cells, basal secretion into the circulation exerts negative feedback on follicle-stimulating hormone secretion, and serum inhibin B is considered a marker of spermatogenesis. The precise role of apical secretion is unknown. The objective of our work was to study the relationship between seminal inhibin B and spermatogenesis. Dimeric inhibin B was measured by immunoassay in seminal plasma of volunteers with normozoospermia (n = 10, group 1), in men after vasectomy (n = 10, group 2), and in men with azoospermia (n = 50, group 3). Testicular biopsy and testicular sperm extraction were performed in men with azoospermia. Seminal inhibin B levels were higher in men in group 1 than in men in groups 2 and 3 (P <.0001). In seminal plasma, inhibin B presents a positive correlation with alpha glucosidase activity (r =.37, P =.002). Seminal inhibin B is inversely related with serum FSH (r = -.58, P <.001), and presents a weak positive correlation with serum testosterone concentration (r =.29, P =.03). No difference was found between inhibin B levels in seminal plasma of patients with nonobstructive or obstructive azoospermia, and between positive or negative outcome of TESE. We conclude that inhibin B secretion by Sertoli cells is differentially regulated. The contribution of accessory sex glands limits the use of seminal plasma inhibin B as a marker of spermatogenesis.     

正常成年男性精浆同型半胱氨酸浓度及其与精液参数关联性研究

目的探讨正常成年男性精浆同型半胱氨酸(Hcy)的正常值参考范围;探讨精浆、血清Hcy浓度与精液参数的关联性以及精浆与血清Hcy浓度的关联性。方法从精子库捐精者中招募了31例健康志愿者,收集其精液及血清,检测其精液常规,采用酶联免疫吸附试验(ELISA)测定血清与精浆中的Hcy的浓度并计算精浆Hcy总含量;采用统计学软件SPSS 12.0分析精浆Hcy正常参考值范围,分析精浆、血清Hcy浓度,精浆Hcy总含量与精液参数的关联性以及精浆与血清Hcy的关联性。结果精浆Hcy浓度与精子活力呈负相关(r=-0.439,P=0.014),与其他精液参数无相关性;精浆与血清Hcy浓度之间也无相关性。结论健康青年男性精浆Hcy浓度的参考值范围:6.02~21.96μmol/L(95%CI);精浆Hcy浓度与精子活力呈负相关。     

精浆和血清生殖激素与精液质量的关系

目的为了评估精液质量不同的男性精浆和血清生殖激素的浓度与精子浓度及活动力的关系,探索精浆与血清生殖激素的关系。方法对301名男性进行精液检查,按照精液的质量参数将受试对象分成4组:精液正常组(n=176),弱精子症组(n=66),少精子症组(n=40)和非梗阻性无精子症组(n=19)。采用电化学发光免疫法测定各组受试对象血清卵泡刺激素(FSH)、黄体生成素(LH)、泌乳素(PRL)、孕酮(P)、睾酮(T)和雌二醇(E2)六项生殖激素和精浆PRL、T、P和E2四项生殖激素的浓度,比较组间差异并进行相关性分析。结果精液正常组和弱精子症组血清FSH和E2的浓度显著低于少精子症组和非梗阻性无精子症组(P0.05),精液正常组血清LH和P的浓度显著低于弱精子症、少精子症和非梗阻性无精子症的人群(P0.05);而精液正常、弱精子症和少精子症三组精浆PRL的浓度则高于非梗阻性无精子症组(P0.05)。除了非梗阻性无精子症组,受试者血清FSH的浓度与其精子浓度呈负相关(r分别为-0.350、-0.273和-0.448,P0.05)。精液正常组精浆PRL的浓度和精子的浓度之间呈正相关(r=0.269,P0.05);在少精子症组中,亦有相同趋势的相关性(r=0.432,P0.05)。结论精浆PRL及血清FSH的浓度能够反映精子浓度或活动力,在男性不育的病因分析中具有一定的指导价值。     

Measurement of Testosterone in Seminal Plasma, Saliva and Serum by Solid-Phase Enzymeimmunoassay

When testosterone concentrations in serum, saliva and seminal plasma were measured with a solid-phase enzymeimmunoassay in which antitestosterone antibody was bound to CNBr-Sepharose-4B, we found the ratios of testosterone in saliva and seminal plasma to that in serum were 2.5 +/- 0.2% and 5.19 +/- 0.42%. Testosterone level in saliva could be an index of free serum testosterone. In addition, we found a correlation between sperm motility and testosterone level in seminal plasma when sperm motility was measured with a transmembrane migration method. This enzymeimmunoassay could be applied to clinical studies of testosterone.     

The effect of microsurgical varicocelectomy on serum follicle stimulating hormone, testosterone and free testosterone levels in infertile men with varicocele

OBJECTIVES: To analyse the effects of varicocelectomy on serum follicle-stimulating hormone (FSH), testosterone and free testosterone levels, and to investigate the interrelationships between seminal and hormonal variables. PATIENTS AND METHODS: The records were retrospectively evaluated for 78 infertile patients who underwent microsurgical inguinal varicocelectomy, with documented serum FSH, testosterone, free testosterone levels, sperm concentration and sperm motility before and after surgery. Left and bilateral varicoceles were detected in 40 and 38 patients, respectively. In addition, serum hormonal values of 10 fertile men in whom physical examinations and Doppler ultrasonography revealed no evidence of varicocele were recorded and used as a control group. RESULTS: The mean (sd) serum FSH levels of all patients decreased from 15.21 (3.34) before surgery to 10.82 (2.93) mIU/mL afterward (P=0.01), and serum testosterone levels increased from 5.63 (1.40) to 8.37 (2.2) ng/mL (P=0.01), whereas free testosterone levels increased from 23.13 (3.19) to 32.83 (4.37) pg/mL (P<0.001). In contrast to the significant difference in sperm motility before and after surgery of all patients (P<0.01), the difference in sperm count was insignificant (P>0.05). Thirty-six patients with high serum FSH levels before surgery had significantly lower levels afterward (P=0.001). In this group, the sperm concentration and motility also increased, from 17.66 (4.35) to 20.76 (4.37) million/mL (P=0.05) and from 30.9 (4.4)% to 37.5 (4.34)%, respectively (P=0.01). In the remaining 42 patients who had normal preoperative serum FSH levels, there was a slight decrease after surgery (P=0.02). Their sperm concentration increased slightly (P=0. 04), and motility also increased (P=0.001). Sixty patients had a significantly higher testosterone level after surgery; in this group the sperm concentration and motility increased (P=0.01). CONCLUSION: Varicocelectomy promotes Sertoli and Leydig cell function. The significant increase in serum free testosterone level results in a significant improvement in sperm concentration and motility.     

Seminal plasma cobalamin significantly correlates with sperm concentration in men undergoing IVF or ICSI procedures

Mild hyperhomocysteinemia is caused by B vitamin deficiencies. We hypothesize that these biochemical derangements detrimentally affect spermatogenesis. Therefore, the aim of this study was to investigate the folate, cobalamin, pyridoxine, and homocysteine concentrations in blood and seminal plasma and the associations between these biomarkers and semen parameters in men participating in an in vitro fertilization or intracytoplasmic sperm injection program. From 73 men (median age [range]: 37 years [28-53]), blood and semen samples were obtained for the determination of serum and red blood cell (RBC) folate, serum total cobalamin, whole-blood pyridoxal-5'-phosphate, plasma total homocysteine (tHcy), and serum total testosterone. Semen analysis included sperm concentration, motility, and morphology according to World Health Organization criteria. The B vitamins and tHcy concentrations were significantly correlated in blood but not in seminal plasma. The serum and RBC folate concentrations were significantly correlated also with the total folate concentration in seminal plasma (r = .44; P < .001 and r = .39; P < .001, respectively). Likewise, the total cobalamin concentration in serum and seminal plasma was significantly correlated (r = .55; P = .001). Of interest is that the total cobalamin concentration in seminal plasma was significantly correlated with the sperm concentration (r = .42; P < .001). This is in contrast to the absence of significant associations between the other vitamins and tHcy in blood and seminal plasma and any of the semen parameters. These findings suggest that folate and cobalamin are transferred from the blood to the male reproductive organs and emphasize the role of cobalamin in spermatogenesis in human.     

精浆游离L-肉毒碱水平及其与精子密度、活动率及活力的相关性研究

目的:研究正常生育及不育男性精浆中游离L-肉毒碱水平差异及其与精子密度、活动率(a+b+c级精子百分率)及活力(a+b级精子百分率)之间的相关性,探讨精浆中游离L-肉毒碱水平对男性生育力的影响及其在不育症检查和治疗中的作用。方法:分别采用高效液相色谱法和计算机辅助精液分析系统,测定了230例不育症患者(精子密度正常117例,少精子症81例,无精子症32例)和30例正常生育男性精浆中游离L-肉毒碱水平及精子密度、活动率、活力等参数。根据检查结果对不育症患者分组后,以SPSS12.0软件包进行统计学分析,比较各组间游离L-肉毒碱水平的差异以及游离L-肉毒碱水平与精子密度、活动率、活力之间的相关性。结果:正常生育组精浆游离L-肉毒碱水平明显高于不育组(P<0.01)。精液中精子密度越低、活力越弱,这种差异性越显著。相关性分析结果显示,精浆游离L-肉毒碱水平与精子密度呈显著正相关关系(r=0.521,P<0.01),与精子活动率和活力之间也具有正相关关系(r=0.319,P<0.01;r=0.251,P<0.01)。结论:精浆L-肉毒碱水平与精子密度、活动率和活力之间密切相关,其含量测定作为一项有用的生化指标,可为男性不育症检查及临床诊治和进行有关男性生殖功能机制研究提供参考。     

精浆催乳素浓度与精子计数、活动率的关系

对107例男性进行精液分析并测定其精浆催乳素(PRL)浓度,精子活动率和精子密度正常男性的精浆PRL为11.53±5.36ng/ml,与精子活动率正常而少精子的男性相比(13.06±4.62ng/ml),两组间无显著性差异(t=0.91,t>0.2);而精子密度正常、正常精子活率组和低活率组相比,低活率组的精浆PRL水平(17.24 ±5.86ng/ml)明显增高(t=4.15,P<0.001).相关分析表明精浆PRL与精子活动率呈负相关(r=-0.38,P<0.001);与精子密度亦呈负相关(r=-0.37,P<0.001).49例受试者取精液前抽血测定血清PRL水平,精浆PRL水平与血清PRL无关(r=0.204,P>0.1).     

精浆中游离L-肉碱水平与附属性腺生化指标的相关性研究

目的:研究精浆中游离L-肉碱水平与α-葡糖苷酶、果糖、酸性磷酸酶3项附属性腺生化指标之间的相关性,探讨L-肉碱作为一项生化指标在男性生殖功能评价中的作用。方法:采集30例正常生育男性和222例不育患者精液样品,分别以计算机辅助精液分析系统进行精液常规分析,同时测定精浆中游离L-肉碱、果糖水平以及α-葡糖苷酶和酸性磷酸酶活性。用SPSS 12.0统计软件包分析两组间各项生化指标之间的差异,以及精浆中游离L-肉碱与果糖水平、α-葡糖苷酶和酸性磷酸酶活性之间的相关性。结果:正常生育组精浆游离L-肉碱水平明显高于不育组(P<0.01)。两组间α-葡糖苷酶活性差异有统计学意义(P<0.05),而果糖水平和酸性磷酸酶活性差异无统计学意义。相关性分析结果显示,精浆游离L-肉碱水平与精浆中α-葡糖苷酶活性具有较强的正相关关系(r=0.504,P<0.001);而与精浆中果糖水平以及酸性磷酸酶活性之间无相关关系。结论:精浆中游离L-肉碱水平测定可作为评估附睾功能的一项生化指标,其在正常生育组与不育组间的水平差异较两组精浆中α-葡糖苷酶活性差异更为显著,可为男性不育检查及临床诊治和进行有关男性生殖功能机制研究提供参考。     

Relationships between levels of estradiol and testosterone in seminal plasma and GSTM1 polymorphism in infertile men

Glutathione S-transferase M1 (GSTM1) enzyme serves as a steroid-binding protein by its ability to bind to testosterone and estradiol. The levels of total estradiol and testosterone were measured by using an electrochemiluminescence immunoassay in serum and seminal plasma from 103 subjects including 62 subfertile patients. GSTM1 polymorphism was examined using polymerase chain reaction. The estradiol and testosterone levels in seminal plasma were not different in control and subfertile subjects. No role for GSTM1 enzyme as a steroid-binding protein seemed likely as there was also no significant difference in seminal plasma estradiol and testosterone levels according to GSTM1 genotype. Significant positive correlations were found between seminal estradiol and serum estradiol in infertile males, and between seminal testosterone and serum testosterone in fertile males, independent of GSTM1 genotype. GSTM1 polymorphism is not a genetic risk factor of seminal estradiol and testosterone levels in infertile males although further studies are warranted.     

Beta-endorphin in serum and seminal plasma in infertile men

Aim:To access beta-endorphin levels in serum as well as seminal plasma in different infertile male groups.Methods:Beta-endorphin was estimated in the serum and seminal plasma by enzyme-linked immunosorbent assay(ELISA)method in 80 infertile men equally divided into four groups:non-obstructive azoospermia(NOA),obstructive azoosper-mia(OA),congenital bilateral absent vas deferens(CBVAD)and asthenozoospermia.The results were compared tothose of 20 normozoospermic proven fertile men.Results:There was a decrease in the mean levels of beta-endorphin in the seminal plasma of all successive infertile groups(mean±SD:NOA 51.30±27.37,OA 51.88±9.47,CBAVD 20.36±13.39,asthenozoospermia 49.26±12.49 pg/mL,respectively)compared to the normozoospermicfertile control(87.23±29.55 pg/mL).This relation was not present in mean serum level of beta-endorphin betweenfour infertile groups(51.09±14.71,49.76±12.4,33.96±7.2,69.1±16.57 pg/mL,respectively)and the fertilecontrol group(49.26±31.32 pg/mL).The CBVAD group showed the lowest seminal plasma mean level of beta-endorphin.Testicular contribution of seminal beta-endorphin was estimated to be approximately 40%.Seminal beta-endorphin showed significant correlation with the sperm concentration(r=0.699,P=0.0188)and nonsignificantcorrelation with its serum level(r=0.375,P=0.185)or with the sperm motility percentage(r=0.470,P=0.899).Conclusion:The estimation of beta-endorphin alone is not conclusive to evaluate male reproduction as there aremany other opiates acting at the hypothalamic pituitary gonadal axis.(Asian J Androl 2006 Nov;8:709-712)     

Melatonin hormone profile in infertile males

Melatonin is a hormone produced by the pineal gland. There is much controversy about its relationship to the male reproductive process. In this study, seminal plasma as well as the serum melatonin levels were studied in different infertile male groups and were correlated with their semen parameters and hormonal levels. One hundred twenty male cases subdivided into six equal groups were consecutively included; fertile normozoospermic men, oligoasthenozoospermia (OA), OA with leucocytospermia, OA with varicocele, non-obstructive azoospermia (NOA) with high serum follicle stimulating hormone (FSH) and NOA with normal FSH. Semen analysis, estimation of melatonin, FSH, testosterone (T) and prolactin (PRL) hormone was carried out. Mean level of serum melatonin was higher than its corresponding seminal concentrations in all investigated groups with a positive correlation between their levels (r = 0.532, p = 0.01). Serum and seminal plasma melatonin levels in all infertile groups were reduced significantly compared with their levels in the fertile group. The lowest concentrations were in OA with leucocytospermia group. Melatonin in both serum and semen demonstrated significant correlation with sperm motility (r = 607, 0.623 respectively, p = 0.01). Serum melatonin correlated positively with serum PRL (r = 0.611, p = 0.01). It may be concluded that melatonin may be involved in the modulation of reproductive neuroendocrine axis in male infertility. Also, low levels of melatonin in semen were observed in infertile groups having reduced sperm motility, leucocytospermia, varicocele and NOA.