高原缺氧对接受 IVF/ICSI 治疗的女性胚胎发育潜能的影响。
Effects of high-altitude hypoxia on embryonic developmental potential in women undergoing IVF/ICSI procedures.
机构信息
Reproductive Center, Qinghai Provincial People's Hospital, No. 2, Gonghe Road, Chengdong District, Xining, 810007, Qinghai, China.
Graduate School of Qinghai University, Xining, 810007, China.
出版信息
Arch Gynecol Obstet. 2023 Jun;307(6):1983-1989. doi: 10.1007/s00404-023-07014-8. Epub 2023 Apr 11.
PURPOSE
In this study we examined the effects of long-term adaptation to hypoxia on embryonic developmental potential of oocytes collected from women who underwent IVF/ICSI procedures.
METHODS
We selected young infertile women who lived in a low-altitude normoxic environment (n = 80, altitude < 500 m) or high-altitude hypoxic environment (n = 100, altitude > 2500 m) for a lengthy period of time and who planned to undergo IVF/ICSI procedures. We then determined the baseline reproductive hormone levels, gonadotropin (Gn) dose and Gn treatment duration during controlled ovarian hyperstimulation (COH), number of oocytes retrieved, number of mature oocytes, oocyte maturation rate, fertilization rate, normal fertilization rate, day (D3) embryo-formation rate, blastocyst formation rate, good-quality formation rate, D5 blastocyst formation rate, and D6 blastocyst formation rate between the two groups.
RESULTS
Compared with the low-altitude normoxic group, the various reproductive hormone markers of women in the high-altitude hypoxia group were lower, with LH and T levels significantly reduced (P < 0.05) at 72.29 and 72.44% of the normoxic group, respectively (normoxic group vs. hypoxic group, 5.24 ± 1.61 vs. 3.79 ± 1.21; 0.61 ± 0.18 vs. 0.42 ± 0.15; P < 0.05). During ovarian hyperstimulation, a greater Gn dose and longer Gn treatment duration were required for the hypoxic group to complete COH (normoxic group vs. hypoxic group, 2152.08 IU ± 52.76 vs. 2622.09 IU ± 123.28; 9.96 days ± 1.27 vs. 11.54 days ± 1.34, respectively; P < 0.05). The fertilization, cleavage, and D3 embryo-formation rates tended to be higher in the normoxic group than in the hypoxic group (P > 0.05); while the normal fertilization rate tended to lower than in the hypoxic group (P > 0.05). When we conducted an analysis of blastocyst formation rates at different timepoints, we ascertained that the blastocyst formation rate, usable blastocyst rate, and good-quality blastocyst rate of the hypoxic group were all lower than in the normoxic group, with the difference in usable blastocyst rate the most highly significant (normoxic group vs. hypoxic group, 75.31 ± 5.53 vs. 56.04 ± 6.10%, respectively; P < 0.05). In addition, the D5 and D6 blastocyst-formation rates in the normoxic group were slightly higher than in the hypoxic group, revealing that not only were fewer blastocysts formed in the hypoxic group but that there was also a delay in blastocyst formation.
CONCLUSION
In young women undergoing IVF/ICSI treatment, long-term hypoxic adaptation required augmented Gn dose and Gn treatment duration during COH, and blastocyst developmental potential was also attenuated.
目的
本研究旨在探讨长期适应低氧环境对接受体外受精/卵胞浆内单精子注射(IVF/ICSI)治疗的女性采集卵母细胞的胚胎发育潜能的影响。
方法
我们选择了长期居住在低海拔常氧环境(n=80,海拔<500m)或高海拔低氧环境(n=100,海拔>2500m)并计划接受 IVF/ICSI 治疗的年轻不孕女性。然后,我们测定了两组患者的基础生殖激素水平、促性腺激素(Gn)剂量和控制性卵巢刺激(COH)期间 Gn 治疗持续时间、获卵数、成熟卵数、卵母细胞成熟率、受精率、正常受精率、第 3 天(D3)胚胎形成率、囊胚形成率、优质胚胎形成率、第 5 天(D5)囊胚形成率和第 6 天(D6)囊胚形成率。
结果
与低海拔常氧组相比,高海拔低氧组女性的各项生殖激素标志物均较低,LH 和 T 水平分别显著降低(P<0.05),分别为常氧组的 72.29%和 72.44%(常氧组与低氧组,5.24±1.61 比 3.79±1.21;0.61±0.18 比 0.42±0.15;P<0.05)。在卵巢刺激期间,低氧组需要更大的 Gn 剂量和更长的 Gn 治疗持续时间才能完成 COH(常氧组与低氧组,2152.08IU±52.76 比 2622.09IU±123.28;9.96 天±1.27 比 11.54 天±1.34;P<0.05)。常氧组的受精率、卵裂率和 D3 胚胎形成率均有升高趋势,而低氧组的正常受精率则有降低趋势(P>0.05)。在分析不同时间点的囊胚形成率时,我们发现低氧组的囊胚形成率、可用囊胚率和优质囊胚率均低于常氧组,其中可用囊胚率的差异最为显著(常氧组与低氧组,75.31±5.53 比 56.04±6.10%;P<0.05)。此外,常氧组的 D5 和 D6 囊胚形成率略高于低氧组,表明低氧组不仅形成的囊胚较少,而且囊胚形成也存在延迟。
结论
在接受 IVF/ICSI 治疗的年轻女性中,长期低氧适应需要增加 COH 期间的 Gn 剂量和 Gn 治疗持续时间,并且囊胚发育潜能也会减弱。
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