便秘型肠易激综合征患者血清神经肽Y、P物质和5-羟色胺水平与焦虑抑郁的相关性

为探讨便秘型肠易激综合征(constipation-predominant irritable bowel syndrome, C-IBS)患者血清神经肽Y (neuropeptide Y, NPY)、P物质(substance P, SP)以及5-羟色胺(5-hydroxytryptamine, 5-HT)水平与焦虑抑郁的相关性,本研究选取确诊为C-IBS的患者35例,健康对照组35例,采用焦虑自评表(self-rating anxiety scale, SAS)和抑郁自评表(self-rating depression scale, SDS)评定C-IBS患者和健康对照组的焦虑和抑郁状况。酶联免疫吸附法(enzyme-linked immunosorbent assay, ELISA)检测C-IBS患者和健康对照组血清NPY、SP以及5-羟色胺含量变化。结果表明,IBS-C中出现抑郁、焦虑或者无抑郁、焦虑的患者在各方面(性别,年龄以及病程)无统计学意义。与健康对照组相比,C-IBS组NPY和SP水平显著降低(t=7.96, p<0.01; t=5.63, p<0.01),5-HT则表现出显著性升高(t=8.06, p<0.001)。C-IBS组SAS和SDS评分结果与健康对照组相比有着显著性的升高(t=12.13, p<0.001; t=11.34, p<0.001)。C-IBS患者血清NPY与SAS和SDS评分均呈负相关(r=-0.62, p<0.001; r=-0.69, p<0.001)。C-IBS患者血清SP水平与SAS和SDS评分均呈负相关(r=-0.63, p<0.001; r=-0.57, p<0.001)。C-IBS患者血清5-HT与SAS和SDS评分均呈正相关(r=0.74, p<0.001; r=0.68, p<0.001)。本研究初步表明,C-IBS患者血清中NPY和SP水平降低,并与焦虑、抑郁评分呈负相关性,5-HT在C-IBS患者血清中升高,与焦虑、抑郁评分呈正相关性,NPY、SP以及5-HT可能在便秘型肠易激综合征出现焦虑、抑郁的过程中发挥重要作用。     

睾酮对去睾丸家兔骨密度及血清钙磷的影响

目的:观察去睾丸和睾酮补充对雄兔骨密度和血清钙、镁、磷的影响.方法:周龄相同的雄性新西兰白兔随机分成对照组、去睾丸组和睾酮补充组(去睾丸后肌注十一酸睾酮).同等条件下饲养20周后测量各组兔全身骨密度、腰椎骨密度、股骨颈骨密度,并检测血清总睾酮(TT)、雌二醇(E2),脱氢表雄酮(DHEA)水平以及血清钙(Ca2 )、游离钙([Ca2 ]i)镁(Mg2 )、磷(P)和碱性磷酸酶(AKP)浓度.结果:去睾丸组血清TT水平明显下降(P<0.01),睾酮补充组血清TT水平升高接近对照组(P>0.05).去睾丸组血清E2和E2/TT比明显高于对照组(P<0.01),睾酮补充组血清E2和E2/TT下降,接近对照组水平(P均>0.05).与对照组相比,去睾丸组血清Ca2 、[Ca2 ]i、Mg2 以及AKP浓度明显升高(P均<0.01),睾酮补充组血清Ca2 、[Ca2 ]i、Mg2 以及AKP浓度较去睾丸组低,接近对照组水平(P>0.05).股骨颈骨密度在去睾丸组明显低于对照组和睾酮补充组(P<0.01),而后两组无差别(P>0.05).结论:去睾丸后雄兔血清TT明显下降,E2和E2/TT比以及Ca2 、[Ca2 ]i、Mg2 和AKP浓度明显升高,骨密度显著下降,睾酮补充使上述异常明显改善.     

浙江千岛湖浮游动物群落多样性研究

1999年1～12月对浙江千岛湖浮游动物的群落结构,包括密度多样性和生物量多样性进行了 系统研究。轮虫类的多样性指数最高,并且当湖泊在一定的营养水平范围内（贫营养型向中 营养型过渡）时,轮虫的密度多样性与湖泊的营养水平呈现相同的变化趋势。以时间和空间 为参照,对千岛湖两种浮游动物多样性指数与群落因素之间进行了相关分析,得到相关关系 如下：月变化密度多样性＝-0.922+4.521×密度均匀度,n=12, r=0.872, p<0.001;生物量多样性=1.99-0.348×透明生物量,n=12, r=-0.868, p<0.01;水平变化密度多样性＝2.35+0.008×种类数, n=10, r=0.672, p<0.05;生物量多样性=2.88-1.739×生物量优势度, n=10, r=-0.826, p<0.01。     

菊花花部特征及花冠精油组分与访花昆虫的相关性

 菊花(Dendranthema morifolium)是异花授粉植物, 具有自交不亲和特性。其自然授粉的主要媒介为蜂类和蝶类。我们对19个菊花品种的花色、花朵繁密度、花冠直径、管状花花盘直径、株高以及花冠精油组分与访花蜂数和访花蝶数的相关性进行了研究。结果表明, 黄花色系较吸引西方蜜蜂(Apis mellifera)访花; 菊花的花朵繁密度、花冠直径、管状花花盘直径均与访花蜂数有显著相关性, 而株高与访花蜂数无相关性。大红蛱蝶(Vanessa indica)青睐红色花, 其访花蝶数与花朵繁密度、管状花花盘直径均有显著相关性, 而花冠直径和株高与访花蝶数无相关性。经气相色谱-质谱(GC-MS)分析得知, 不同菊花品种花冠精油的组分不同, 其主要成分均为单萜和倍半萜类及其含氧衍生物; 并且不同品种含有某些特定的花冠精油组分, 其中樟脑萜(r = –0.909, p<0.05)和6,10,14-三甲基-2-十五酮(r=0.882, p<0.05)与访花蜂数呈一定的相关性, α萜品醇(r=0.979, p<0.01)、顺柠檬烯氧化物(r=0.979, p<0.01)、金合欢烯氧化物(r=0.979, p<0.01)、p-mentha-6,8-dien-2-ol,cis- (r=0.973, p<0.01)、p-menth-1-en-8-ol (r=0.962, p<0.01)和4-萜品烯醇(r=0.957, p<0.05)与访花蝶数呈一定相关性。     

度他雄胺对大鼠附睾精子成熟和生育的影响

目的通过度他雄胺对大鼠附睾精子和生育的影响,探索调节雄性生育的睾丸后作用靶点。方法使用度他雄胺20和40 mg/(kg.d)大鼠灌胃给药,连续2周。给药结束后雄雌鼠按1∶2合笼,计算生殖指数;采用计算机辅助精子分析系统分析精子活力和形态;采用SYBR-14和PI双重荧光染色计算精子存活率;采用Elisa法测定大鼠睾酮(T)和双氢睾酮(DHT)血清浓度;采用HE染色法对各组睾丸、附睾进行组织学分析。结果度他雄胺低、高剂量组双氢睾酮浓度均显著下降,分别为0.54和0.28 nmol/L(P<0.01),精子活力明显降低,分别为39.0%和28.7%(P<0.01),畸形率分别增加为10.3%和15.6%(P<0.05),最后受孕率分别降为62.5%和38.4%。而睾酮水平和交配指数均无明显变化(P>0.05),睾丸和附睾亦无明显病理学改变。结论度他雄胺通过抑制DHT生成,影响附睾精子成熟而导致大鼠不育,为今后男性避孕和不育药物研发提供了新思路。     

野生黄山短尾猴雄性睾酮的季节性变化

本文研究了黄山短尾猴野生群体雄性睾酮的变化规律.采用放射性免疫分析方法,对黄山短尾猴鱼鳞坑YA2群成年雄性个体在交配期(2005年10月至2006年1月;2006年7月至9月)与非交配期(2006年2月至6月)的粪便睾酮水平进行了测定,共采集到5只雄性个体的新鲜粪便样品426个.结果表明:在群体水平,黄山短尾猴成年雄性睾酮浓度交配季节(12.283±5.745 ng/ml)显著高于非交配季节(9.424±4.987 ng/ml),季节性变化显著(P<0.01);个体水平上,不同个体雄性睾酮均呈现显著的季节性变化(P<0.01);成年雄性睾酮分泌水平与生境温度变化呈显著正相关关系(P<0.05),且在交配季节初期雄性睾酮浓度最高,交配季节末期降到最低.研究结果支持短尾猴季节性繁殖的结论,且环境温度是影响短尾猴雄性睾酮浓度的可能因素.     

迁地保育林麝体况及影响因素

通过建立基于外貌性状的量化性体况评分标准,于2012年7—10月间对四川马尔康麝场的586头圈养林麝(雌麝299头,雄麝287头)进行了体况评分,并分析了相关变量对林麝体况得分的效应,结果表明:马尔康麝场圈养林麝的体况评分均值为3.49(±0.02,n=586),大部分林麝(59.56%,n=349)的体况评分高于均值。雌麝体况评分均值(3.50±0.02,n=299)略高于雄麝(3.49±0.03,n=287)(P0.05),成体麝体况评分(3.59±0.02,n=291)极显著地高于老龄林麝(3.38±0.09,n=27)和亚成林麝(3.35±0.03,n=184)(P0.01)。林麝的体况得分与其年龄相关不显著(r=0.07,P0.05),但亚成体及成体麝的体况评分与其年龄间的相关极显著(亚成体r=0.19,P0.01;成体r=-0.16,P0.01),而老龄麝体况评分与其年龄略呈负相关(r=-0.23,P0.05)。S模型y=e1.2811-0.0885/a(R2=0.051,df=500,F=26.74,P0.01)可近似拟合林麝体况得分和年龄的关系。此外,马尔康麝场泥地基底的改装圈舍中的林麝体况(3.52±0.03,n=197)显著优于原装青砖圈舍林麝评分(3.47±0.02,n=389)(P0.05)。     

中枢神经系统感染患儿血清、脑脊液MMP-9和IL-1β水平变化分析

探讨中枢神经系统感染患儿血清、脑脊液中基质金属蛋白酶-9(MMP-9)、白细胞介素-1β(IL-1β)的水平变化及其临床意义。选取2015年1月至2016年4月本院收治的36例化脓性脑膜炎患儿(化脑组)、27例病毒性脑炎患儿(病脑组)、30例非神经系统感染儿童(对照组)。采用ELISA方法检测3组血清、脑脊液中MMP-9、IL-1β的水平,采用电化学发光全自动免疫分析仪分析血清白蛋白和脑脊液白蛋白含量,并计算白蛋白指数。研究显示,化脑组、病脑组患儿脑脊液中MMP-9、IL-1β水平显著的高于对照组(p0.01);化脑组患儿脑脊液中MMP-9、IL-1β水平显著的高于病脑组(p0.01);化脑组、病脑组患儿脑血清中MMP-9、IL-1β水平显著的高于对照组(p0.01);化脑组患儿血清中MMP-9水平显著的高于病脑组(p0.01);化脑组患儿脑脊液中MMP-9、IL-1β、血清中MMP-9、IL-1β与患儿白蛋白指数均呈显著正相关(r=0.427,r=0.463,r=0.398,r=0.411,p0.05);病脑组患儿脑脊液中MMP-9、IL-1β、血清中MMP-9、IL-1β与患儿白蛋白指数均呈显著的正相关(r=0.416,r=0.448,r=0.372,r=0.403,p0.05)。中枢神经系统感染患儿血清、脑脊液中MMP-9、IL-1β的水平变化与患儿血脑屏障功能损害有关。     

甲状腺癌患者血清IL-17、IL-35、SIL-2R表达水平及其临床意义

目的:探讨甲状腺癌患者血清白细胞介素-17(IL-17)、白细胞介素-35(IL-35)及可溶性白介素-2受体(SIL-2R)水平及其对甲状腺癌诊断与病情评估的临床价值。方法:选取我院2015年6月~2016年12月收治的甲状腺腺瘤患者38例、甲状腺癌患者49例为研究对象,另选取同期于我院体检中心接受体检的52例健康体检者为对照组。采用酶联免疫吸附法(ELISA)检测和比较其血清IL-17、IL-35、SIL-2R水平,并分析甲状腺癌患者血清IL-17、IL-35、SIL-2R水平与其年龄、病程、病理分期的相关性。结果:甲状腺腺瘤组血清IL-17、IL-35、SIL-2R水平与对照组比较差异均无统计学意义(P0.05)。甲状腺癌组血清IL-35水平显著低于甲状腺腺瘤组和对照组(P0.01),血清IL-17、SIL-2R水平均显著高于甲状腺瘤组和对照组(P0.01)。血清IL-17、SIL-2R水平随甲状腺癌分化程度的降低而升高,血清IL-35水平随甲状腺癌分化程度的降低而降低(P0.01)。血清IL-17、SIL-2R水平随甲状腺癌病理分期的增加而升高,血清IL-35水平随甲状腺癌病理分期的增加而降低(P0.01)。血清IL-17、SIL-2R水平与甲状腺癌病理分期均呈显著正相关(r=0.432、0.439,P均0.05)。血清IL-35水平与甲状腺癌病理分期呈显著负相关(r=-0.602,P0.05)。血清IL-17与IL-35呈显著负相关(r=-0.323,P0.05),IL-17与SIL-2R呈显著正相关(r=0.429,P0.05),IL-35与SIL-2R呈显著负相关(r=-0.415,P0.05)。结论:甲状腺癌患者的血清IL-17、SIL-2R水平均显著上调,IL-35水平显著下调,其对甲状腺癌的早期诊断、病情评估均具有重要参考价值。     

圈养林麝社会等级与粪样类固醇激素水平的关系

动物社群的社会等级可对个体的资源分配、社群稳定及个体的行为对策产生重要影响,圈养动物的类固醇激素水平与饲养管理有关,可反映动物的社群紧张水平。深入理解圈养动物的社会等级与其类固醇激素水平的关系是进行濒危动物迁地保育和成功驯养的基础。2018年6月15日—8月15日,用焦点取样法对四川马尔康林麝繁育场的25头林麝进行了冲突行为取样及社会等级计算,采用放射免疫分析法检测了同期粪样的类固醇激素水平,分析了林麝社会等级与粪样皮质醇、睾酮及雌二醇水平的关系。结果表明:低等级雌麝的雌二醇水平(289.037±59.710 pg·g^-1,n=11)显著高于高等级雌麝(45.670±27.283pg·g^-1,n=6)(P<0.05),低等级雄麝的睾酮水平(3.863±1.538 ng·g^-1,n=3)和高等级雄麝(8.017±1.295 ng·g^-1,n=5)无显著差异(P>0.05);低等级雄麝(37.891±7.564 ng·g^-1,n=3)和雌麝(37.262±1.544 ng·g^-1,n=11)的皮质醇水平与高等级雄麝(29.947±2.441 ng·g^-1,n=5)及雌麝(37.478±4.628 ng·g^-1,n=6)间的差异不显著(P>0.05)。不区分性别,低等级林麝的皮质醇水平(37.397±1.826 ng·g^-1,n=14)和高等级个体(34.055±2.886ng·g^-1,n=11)间无显著差异(P>0.05)。研究结果表明,圈养林麝雌体的社会等级与其粪样雌二醇水平呈负相关,低等级雌麝的粪样雌二醇水平显著高于高等级雌麝。在麝类驯养实践中,可监测雌麝的社会等级和粪样雌二醇水平变化,预测雌麝的行为健康及繁殖成效。     

Seasonal variation in serum testosterone, testicular volume, and semen characteristics in the coyote (Canis latrans)

The coyote is a seasonally breeding mammal, with most copulations occurring between December and April (depending on location). The objective of this study was to characterize seasonal changes in serum testosterone concentrations, testicular volume, and ejaculate quantity and quality in captive male coyotes. There were seasonal differences in testicular volume, with the greatest volume (20.2+/-5.4cm2), mean+/-S.E.M.) in February, corresponding with peak breeding season. Circulating serum testosterone concentrations peaked (3.31+/-0.9 ng/mL) during January and were positively correlated (P< or =0.001, r=0.413) with testicular volume. Ejaculate volume (1.67+/-0.4 mL) and sperm concentration (549.2 x 10(6)+/-297.7 spermatozoa/mL) both peaked during January and February, consistent with the height of the breeding season. Ejaculate volume and sperm concentrations were positively correlated with testicular size (r=0.679, P< or =0.001 and r=0.499, P< or =0.001, respectively) and with serum testosterone concentrations (r=0.368, P< or =0.01 and r=0.208, P< or =0.05). Progressively motile, viable, and morphologically normal spermatozoa fluctuated seasonally, peaked (90.4+/-4.5, 84.8+/-4.1, and 87.9+/-2.9%) during the breeding season, and then subsequently declined (period of aspermatogenesis). All three of these end points were positively correlated with testicular size (r=0.589, P< or =0.001; r=0.586, P< or =0.001; and r=0.469; P< or =0.001) and serum testosterone (r=0.167, P< or =0.05; r=0.190, P< or =0.05; and r=0.221, P< or =0.01). In conclusion, there were intricate relationships among testosterone concentrations, testicular volume, and the production of both functionally intact and morphologically normal spermatozoa.     

Horn growth related to testosterone secretion in two wild Mediterranean ruminant species: the Spanish ibex (Capra pyrenaica hispanica) and European mouflon (Ovis orientalis musimon)

Seasonal variations in the horn development and testicular activity of the Spanish ibex (Capra pyrenaica hispanica) (n=6) and European mouflon (Ovis orientalis musimon) (n=5) were monitored to determine the role of increasing testosterone concentration on the arrest of horn growth during the rutting season. Marked seasonal variations in the rate of horn growth (P<0.01) and testicular activity (P<0.001) were seen in both species, although the magnitude and timing of these changes were different (P<0.01). Horn growth rate was inversely correlated to seasonal levels in testosterone plasma concentration in both species (ibex: R=-0.45, P<0.01; mouflon R=-0.51, P<0.01). In the mouflon, the increase in plasma testosterone concentration recorded in September (P<0.05 compared with the lowest concentration) coincided with a significant reduction in horn growth (P<0.05). In the ibex, the increase in plasma testosterone concentration in October (P<0.05 compared with the lowest concentration) was associated with a significant arrest of horn growth in November (P<0.05). These results appear to support the hypothesis that high peripheral plasma levels of testosterone are linked with the seasonal arrest of horn growth during the rutting period.     

Arachidonate 15-lipoxygenase and ubiquitin as fertility markers in boars

Accurate semen analysis is an important issue in the swine industry. We evaluated two candidate fertility marker proteins associated with sperm cytoplasmic droplet (CD), including 15-lipoxygenase (15-LOX) and ubiquitin (UBI) in a controlled single-sire artificial insemination (AI) trial. Ejaculates (n=116) were collected from 18 fertile Large White boars monthly for 8 mo, and analyzed by semi-quantitative, densitometry-based Western blotting and flow cytometry with antibodies against 15-LOX and UBI. Data were correlated with farrowing rates (FR) and total numbers of piglets born (TNB) from 1754 AI services by 13 of 18 boars, and compared with a conventional microscopic semen analysis. In semi-quantitative Western blotting, both 15-LOX and UBI were correlated with seasonal changes in the percentage of normal (r=-0.38, P<0.01; r=-0.27, P<0.05, respectively) and CD-bearing spermatozoa (r=0.35, P<0.01; r=0.27, P<0.05, respectively). In flow cytometry, UBI and 15-LOX levels showed seasonal changes coinciding with seasonal changes of FR and TNB, representing 13 boars, 88 ejaculates and 1,232 AI services. There were correlations between flow cytometric values of UBI and FR (r=0.31; P<0.05), adjusted FR (r=0.30; P<0.05), TNB (r=-0.38; P<0.01) and adjusted TNB (r=-0.37; P<0.01). Flow cytometric measurements of 15-LOX correlated negatively with TNB (r=-0.33; P<0.05) and adjusted TNB (r=-0.34; P<0.05). These data suggested that boar fertility estimation could be achieved within a group of fertile boars by the use of objectively measurable fertility markers. Flow cytometry appeared more informative and more practical than semi-quantitative Western blotting. This technology could be further optimized for the selection of the most fertile sires in an artificial insemination program.     

Seasonally activated spermatogenesis is correlated with increased testicular production of testosterone and epidermal growth factor in mink (Mustela vison)

Seasonal changes in spermatogenesis were studied with respect to testicular production of both testosterone and epidermal growth factor (EGF) in mink. The testes were collected in November (n = 15; testis recrudescence), February (n = 15; before breeding season), March (n = 14; breeding season), and May (n = 11; testis involution) and the following parameters of testicular activity were quantified: testicular mass, number of testicular spermatozoa, percentages of haploid, diploid, and tetraploid (G2/M-phase) cells and content of testosterone and EGF. The growth factor was immunohistochemically localized in the parenchyma. Testis mass, spermatogenic activity, and the production of both testosterone and EGF were maximal in March, but were not significantly different from the levels in February. The correlation between testis weight and sperm per testis was r = 0.825 (P < 0.001). Testosterone and EGF levels were correlated to each other (r = 0.78; P < 0.001) and had significant positive correlations to testis mass, number of sperm and proportion of haploid cells; and negative correlations to percentages of mitotic cells. EGF was localized in interstitial cells and in the luminal region of seminiferous tubules, where it occurred during the last steps of spermiogenesis. We inferred that intensified seasonal spermatogenesis was stimulated by testosterone and by autocrine/paracrine effects of EGF.     

红三叶草总异黄酮对小公鸡生长及血清睾酮水平的影响

日粮中添加红三叶草总异黄酮（４．３８ｍｇ／ｋｇ饲料）,饲喂４５－５６日龄红布罗肉用公仔鸡,与对照组比较,总异黄酮实验组公仔鸡日增重提高５．１％,料重比下降９．２％,提高了饲料的利用率。屠宰结果表明,腹脂重、腹脂／胴体显著降低,鸡冠重、睾丸重增加,鸡冠、睾丸和体重间的相关分析,睾丸石蜡切片和血清睾酮含量的放射免疫测定,均表明总异黄酮能提高血清睾酮水平,促进雄性动物生殖系统发育。     

Characterization of male killer whale (Orcinus orca) sexual maturation and reproductive seasonality

Longitudinal serum testosterone concentrations (n=10 males) and semen production (n=2 males) in killer whales were evaluated to: (1) characterize fluctuations in serum testosterone concentrations with respect to reproductive maturity and season; (2) compare morphologic changes to estimated age of sexual maturity, based on changes in serum testosterone concentrations; and (3) evaluate seasonal changes in sperm production. Classification of reproductive status and age class was based on differences (P < 0.05) in serum testosterone concentrations according to age; juvenile males ranged from 1 to 7 years (mean+/-S.D. testosterone, 0.13+/-0.20 ng/mL), pubertal males from 8 to 12 years (2.88+/-3.20 ng/mL), and sexually mature animals were 13 years and older (5.57+/-2.90 ng/mL). For captive-born males, serum testosterone concentrations, total body length and height to width ratio of the dorsal fin were 0.7+/-0.7 ng/mL, 495.6+/-17.5 cm and 1.14+/-0.13c m, respectively, at puberty; at sexual maturity, these end points were 6.0+/-3.3 ng/mL, 548+/-20 cm and 1.36+/-0.1cm. Serum testosterone concentrations were higher (P<0.05) from March to June than from December to February in pubertal animals (4.2+/-3.4 ng/mL versus 1.4+/-2.6 ng/mL) and than from September to December in sexually mature animals (7.2+/-3.3 ng/mL versus 4.0+/-2.0 ng/mL). Ejaculates (n = 90) collected from two males had similar (P > 0.05) sperm concentrations across all months. These data represent the first comprehensive study on male testosterone concentrations during and after sexual maturation, and on reproductive seasonality in the killer whale.     

Blood testosterone levels in Italian Mediterranean buffalo bulls managed in two different breeding conditions

In Italian buffalo cows the spontaneous cyclic ovarian activity is mainly high in autumn, while during spring and early summer it is very low. However many farmers separate males from females in the October-February period to obtain births in winter-spring. In order to verify if blood testosterone concentration in adult buffalo bulls is affected by season and by different management of the contact with females, 20 adult buffalo males, bred in central Italy were submitted to monthly blood sampling for 1 year, from September to August. The bulls were kept together with females all the time (group A; n=9) or were held separated from cows from October to February (group B; n=11). The mean (+/-S.E.M.) serum testosterone concentrations were higher in spring and summer than in autumn and winter in group B (2.07+/-0.1 ng/mL versus 0.99+/-0.08 ng/mL, P<0.01) but in group A the seasonal difference was not significant (2.09+/-0.13 versus 1.48+/-0.28). The management of the contact with females affected testosterone values (P<0.01): in the separation period (October-February) the mean serum concentration in group B was lower than in March-September, when the cows were together with the bulls (0.94+/-0.09 ng/mL versus 1.95+/-0.1 ng/mL, P<0.05). This is not true for group A (1.49+/-0.20 ng/mL versus 2.00+/-0.13 ng/mL, NS). It is concluded that contact with females exerted a major stimulus for the testicular androgen secretion in buffalo bulls, even if other seasonal factors (climate, food intake) may affect control of gonadal activity.     

Seasonal changes in inhibin activity in seminal plasma and serum concentrations of FSH, LH and testosterone in the male goat (Capra hircus)

Inhibin activity in goat seminal plasma was measured by in vitro assay throughout successive 9 months and its relationship with the serum FSH, LH and testosterone concentrations was investigated. Total inhibin activity (TIA) in seminal plasma gradually increased from spring to summer, reduced in autumn (P<0.05) and recovered toward winter (P<0.05). Serum FSH and LH reached a peak in mid-summer (P<0.01) and returned to the low levels in autumn. Serum testosterone also increased in mid-summer and kept the high levels until the early winter (P<0.05). Some positive correlation was found in monthly levels between seminal TIA and serum FSH (r=0.305; P<0.05). Results suggest that the summer increase of inhibin activity in seminal plasma relates with the mid-summer rise of serum FSH levels in the male goat.     

Early prepubertal testis criteria, seminiferous epithelium and hormone concentrations as related to testicular development in beef bulls

The present study was conducted to evaluate testis size, spermatogenesis and hormone concentrations before and when peripheral testosterone reached 1 ng/ml as related to further gonad development of beef bulls (n=28). Blood samples were taken weekly starting at 10 weeks (wk) and when testosterone reached 1 ng/ml (AGE1), the left testis was surgically excised. From AGE1 until 54 wk, blood samples were collected to follow basal and GnRH-stimulated hormone profiles. At 54 wk, the second testis was removed. Testosterone reached 1 ng/ml at 20±0.6 wk and, at this developmental state, the seminiferous tubules occupied 57±1.1% of the testis parenchyma. At this phase, 79.3±1.4% of tubule sections had no germ cells and only 2.4±0.3% of the remaining tubules had spermatocytes as the most advanced germ cell type. Also at AGE1, testis size was correlated with the number of Sertoli cells per testis (r=0.67; P<0.05), but not (P>0.05) with the percentage of tubules with germ cells. There was a consistent increase in body weight and testis size throughout the study showing that hemicastration did not impair the development of the bulls. At 54 wk, seminiferous tubules represented 76±0.7% of the testis parenchyma and 72.3±1.7% of tubule sections were found with either round or elongated spermatids. Quantitative criteria of spermatogenesis in the second testis (excised at 54 wk) were not correlated (P>0.05) with the percentage of seminiferous tubules with germ cells in the first testis (excised at AGE1). As determined by regression analysis, testis diameter measured between 30 and 44 wk (AVTD) was associated with AGE1 and testis diameter averaged at 12 wk and AGE1 (R(2)=0.77; P<0.01). Also, AVTD was related to AGE1, testis diameter at 12 wk and concentrations of 17β-estradiol (estradiol; basal+GnRH-stimulated) averaged between 10 wk and AGE1 (R(2)=0.79; P<0.01). Yearling testis weight, in turn, was linked to AGE1 and testis weight at AGE1 (R(2)=0.49, P<0.01). In conclusion, early detection of 1 ng of testosterone/ml, larger testis size and greater estradiol before and at that developmental period positively relate to future testis attributes. When testosterone reached 1 ng/ml, the seminiferous tubules had Sertoli cells, spermatogonia and a few spermatocytes and events occurring before and at that phase are potential markers of testis growth and sperm-producing capacity of sires.