Budiyanto Agung, Hartanto Slamet, Widayanti Rini, Kurnianto Heri, Wardi Wardi, Haryanto Bambang, Munir Ivan Mambaul, Ibrahim Alek, Ludfiani Dini Dwi
Department of Reproduction, Obstetrics, and Gynecology, Faculty of Veterinary Medicine, Gadjah Mada University, Yogyakarta, Indonesia.
Research Center for Animal Husbandry, National Research and Innovation Agency, Bogor, Indonesia.
Vet World. 2024 Apr;17(4):911-921. doi: 10.14202/vetworld.2024.911-921. Epub 2024 Apr 25.
The impact of exogenous melatonin on the sperm quality of small ruminants is controversial. Therefore, this study aimed to synthesize previous findings on the influence of melatonin injection on sperm quality, steroid hormones, and testicular blood flow in small ruminants.
Thirty studies were analyzed by computing the raw mean difference (RMD) as the effect size between the control and melatonin treatment groups, using the inverse of the variance for the random-effect model of the method of moments by DerSimonian and Laird. We assessed heterogeneity among studies using Q test. I statistic was used to classify the observed heterogeneity. We used Egger's regression method to indicate publication bias.
Melatonin injection (p < 0.05) affected sperm concentration (RMD = 0.42 × 10/mL), morphology (RMD = 2.82%), viability (RMD = 2.83%), acrosome integrity (RMD = 4.26%), and DNA integrity (RMD = 1.09%). Total motility (RMD = 5.62%), progressive motility (RMD = 7.90%), acrosome integrity (RMD = 8.68%), and DNA integrity (RMD = 2.01%) of post-thawed semen in the melatonin-treated group were also increased (p < 0.05). Similarly, treatment with melatonin (p < 0.05) enhanced total motility (RMD = 5.78%), progressive motility (RMD = 5.28%), curvilinear velocity (RMD = 4.09 μm/s), straight-line velocity (RMD = 5.61 μm/s), and average path velocity (RMD = 4.94 μm/s). Testosterone (RMD = 1.02 ng/mL) and estradiol 17-ß levels (RMD = 0.84 pg/mL) were elevated (p < 0.05) in the melatonin-injected group. Melatonin implantation ameliorated testicular blood flow, as indicated by a significant reduction (p < 0.05) in the resistive index (RMD = 0.11) and pulsatility index (RMD = -0.15).
Melatonin administration can increase the reproductive performance of small male ruminants.
外源性褪黑素对小型反刍动物精子质量的影响存在争议。因此,本研究旨在综合以往关于褪黑素注射对小型反刍动物精子质量、类固醇激素和睾丸血流影响的研究结果。
采用DerSimonian和Laird的矩量法随机效应模型,通过计算原始均值差(RMD)作为对照组和褪黑素治疗组之间的效应量,对30项研究进行分析。我们使用Q检验评估研究之间的异质性。I统计量用于对观察到的异质性进行分类。我们使用Egger回归方法来指示发表偏倚。
注射褪黑素(p < 0.05)影响精子浓度(RMD = 0.42×10/mL)、形态(RMD = 2.82%)、活力(RMD = 2.83%)、顶体完整性(RMD = 4.26%)和DNA完整性(RMD = 1.09%)。褪黑素治疗组解冻后精液的总活力(RMD = 5.62%)、前向运动力(RMD = 7.90%)、顶体完整性(RMD = 8.68%)和DNA完整性(RMD = 2.01%)也有所增加(p < 0.05)。同样,褪黑素治疗(p < 0.05)可提高总活力(RMD = 5.78%)、前向运动力(RMD = 5.28%)、曲线速度(RMD = 4.09μm/s)、直线速度(RMD = 5.61μm/s)和平均路径速度(RMD = 4.94μm/s)。注射褪黑素组的睾酮(RMD = 1.02ng/mL)和雌二醇17-β水平(RMD = 0.84pg/mL)升高(p < 0.05)。褪黑素植入改善了睾丸血流,表现为阻力指数(RMD = 0.11)和搏动指数(RMD = -0.15)显著降低(p < 0.05)。
给予褪黑素可提高小型雄性反刍动物的繁殖性能。
