实验兔胞内单精子注射技术

目的 建立实验兔胞内单精子注射技术(intracytoplasmic sperm injection,ICSI).方法 实验1比较了hCG注射后不同取卵时间对ICSI胚体外发育的影响.实验 2 比较了不同的激活方式对ICSI胚体外发育的影响.实验 3 比较了不同状态的兔精子ICSI胚胎体外发育结果.结果 (1)hCG注射后14 h取卵,其卵裂率、桑椹胚率和囊胚率(82.2%、72.9%和62.2%)都比16 h(75.9%、70.0%和53.3%)的高,但是差异无显著性(P>0.05);18 h取的卵注射后不能卵裂.(2)机械刺激组和离子霉素 6-DMAP组,ICSI后其卵裂率分别为82.2%和81.1%(P>0.05),桑椹胚率分别为72.9%和66.2%(P>0.05),囊胚率分别为51.3%和62.3%(P<0.05),机械刺激组和离子霉素组之间卵裂率和桑椹胚率差异无显著性,但是囊胚率差异有显著性.(3)新鲜精子组和冻融活精子组卵裂率(81.1%和68.8%)和囊胚率(62.3%和40.4%)差异有显著性(P<0.05),而桑椹胚率(66.2%和61.9%)差异无显著性(P>0.05).结论 精子冷冻前后,通过ICSI所得的桑椹胚均能孵化,表明已初步建立了实验兔的ICSI技术.     

6-DMAP对小鼠卵母细胞减数分裂启动及孤雌发育作用

小鼠卵泡卵母细胞体外培养过程中加入2 mmol/L 6-DMAP可抑制卵母细胞自发的染色质浓缩和生发泡破裂(GVBD)。源自超排的MⅡ期卵母细胞则能为6-DMAP所激活。hCG注射后18—19h的卵母细胞置于2 mmol/L6-DMAP的CZB溶液中培养0.5 h、1h、2h、3h,卵母细胞的激活率分别为26.1%、75.2%、75.8%、77.3%、;卵裂率分别为88.2%、73.2%、67.0%、58.4%。与乙醇激活法相比,6-DMAP处理引起了不同的孤雌激活类型。     

乙醇及6-DMAP对小鼠卵母细胞孤雌激活的研究

实验研究了乙醇、6-DMAP以及二者联合使用时对注射hCG后18小时采集的小鼠卵母细胞孤雌激活的效果。结果证明:(1)用5％的乙醇分别作用5和10分钟及10％的乙醇分别作用5和10分钟,小鼠卵母细胞的孤雌激活率分别为41.3％、63.7％、57.9％和85.6％。说明在一定范围内,随着乙醇浓度和作用时间的增加,小鼠卵母细胞孤雌激活率有上升的趋势。(2)用2mM 6-DMAP作用2、4和6小时,小鼠卵母细胞的孤雌激活率分别为 12.0％、25.0％和40.0％。说明随着6-DMAP作用时间的增加,小鼠卵母细胞的孤雌激活率有所升高。(3)用5％乙醇作用5分钟,再用含有2mmol/L 6-DMAP的培养液培养6小时,小鼠卵母细胞的孤雌激活率可达65.5％,明显高于单独使用5％乙醇作用5分钟或单独使用2mmol/L 6-DMAP作用6小时卵母细胞的孤雌激活率。(4)用10％的乙醇作用5分钟,再用含有2mmol/L 6-DMAP的培养液培养6小时,小鼠卵母细胞的孤雌激活率达到100％,远远高于单独使用10％乙醇作用5分钟或单独使用2mmol/L 6-DMAP作用6小时卵母细胞的孤雌激活率。(5)在单独使用乙醇刺激时,激活卵母细胞中直接卵裂(2-细胞)的比率随乙醇作用强度的增加而增加,最高达62.5％;但6-DMAP则抑制激活卵母细胞的直接卵裂,增加二原核卵的比例。     

影响猪体细胞核移植重构胚体外发育的若干因素

以卵丘细胞为核供体细胞组成重构胚,卵裂率达到56.7%,发育至桑椹胚达11.7%、孵化囊胚率为6.7%,显著高于成纤维细胞组成的重构胚(p<0.05)。我们研究了卵母细胞的采集方法,激活方法和卵龄对卵丘细胞核移植重构胚体外发育的影响。以血清饥饿法将卵丘细胞诱导至GO或G1期,抽吸法/解剖法采集卵母细胞,体外培养33或44 h,将卵丘细胞置于去核卵母细胞的卵周隙中,重构胚以钙离子载体A23817或电脉冲结合6-DMAP激活处理,体外培养6天,结果表明,卵母细胞采集方法、激活液中细胞松弛素(CB)并不影响重构胚的发育(以卵龄44h的卵母细胞为受体);而以电脉冲结合6-DMAP激活处理能提高重构胚发育能力(以卵龄33 h的卵母细胞为受体)(p<0.05)。本研究显示,以电脉冲结合6-DMAP激活卵丘细胞重构胚,能在体外发育至囊胚     

绵羊胞内单精子注射技术

本文的主要目标是建立绵羊胞内单精子注射技术(intracyioplasmic sperm injection,ICSI)。并且尝试了ICSI技术生产绵羊转基因胚胎的可能性。实验1比较了绵羊卵母细胞孤雌激活的3种化学方法。结果显示,Ionomvcin/3 h/6-dimethylaminopurine(6-DMAP)和Ionomycin激活胚的卵裂率(71.7%和91.8%)和囊胚率(17.4%和11%)显著(P<0.01)高于Ca~(2+)激活胚(18.4%和0)。Ionomycin/3 h/6-DMAP激活胚的囊胚发育形态和比例相对较高。实验2中,活精子注射至卵母细胞质后,用Ionomycin/3 h/6-DMAP激活,排出第二极体(PB2)的71枚ICSI胚胎用SOFaaBSA溶液培养,卵裂率为71.8%(51/71),显著(P<0.01)高于体外受精(41.4%,IVF)和阴性对照胚胎(30.2%,sham-ICSI)。培养7天后,sham-ICSI组没有囊胚生成;ICSI和IVF胚胎的囊胚率分别为7.0%(5/71)和16.1%(9/56),两者差异不显著(P>0.05)。这些ICSI囊胚在冷冻前后均能孵化,显示初步建立了绵羊ICSI技术。另外,我们探索了ICSI技术生产转基因胚胎的可能性,-20℃冻融1次的死精子与pEGFP-N1质粒共注射,33枚2-细胞期ICSI胚胎中,2枚可见GFP蛋白。其中1枚停止发育,另外1枚继续发育至16-细胞期,仍然可见GFP基因的表达。4枚解冻的ICSI囊胚手术移植给2只发情同期化受体绵羊,60天时,B超未见怀孕。本文初步结果表明,ICSI技术生产转基因绵羊有可能性,需深入研究。     

精子和卵母细胞质量控制对山羊卵胞质内精子注射(ICSI)受精的影响

以体外成熟卵母细胞为材料研究了精子来源及制动处理方法、卵母细胞质量及注射后激活等因素对山羊ICSI效果的影响.结果说明,附睾头、体和尾精子ICSI后的受精率、卵裂率和桑椹胚/囊胚发育率与射出的鲜精精子都没有明显差异(p＞0.05),但带下注射时附睾头和体精子的受精和发育率显著低于附睾尾和射精精子.在以4种不同方法致死的精子中,室温保存24h的死精子ICSI受精、卵裂和桑椹/囊胚率虽然低于对照组,但是明显高于其它方式致死的精子;5℃保存15天的死精子受精和发育效果最差.0.0005%Triton X-100处理精子的受精率、卵裂率和桑椹/囊胚率显著(p＜0.05)高于制动对照组、不制动对照组和其它浓度组.经高渗处理法检测质量好的卵母细胞ICSI受精和胚胎发育效果显著好于质量差的卵母细胞.与对照组相比,A23187和Ionomycin/6-DMAP激活处理均显著(p＜0.05)提高ICSI的受精率、卵裂率和桑椹/囊胚发育率.因此,精子在附睾内的成熟过程主要与其获得与卵质膜融合能力有关;精液保存方法对精子受精能力的损伤程度有很大差异;适当浓度的Triton X-100处理可模仿精子制动;卵母细胞质量是影响ICSI效果的重要因素;注射精子后激活卵母细胞能保证山羊ICSI的受精效果.     

封面图片介绍

正卵胞浆内单精子显微注射技术(intracytoplasmic sperm injection,ICSI)是通过显微操作技术将单个精子注入卵母细胞浆内使精卵结合受精,并将受精卵体外培养形成早期胚胎植入母体子宫内的一种较为精细、尖端的辅助生殖技术。哺乳动物ICSI的研究首先在ICSI家兔的培育上获得突破性进展,随后ICSI技术先后在牛、小鼠、绵羊、马、猫、猪等动物     

银鲫卵母细胞体外诱导成熟技术的建立

研究以银鲫为材料, 根据银鲫(Carassius auratus gibelio)卵母细胞生发泡(Germinal vesicle, GV)边移程度及剥离GV中减数分裂前期染色体的凝集状态, 将银鲫Ⅳ时相的卵母细胞分为GV0、GV1、GV2和GV3四个时期; 并进一步比较了分别处于这4个时期银鲫卵母细胞体外诱导培养的成熟率、卵裂率和孵化率。结果表明, GV1期之后的卵母细胞均可有效进行体外诱导成熟, 可正常受精发育, 由于GV1期卵母细胞有较长时间用于显微操作, 因此GV1期卵母细胞被选为进行体外诱导的最早时期的卵母细胞。以GV1期卵母细胞为研究材料, 摸索了银鲫卵母细胞体外诱导成熟的适宜条件: 取GV1期的Ⅳ时相卵母细胞, 放置于pH 8.5、加有1 μg/mL孕酮激素(17α, 20β-dihydroxy-4-pregnen-3-one, DHP)的格氏平衡盐溶液(Gey’s balanced salt solution, GBSS)中, 在23℃培养箱中体外诱导12h后, 将滤泡膜剥离后再进行人工体外授精, 其所获胚胎的孵化率可达55.5%。此外, 将体外转录合成的带GFP标签的h2af1o mRNA注射到GV1期卵母细胞, 发现经显微操作和体外诱导后不仅可以通过GFP绿色荧光信号活体观察GVBD、受精、卵裂和早期胚胎发育的全过程, 而且诱导成熟的卵子仍可正常受精和胚胎发育。研究建立的银鲫卵母细胞体外诱导成熟技术为银鲫和其他鱼类卵母细胞发育过程研究及其相关基因和细胞显微操作提供了技术平台。     

化学联合激活可明显提高小鼠孤雌胚胎发育率

为探讨一种高效的小鼠卵母细胞孤雌激活的方案,进一步提高孤雌囊胚发育率。用不同浓度的氯化锶及不同作用时间的乙醇,并分别联合6-DMAP对不同卵龄小鼠卵母细胞进行活化,统计小鼠卵母细胞卵裂率和体外发育状况。结果显示,15～16h、18～19h和20～21h卵龄组卵母细胞经6mmol/LSrCl2联合6-DMAP处理后,三组的激活率随卵龄增长而升高,其中20～21h卵龄组显著高于15～16h、18～19h组(P<0.05),激活胚胎的发育率以18～19h时最高;6mmol/L和10mmol/L的SrCl2联合6-DMAP均能有效地激活小鼠卵母细胞,激活率分别为76.4%和83.6%,桑葚胚率分别为50.0%和56.3%;70ml/L乙醇联合6-DMAP以处理7min组获得了较好的激活率和囊胚发育率,分别为77.1%和42.4%,囊胚率均显著高于4min和10min处理组(P<0.05)。6-DMAP与SrCl2或乙醇联合应用可以有效抑制第二极体的排出,提高激活胚的二倍体比率;孤雌囊胚的平均细胞数显著低于正常受精囊胚(P<0.05)。不同激活方案对孤雌活化胚的核型和发育能力的作用差异较大,小鼠卵母细胞孤雌激活率与卵龄...     

山羊卵巢大小对卵母细胞体外成熟的影响

目的探讨卵巢大小对卵母细胞体外成熟的影响。方法根据质量将卵巢分为3组,Ⅰ组质量小于0.95 g,Ⅱ组质量介于0.95~1.7 g,Ⅲ组质量大于1.7 g,并统计了不同组卵母细胞的体外成熟率、孤雌激活胚的卵裂率和囊胚率,以及克隆胚的卵裂率和囊胚率。结果 3组卵母细胞体外成熟率分别为62.25%、43.58%和40.7%;3组孤雌激活胚卵裂率分别为83.77%、82.92%和79.73%;孤雌激活胚囊胚发育率分别为19.51%、18.9%和18.78%;3组克隆胚的卵裂率分别为67.36%、65.97%和66.33%;克隆胚囊胚发育率分别为11.63%、13.41%和12.29%。Ⅰ组卵母细胞体外成熟率显著高于其余2组,3组之间孤雌激活胚卵裂率、孤雌激活胚囊胚率、克隆胚卵裂率和克隆胚囊胚发育率差异无统计学意义。结论上述结果表明来源于小卵巢的卵母细胞体外成熟率最高。卵巢大小仅影响卵母细胞的体外成熟率,对发育能力无影响。     

Germinal vesicle materials are requisite for male pronucleus formation but not for change in the activities of CDK1 and MAP kinase during maturation and fertilization of pig oocytes

In amphibian oocytes, it is known that germinal vesicle (GV) materials are essential for sperm head decondensation but not for activation of MPF (CDK1 and cyclin B). However, in large animals, the role of GV materials in maturation and fertilization is not defined. In this study, we prepared enucleated pig oocytes at the GV stage and cultured them to examine the activation and inactivation of CDK1 and MAP kinase during maturation and after electro-activation. Moreover, enucleated GV-oocytes after maturation culture were inseminated or injected intracytoplasmically with spermatozoa to examine their ability to decondense the sperm chromatin. Enucleated oocytes showed similar activation/inactivation patterns of CDK1 and MAP kinase as sham-operated oocytes during maturation and after electro-stimulation or intracytoplasmic sperm injection. During the time corresponding to MI/MII transition of sham-operated oocytes, enucleated oocytes inactivated CDK1. However, penetrating sperm heads in enucleated oocytes did not decondense enough to form male pronuclei. To determine whether the factor(s) involved in sperm head decondensation remains associated with the chromatin after GV breakdown (GVBD), we did enucleation soon after GVBD (corresponding to pro-metaphase I, pMI) to remove only chromosomes. The injected sperm heads in pMI-enucleated oocytes decondensed and formed the male pronuclei. These results suggest that in pig oocytes, GV materials are not required for activation/inactivation of CDK1 and MAP kinase, but they are essential for male pronucleus formation.     

Activation of bovine oocytes matured in vitro by injection of bovine and human spermatozoa or their cytosolic fractions

The aim of this study was to investigate whether bovine spermatozoa possess so-called sperm factor in the cytosolic fraction (CF) which activates bovine oocytes, and whether bovine oocytes matured in vitro are activated by microinjection of CF extracted from spermatozoa of other species. In the first experiment, bovine and human spermatozoa were microinjected into ooplasm of bovine oocytes matured in vitro. Secondly, CF from bovine and human spermatozoa were injected into bovine oocytes. In the third, CF from human spermatozoa was injected into human unfertilised oocytes obtained 18-20 h after clinical intracytoplasmic sperm injection (ICSI). We found that microinjection of bovine spermatozoa into bovine oocytes induced oocyte activation, as shown by resumption of meiosis and formation of a female pronucleus, at a significantly higher rate than the bovine sham injection (63.0% vs 43.0%; p < 0.05). On the other hand, there was no significant difference in activation rate between the human sperm injection (35.9%) and the human sham injection (22.9%). Furthermore, microinjection of bovine sperm CF into bovine oocytes induced oocyte activation at a significantly higher rate than the human CF injection or sham injection (75.9% vs 14.8%, 20.4%; p < 0.01). Formation of a single female pronucleus and second polar body extrusion was observed in 95.1% of activated oocytes after bovine sperm CF injection. When human sperm CF was injected into human unfertilised oocytes, the activation rate was significantly higher than following sham injection (76.9% vs 44.0%; p < 0.05). These results indicate the presence of sperm factor in bovine sperm CF which activate bovine oocytes, and suggest the possibility that sperm factor has species-specificity at least between bovine and human.     

Maturity at collection and the developmental potential of rhesus monkey oocytes

The purpose of this study was to evaluate the in vitro fertilizability of rhesus monkey oocytes and the developmental capacity of the resulting embryos as they relate to oocyte maturation at the time of follicular aspiration. Animals were hyperstimulated with human follicle-stimulating hormone (hFSH) and human luteinizing hormone (hLH), with follicular aspiration performed 27 h after administration of an ovulatory stimulus (1000 IU human chorionic gonadotropin [hCG] or 3 x 100 micrograms gonadotropin-releasing hormone [GnRH]). In 7 animals exhibiting a continuously rising pattern of serum estradiol through Day 10 of hyperstimulation, 45 germinal vesicle-intact (GV), 106 metaphase I (MI), and 24 metaphase II (MII) oocytes were collected and cultured in vitro. Upon reaching MII, oocytes were inseminated with 5 x 10(4) motile sperm/ml. Twenty-four percent of GV oocytes cultured in vitro matured to MII with 11 inseminated and none fertilized. Seventy-three percent of MI oocytes matured to MII in vitro with 50% inseminated and 32% fertilized. Oocytes collected at MII stage and inseminated underwent fertilization at a high rate of efficiency (93%). Pronuclear to 8-cell stage embryos were frozen and, upon thawing, 67% (10/15) survived with all blastomeres intact. Frozen-thawed embryos (2- to 6-cell) were transferred to the oviducts of 4 recipients (2 embryos/recipient) during the early luteal phase (1-3 days post LH surge) of natural menstrual cycles. Three twin pregnancies resulted. Thus, a positive correlation exists between the degree of nuclear maturation of rhesus monkey oocytes at collection and their potential for fertilization in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of maturation stage at cryopreservation on post-thaw cytoskeleton quality and fertilizability of equine oocytes

Oocyte cryopreservation is a potentially valuable technique for salvaging the germ-line when a valuable mare dies, but facilities for in vitro embryo production or oocyte transfer are not immediately available. This study examined the influence of maturation stage and freezing technique on the cryopreservability of equine oocytes. Cumulus oocyte complexes were frozen at the immature stage (GV) or after maturation in vitro for 30 hr (MII), using either conventional slow freezing (CF) or open pulled straw vitrification (OPS); cryoprotectant-exposed and untreated nonfrozen oocytes served as controls. After thawing, GV oocytes were matured in vitro, and MII oocytes were incubated for 0 or 6 hr, before staining to examine meiotic spindle quality by confocal microscopy. To assess fertilizability, CF MII oocytes were subjected to intracytoplasmic sperm injection (ICSI) and cultured in vitro. At 12, 24, and 48 hr after ICSI, injected oocytes were fixed to examine their progression through fertilization. Both maturation stage and freezing technique affected oocyte survival. The meiosis resumption rate was higher for OPS than CF for GV oocytes (28% vs. 1.2%; P < 0.05), but still much lower than for controls (66%). Cryopreserving oocytes at either stage induced meiotic spindle disruption (37%-67% normal spindles vs. 99% in controls; P < 0.05). Among frozen oocytes, however, spindle quality was best for oocytes frozen by CF at the MII stage and incubated for 6 hr post-thaw (67% normal); since this combination of cryopreservation/IVM yielded the highest proportion of oocytes reaching MII with a normal spindle (35% compared to <20% for other groups), it was used when examining the effects of cryopreservation on fertilizability. In this respect, the rate of normal fertilization for CF MII oocytes after ICSI was much lower than for controls (total oocyte activation rate, 26% vs. 56%; cleavage rate at 48 hr, 8% vs. 42%: P < 0.05). Thus, although IVM followed by CF yields a respectable percentage of normal-looking MII oocytes (35%), their ability to support fertilization is severely compromised.     

Chromatin and microtubule organisation in maturing and pre-activated porcine oocytes following intracytoplasmic sperm injection

Chromatin and microtubule organisation was determined in maturing and activated porcine oocytes following intracytoplasmic sperm injection in order to obtain insights into the nature of sperm chromatin decondensation and microtubule nucleation activity. Sperm chromatin was slightly decondensed at 8 h following injection into germinal vesicle stage oocytes. Sperm-derived microtubules were not seen in these oocytes. Following injection into metaphase I (MI)-stage oocytes, sperm chromatin went to metaphase in most cases. A meiotic-like spindle was seen in the sperm metaphase chromatin. In a few MI-stage oocytes, sperm chromatin decondensed at 8 h after injection, and a small sperm aster was seen. Sperm injection into oocytes at 5 h following activation failed to yield pronuclear formation. Maternally derived microtubules were organised near the female chromatin in these oocytes, and seemed to move condensed male chromatin closer to the female pronucleus. At 18 h after sperm injection into pre-activated oocytes, a condensed sperm nucleus was located in close proximity to the female pronucleus. These results suggest that the sperm nuclear decondensing activity and microtubule nucleation abilities of the male centrosome are cell cycle dependent. In the absence of a functional male centrosome, microtubules of female origin take over the role of microtubule nucleation for nuclear movement.     

Effect of vitrification on human oocyte maturation rate during in vitro maturation procedure: A systematic review and meta-analysis

Combination of in vitro maturation (IVM) and cryopreservation offers new opportunities for women with contraindication in ovarian stimulation, and females who desire to postpone the childbearing due to different problems. There are still controversies regarding IVM procedure and its impact on oocytes fertilization capability. This systematic review and meta-analysis were conducted to evaluate the impact of vitrification on human oocyte maturation rate during IVM procedure. In this review, we searched Medline, Embase, Scopus and ISI web of science to identify English-language studies. The last search was implemented on 3 February 2018. The original articles which assessed maturation rate after vitrification of MI or GV oocytes were included. Animal trials and the studies that performed cryopreservation using slow-freeze method were excluded. Bias and quality assessments were performed. 2476 articles were screened primarily. After duplication removing and the application of inclusion and exclusion criteria, 14 studies included for the analysis. All studies compared maturation rate between the oocytes that were vitrified at the GV or MI stage before maturation and oocytes which were matured in vitro without vitrification. Meta-analysis showed that oocyte vitrification at GV stage had a significant negative impact on maturation rate (RR = 0.76, 95% CI: 0.66–0.88); I² = 85.2%; P = 0.000). Finally, based on our results, oocyte vitrification decreases the maturation rate by 24%.     

The germinal vesicle material required for sperm pronuclear formation is located in the soluble fraction of egg cytoplasm

The chromatin of Xenopus laevis sperm nuclei was induced to decondense, swell and form mitotic chromosomes following its injection into mature Rana pipiens oocytes. In contrast, the sperm chromatin did not decondense or form mitotic chromosomes when injected into oocytes from which the germinal vesicle (GV) was removed prior to the initiation of maturation. Injection into enucleated oocytes of the material extracted from manually-isolated GVs restored their ability to decondense sperm nuclei. This soluble GV material was stable at 18 °C for 16 h but was inactivated by heating to 80 °C for 10 min. We examined the distribution of this GV material in a cytoplasmic preparation from activated eggs which can induce sperm pronuclear formation in vitro. The cytoplasmic preparation was separated into soluble and particulate fractions by centrifugation and then each fraction was injected into enucleated eggs to determine whether or not it restored the ability to decondense sperm nuclei. We found that the soluble, but not the particulate fraction could restore the ability to decondense sperm nuclei to enucleated oocytes. This result clearly indicates that the soluble fraction contains most of the GV material required for chromatin decondensation. However, since the soluble fraction fails to decondense sperm chromatin in vitro in the absence of material from the paticulate fraction, sperm pronuclear formation appears to require both the soluble material derived from the GV and particulate material which can develop in the oocyte cytoplasm in the absence of the GV.     

Viable rabbits derived from reconstructed oocytes by germinal vesicle transfer after intracytoplasmic sperm injection (ICSI)

Abnormal oocyte spindle due to the improper function of ooplasm is associated with female infertility of advanced maternal age. A possible way to overcome this problem is to transfer an oocyte germinal vesicle (GV) which contains genetic materials of a patient with a history of poor embryo development to the cytoplast from a donor oocyte. Here we demonstrate that GV transfer is feasible using a rabbit model. When the GVs were transferred to auto- or hetero-cytoplasts of GV stage oocytes, around 80% of the reconstructed oocytes could mature in vitro and 7.1-9.4% of the oocytes developed to blastocyst stage after intracytoplasmic sperm injection (ICSI). Transfer of 93 fertilized eggs reconstructed via GV transfer into six recipients resulted in two live offspring. Results of this experiment indicate that GV transfer can potentially become a new approach in treatment of infertility because of advanced maternal age.     

猪胞浆内单精子注射研究进展

胞浆内单精子注射将体外受精和显微操作技术相结合,已成功应用于哺乳动物受精机理研究,家畜性控胚胎生产,动物转基因等领域。综述了猪胞浆内单精子注射的主要影响因素,包括卵母细胞体外成熟和预处理、精子的选择和处理、注射卵的人工激活以及操作技术的改进,为进一步提高猪胞浆内单精子注射的效率以及该技术的应用提供参考。