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人类卵母细胞在氮气蒸汽相中储存。

Storage of human oocytes in the vapor phase of nitrogen.

机构信息

IVI-Universidad de Valencia, Valencia, Spain.

出版信息

Fertil Steril. 2010 Oct;94(5):1903-7. doi: 10.1016/j.fertnstert.2009.10.042.

DOI:10.1016/j.fertnstert.2009.10.042
PMID:20138272
Abstract

OBJECTIVE

To evaluate the effectiveness of long-term vapor-phase nitrogen storage of vitrified human oocytes as a strategy for preventing the risk of cross-contamination due to direct contact with the liquid nitrogen (LN).

DESIGN

Prospective randomized study.

SETTING

Private infertility center, IVI, Valencia.

PATIENT(S): Oocyte donors (n = 44) and recipients (n = 46).

INTERVENTION(S): Vitrification by the Cryotop method. Storage of vitrified oocytes in a vapor-phase nitrogen storage freezer and a traditional LN storage tank. Donation of the surviving oocytes and evaluation of fertilization, embryo development, and clinical results.

MAIN OUTCOME MEASURE(S): Survival, fertilization, and cleavage rates. Embryo quality and clinical outcome.

RESULT(S): Survival was 95.3% (vapor-phase nitrogen) and 94.5% (LN). Fertilization rates (73.1% and 71.7%) or cleavage on day 2 (95.6% and 94.7%), day 3 (84.5% and 79.9%), and blastocyst formation (54.7% and 53.9%) were similar between vapor-phase nitrogen and LN. Implantation, clinical, and ongoing pregnancy rates were similar for vapor-phase nitrogen (40.5%, 58.1%, and 48.8%, respectively) and LN groups (33.7%, 53.3%, and 46.6%, respectively).

CONCLUSION(S): The vapor-phase nitrogen system permits the storage of oocytes vitrified, maintaining their potential to develop into competent embryos in a similar manner as those stored in a traditional LN freezer. This approach represents a practical alternative that prevents cross-contamination during the storage of vitrified samples.

摘要

目的

评估长期气相氮储存玻璃化人类卵母细胞作为防止因直接接触液氮(LN)而导致交叉污染风险的策略的有效性。

设计

前瞻性随机研究。

地点

私人不孕不育中心,IVI,巴伦西亚。

患者

卵母细胞捐赠者(n=44)和接受者(n=46)。

干预措施

Cryotop 法玻璃化。将玻璃化卵母细胞储存在气相氮储存冷冻机和传统 LN 储存罐中。捐赠存活的卵母细胞并评估受精、胚胎发育和临床结果。

主要观察指标

存活率、受精率和卵裂率。胚胎质量和临床结局。

结果

存活率为 95.3%(气相氮)和 94.5%(LN)。受精率(73.1%和 71.7%)或第 2 天(95.6%和 94.7%)、第 3 天(84.5%和 79.9%)和囊胚形成(54.7%和 53.9%)的卵裂率在气相氮和 LN 之间相似。胚胎着床率、临床妊娠率和持续妊娠率在气相氮组(分别为 40.5%、58.1%和 48.8%)和 LN 组(分别为 33.7%、53.3%和 46.6%)之间相似。

结论

气相氮系统允许储存玻璃化的卵母细胞,以类似的方式保持其发育成有能力胚胎的潜力,与储存在传统 LN 冷冻器中的卵母细胞相似。这种方法代表了一种实用的替代方案,可以防止在储存玻璃化样本期间发生交叉污染。

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