评估男性配子基因组完整性以改善辅助生殖技术的临床结果

Olena M. Kocur B.A., Philip Xie B.Sc., Sydney Souness B.Sc., Stephanie Cheung M.Sc., Zev Rosenwaks M.D., Gianpiero D. Palermo M.D., Ph.D.
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To confirm the sole effect of a compromised male gamete, we compared the ICSI outcome in cycles where male gametes with abnormal SCF were used to inseminate autologous and donor oocytes. Finally, to eliminate an eventual confounding female factor component, we compared the clinical outcome of ICSI cycles using sibling donor oocytes injected with spermatozoa with normal or abnormal SCF.</p></div><div><h3>Setting</h3><p>Academic reproductive medicine center point of care.</p></div><div><h3>Patient(s)</h3><p>The patient population consisted of 76 couples with reproductively healthy and relatively young female partners and male partners with compromised semen parameters, but suitable for ICSI. In a subanalysis, we identified 67 couples with abnormal SCF who underwent ICSI cycle(s) with donor oocytes. 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引用次数: 0

摘要

目的评估评估精子染色质碎片(SCF)作为一种工具,指导在卵胞浆内单精子注射(ICSI)后出现意外不良临床结果的夫妇的治疗作用。设计我们确定了在ICSI后临床结果出乎意料地不理想的夫妇,然后对他们进行SCF筛查。因此,同一对夫妇被建议使用微流体精子选择(MFSS)处理的射精或从睾丸中取出的精子进行后续的ICSI周期,并比较病史和治疗周期的临床结果。为了证实受损的雄性配子的唯一影响,我们比较了使用异常SCF的雄性配子与自体和供体卵母细胞受精的周期内ICSI的结果。最后,为了消除女性因素的最终混淆,我们比较了使用兄弟姐妹供体卵母细胞注射正常或异常SCF精子的ICSI周期的临床结果。学术生殖医学中心护理点患者患者群体包括76对生殖健康且相对年轻的女性伴侣和精液参数受损但适合进行ICSI的男性伴侣。在一项亚分析中,我们确定了67对SCF异常的夫妇,他们用供体卵母细胞进行了ICSI周期。此外,我们确定了29对夫妇,其中12对SCF正常,17对SCF异常,未校正,7对SCF异常,校正对照,他们使用兄弟姐妹供体卵母细胞进行ICSI周期。干预措施对于那些在ICSI后临床结果低得惊人的夫妇,尽管精液参数足以进行ICSI并且女性不孕症评估正常,使用末端脱氧核苷酸转移酶介导的荧光素-脱氧尿苷三磷酸镍端标记(TUNEL)法对精液标本进行SCF评估。然后,这些夫妇进行了随后的ICSI周期,精子经MFSS处理或手术取出。此外,使用供体卵母细胞的周期来确认雄性配子的唯一贡献。临床结果,如受精、胚胎着床、临床妊娠、分娩和妊娠丢失率,在考虑SCF水平的情况下,使用MFSS或睾丸活检选择的射精精子,比较病史和治疗周期。在一项亚分析中,我们报告了67例使用供体卵母细胞的患者的临床结果,并将其与使用自身卵母细胞的周期进行了比较。此外,我们比较了使用兄弟姐妹供体卵母细胞注射低或高SCF的周期之间的ICSI临床结果,有或没有精子干预,旨在纠正或减轻SCF程度。结果在总共168个周期中,76对夫妇在前一个周期中受精率为67.1%,临床妊娠率和妊娠损失率分别为16.6%和52.3%。SCF检测后,DNA断裂率为21.6%。这导致随后的ICSI周期与MFSS或睾丸精子提取,导致临床妊娠和分娩率分别为39.2%和37.3%。在治疗周期内,胚胎着床率上升至23.5%,而妊娠丢失率下降至5%。这在中度SCF组尤为显著,胚胎着床率、临床妊娠率和分娩率分别为24.3%、40.4%和36.2%,精子后治疗周期的妊娠损失率降至10.5%。在67例使用供体卵母细胞的高SCF患者中,报告的受精率为78.1%,胚胎着床率为29.1%,明显高于使用自己卵母细胞的高SCF夫妇。有趣的是,临床妊娠率和分娩率仅略有上升,分别从28.0%-36.1%和23.7%-29.2%。为了进一步控制女性因素,我们观察了共享兄弟姐妹供体卵母细胞的夫妇,其中17例SCF正常,12例SCF异常(未纠正)。有趣的是,SCF异常组受精率(69.3%)、胚胎着床率(15.0%)和分娩率(15.4%)受损。在另外15对分离供体卵母细胞的夫妇中,8对SCF正常,尽管7对最初SCF异常,但4对使用微流体处理,2对使用睾丸精子,1对使用供体精子减轻SCF程度,结果与SCF正常组相当。结论(s)在一些女性伴侣生殖健康的夫妇中,男性因素的重叠可能解释了ICSI结果令人失望的原因。因此,对夫妇进行SCF筛查可能有助于指导治疗方案,并最大限度地提高成功怀孕的机会。 在使用供体卵母细胞的夫妇中观察到的改善但不理想的妊娠和分娩结果证实,尽管存在假定的卵母细胞修复机制,但雄性配子对胚胎发育的唯一有害作用。
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Assessing male gamete genome integrity to ameliorate poor assisted reproductive technology clinical outcome

Objective

To assess the role of evaluating sperm chromatin fragmentation (SCF) as a tool to guide treatment in couples who achieved unexpectedly poor clinical outcomes after intracytoplasmic sperm injection (ICSI).

Design

We identified couples with an unexpectedly suboptimal clinical outcome after ICSI who were then screened for SCF. Consequently, the same couples were counseled to undergo a subsequent ICSI cycle using either ejaculates processed by microfluidic sperm selection (MFSS) or spermatozoa retrieved from the testis, and clinical outcomes were compared between history and treatment cycles. To confirm the sole effect of a compromised male gamete, we compared the ICSI outcome in cycles where male gametes with abnormal SCF were used to inseminate autologous and donor oocytes. Finally, to eliminate an eventual confounding female factor component, we compared the clinical outcome of ICSI cycles using sibling donor oocytes injected with spermatozoa with normal or abnormal SCF.

Setting

Academic reproductive medicine center point of care.

Patient(s)

The patient population consisted of 76 couples with reproductively healthy and relatively young female partners and male partners with compromised semen parameters, but suitable for ICSI. In a subanalysis, we identified 67 couples with abnormal SCF who underwent ICSI cycle(s) with donor oocytes. Furthermore, we identified 29 couples, 12 with normal SCF and 17 with abnormal, uncorrected SCF, and 7 couples with abnormal, corrected SCF vs. a control, who used sibling donor oocytes for their ICSI cycle(s).

Intervention(s)

For couples who resulted in surprisingly low clinical outcomes after ICSI, despite semen parameters adequate for ICSI and a normal female infertility evaluation, a SCF assessment was performed on the semen specimen using the terminal deoxynucleotidyl transferase-mediated fluorescein-deoxyuridine triphosphate nick-end labeling (TUNEL) assay. The couples then underwent a subsequent ICSI cycle with spermatozoa processed by MFSS or surgically retrieved. Moreover, cycles with donor oocytes were used to confirm the sole contribution of the male gamete.

Main Outcome Measure(s)

Clinical outcomes, such as fertilization, embryo implantation, clinical pregnancy, delivery, and pregnancy loss rates were compared between history and treatment cycle(s) using ejaculated spermatozoa selected by MFSS or from a testicular biopsy, taking into consideration the level of SCF. In a subanalysis, we reported the clinical outcomes of 67 patients who used donor oocytes and compared them with cycles where their own oocytes were used. Furthermore, we compared the ICSI clinical outcomes between cycles using sibling donor oocytes injected with low or high SCF with or without sperm intervention aimed at correcting, or alleviating the degree of SCF.

Result(s)

In a total of 168 cycles, 76 couples had in a prior cycle a 67.1% fertilization rate, and clinical pregnancy and pregnancy loss rates of 16.6% and 52.3%, respectively. After testing for SCF, the DNA fragmentation rate was 21.6%. This led to a subsequent ICSI cycle with MFSS or testicular sperm extraction, resulting in clinical pregnancy and delivery rates of 39.2%, and 37.3%, respectively. The embryo implantation rate increased to 23.5%, whereas the pregnancy loss rate decreased to 5% in the treatment cycle. This was particularly significant in the moderate SCF group, reaching embryo implantation, clinical pregnancy, and delivery rates of 24.3%, 40.4%, and 36.2%, respectively, and reducing the pregnancy loss rate to 10.5% in post–sperm treatment cycles.

In 67 patients with high SCF who used donor oocytes, a significantly higher fertilization rate of 78.1% and embryo implantation rate of 29.1% were reported, compared with those in couples also with an elevated SCF who used their own. Interestingly, the clinical pregnancy and delivery rates only increased slightly from 28.0%–36.1% and from 23.7%–29.2%, respectively.

To further control for a female factor, we observed couples who shared sibling donor oocytes, 17 with normal SCF and 12 with abnormal (uncorrected) SCF. Interestingly, the abnormal SCF group had impaired fertilization (69.3%), embryo implantation (15.0%), and delivery (15.4%) rates.

For an additional 15 couples who split their donor oocytes, 8 had normal SCF, and although 7 couples originally had abnormal SCF, 4 used microfluidic processing, 2 used testicular spermatozoa, and 1 used donor spermatozoa to alleviate the degree of SCF, resulting in comparable clinical outcomes with the normal SCF group.

Conclusion(s)

A superimposed male factor component may explain the disappointing ICSI outcome in some couples despite reproductively healthy female partners. Therefore, it may be useful to screen couples for SCF to guide treatment options and maximize chances of a successful pregnancy. The improved, but suboptimal pregnancy and delivery outcomes observed in couples using donor oocytes confirmed the exclusive detrimental role that the male gamete exerted on embryo development despite the presence of putative oocyte repair mechanisms.

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来源期刊
F&S science
F&S science Endocrinology, Diabetes and Metabolism, Obstetrics, Gynecology and Women's Health, Urology
CiteScore
2.00
自引率
0.00%
发文量
0
审稿时长
51 days
期刊最新文献
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