在前列腺素e2介导的引产过程中，宫颈一氧化氮浓度的变化与Bishop评分和宫颈长度变化相关。

Journal of the Society for Gynecologic Investigation Pub Date : 2006-04-01 DOI:10.1016/j.jsgi.2006.01.001

Giuseppe Chiossi, Gianluca Verocchi, Paolo Venturini, Fabio Facchinetti

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引用次数: 14

摘要

目的:一氧化氮(NO)在宫颈成熟过程中起着重要作用，并在人宫颈中合成。我们研究了迪诺前列酮对孕妇宫颈NO释放的影响，并探讨了宫颈NO代谢产物与宫颈长度、Bishop评分之间的关系。方法:77例妇女在妊娠> 37周时引产，原因包括:足月妊娠(23.8%)、羊水过少(36.3)或先兆子痫(29.9%)。在局部应用dinoprostone(一种市售的前列腺素E2 (PGE2)类似物)之前(时间0 [T0])和6小时后(T6)立即评估宫颈液样本中NO代谢物(NOx)、Bishop评分和宫颈长度。结果:患者的平均年龄为34±3.2岁，入组时的平均胎龄为284±9.2天，未产占研究人群的31.2%。0时，74%(57/77)受试者的Bishop评分小于4分，平均宫颈长度28.6 +/- 5.8 mm，平均NOx浓度208.6 +/- 103.8 μ m /mL;6小时后，T6时，平均宫颈长度下降到19.5 +/- 8.8 mm，平均NOx浓度上升到316.7 +/- 240.9 μ m /mL。数据不受胎次或正常子宫收缩模式的影响。宫颈NOx水平变化与Bishop评分修改呈显著正相关(P < 0.01;r = .494)， NO代谢物浓度变化与颈椎缩短之间存在显著性差异(P < 0.01;R = .307)。结论:前列腺素(PG)诱导的宫颈成熟与局部NO释放有关。NO在颈椎重塑中发挥积极作用，与颈椎缩短和Bishop评分升高呈正相关。一氧化氮和PG是两种途径，相互交叉激活，触发负责子宫颈成熟的级联事件。

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Changes in cervical nitric oxide concentration correlate with Bishop score and cervical length modifications in prostaglandin E2-mediated induction of labor.

Objective: Nitric oxide (NO) plays a fundamental role in cervical ripening and it is synthesized in the human cervix. We studied the effect of the dinoprostone on cervical NO release in pregnant women, and we investigated the relationship between cervical NO metabolites, cervical length, and Bishop score.

Methods: Seventy-seven women underwent induction of labor at > or = 37 weeks of gestation, due to post-term pregnancy (23.8%), oligohydramnios (36.3) or preeclampsia (29.9%). Cervical fluid samples for NO metabolites (NOx), Bishop score, and cervical length were assessed immediately before (time 0 [T0]) and 6 hours after (T6) the local application of dinoprostone, a commercially available prostaglandin E2 (PGE2) analog.

Results: The mean patients' age was 34 +/- 3.2 years, mean gestational age at enrollment was 284 +/- 9.2 days, and nulliparous represented 31.2% of the study population. At time 0, Bishop score was less than 4 in 74% (57/77) of the subjects, mean cervical length was 28.6 +/- 5.8 mm, mean NOx concentration was 208.6 +/- 103.8 microM/mL; 6 hours later, at T6, the mean cervical length decreased to 19.5 +/- 8.8 mm, and the mean NOx concentration increased up to 316.7 +/- 240.9 microM/mL. Data were unaffected by parity or by regular uterine contraction patterns. A statistically significant positive correlation was found between changes in cervical NOx levels and Bishop score modification (P < .01; r = .494), as well as between the modification of NO metabolites concentration and cervical shortening (P < .01; r = .307).

Conclusions: Prostaglandin (PG)-induced cervical ripening is associated with local NO release. NO plays an active role in cervical remodeling since it positively correlates with both cervical shortening and Bishop score increase. NO oxide and PG are the two pathways that, cross activating each other, trigger the cascade of events responsible of cervical ripening.

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Journal of the Society for Gynecologic Investigation

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