宫颈粘液电阻抗与基础体温相比在确定生育窗口期方面的有效性。

IF 2.2 Q2 OBSTETRICS & GYNECOLOGY
Suzanne Tabbaa, Sealy Hambright, Katie J Sikes, Gary Levy, Jan Rydfors
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引用次数: 0

摘要

背景:连续血清激素测量和经阴道超声波检查是预测排卵的可靠方法。这些方法既不方便又昂贵,因此,基础体温图(BBT)和黄体生成素尿液排卵预测试剂盒(OPK)通常被用来确定 6 天的受孕窗口期。然而,BBT 在排卵后 1-2 天内不会发生明显变化。此外,虽然 OPK 可在排卵前显示阳性,但假读数很常见。一种新颖的替代方法是使用电阻抗光谱法测量宫颈粘液中电解质的变化趋势。宫颈粘液电解质的测量与月经周期中激素水平的变化有关。本研究旨在比较宫颈粘液电阻抗和基础体温的有效性。我们试图确定宫颈粘液电解质测量是否能更好地检测排卵日,从而改善妇女的生育时机。方法:14 名年龄在 18 至 44 岁之间、月经周期正常的健康妇女参加了观察研究。参与者在 3 个月经周期中每天使用 Kegg(美国加利福尼亚州旧金山 Lady Technologies 公司)测量 BBT 和宫颈粘液电阻抗。通过测量尿液和血清中的激素水平以及阴道超声波检查,确认每个周期的排卵日期:结果:电阻抗在卵泡期与排卵期(P = 0.007)和黄体期与排卵期(P = 0.007)之间有明显差异。与 BBT 相比,排卵前卵泡期宫颈阻抗测量值的变化率存在明显差异(p = 0.0225)。与 BBT 相比,使用宫颈粘液阻抗确定 1 天生育窗口期的敏感性(+ 7.14%)、特异性(+ 20.35%)和准确性(+ 17.59)均显著提高:结论:BBT 被认为是不可靠的排卵功能评估方法。宫颈粘液电阻抗是测量与激素水平相关的电解质变化的一种新方法。我们报告称,与 BBT 相比,排卵前电阻抗模式在确定生育窗口期方面具有更高的灵敏度、特异性和准确性。这些研究结果表明,电阻抗的变化可为预测排卵和测量排卵功能提供一种准确的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effectiveness of cervical mucus electrical impedance compared to basal body temperature to determine fertility window.

Background: Serial serum hormone measurements and transvaginal ultrasound are reliable measures to predict ovulation. These measures are inconvenient and expensive therefore, basal body temperature charting (BBT) and urine ovulation predictor kits (OPK) for luteinizing hormone are often used to determine the 6-day fertile window. However, BBT does not clearly change until 1-2 days after ovulation. Additionally, while OPK can indicate positivity prior to ovulation, false readings are common. A novel alternative approach involves measuring electrolyte trends in cervical mucus using electrical impedance spectroscopy. Cervical mucus electrolyte measurements are associated with hormone level changes during the menstrual cycle. The purpose of this study was to compare the effectiveness of cervical mucus electrical impedance and basal body temperature. We sought to determine if cervical mucus electrolyte measurements provided improved detection of the ovulation day and therefore, improve fertility timing for women.

Methods: 14 healthy women between 18 and 44 years of age with normal menstrual cycles were enrolled in the Observational Study. Participants measured BBT and cervical mucus electrical impedance daily for 3 menstrual cycles using Kegg (Lady Technologies Inc. San Francisco, California, USA). Ovulation date for each cycle was confirmed by measuring hormone levels in urine and serum, and by vaginal ultrasound.

Results: Electrical impedance was significantly different between the follicular phase versus ovulatory date (p = 0.007) and between the luteal phase versus the ovulatory date (p = 0.007). A significant difference in the rate of change of cervical impedance measurements in the pre-ovulatory follicular phase was found compared to BBT (p = 0.0225). The sensitivity (+ 7.14%), specificity (+ 20.35%), and accuracy (+ 17.59) to determine the 1-day fertility window was significantly higher using cervical mucus impedance compared to BBT.

Conclusions: BBT is considered unreliable for evaluating ovulatory function. Cervical mucus electrical impedance offers a novel measure of electrolyte changes associated with hormone levels. We report that pre-ovulatory electrical impedance patterns demonstrated higher sensitivity, specificity, and accuracy for determining the fertility window when compared to BBT. These findings suggest that changes in electrical impedance may provide an accurate method for predicting ovulation and for measuring ovulatory function.

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