Systemic estradiol levels with low-dose vaginal estrogens.

Q4 Engineering Guocheng Gongcheng Xuebao/The Chinese Journal of Process Engineering Pub Date : 2020-03-01 DOI:10.1097/GME.0000000000001463

Richard J Santen, Sebastian Mirkin, Brian Bernick, Ginger D Constantine

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Abstract

Objectives: To critically evaluate published systemic estradiol levels during use of low-dose vaginal estrogens considering detection method and estrogen dose; describe challenges with accurately measuring estradiol; and determine the normal estradiol level range in postmenopausal women.

Methods: PubMed was searched for studies reporting systemic estradiol levels with lower-dose vaginal estrogens (≤25 μg estradiol or 0.3 mg conjugated equine estrogens). Estradiol levels at baseline and during treatment, area under the curve, and maximum estradiol concentrations were summarized by dose within assay type. A proposed range of systemic estradiol in normal, untreated, postmenopausal women was estimated by conservatively pooling means and standard deviations from published studies.

Results: Mean basal estradiol levels were 3.1 to 4.9 pg/mL using liquid or gas chromatography/mass spectroscopy (LC or GC/MS/MS) with a range of undetectable to 10.5 pg/mL using radioimmunoassay. Systemic estradiol levels with vaginal estrogens reflected their doses as measured with LC or GC/MS/MS in different studies: 7.1 to 9.1 pg/mL and 16.7 to 22.7 pg/mL with a 25-μg softgel capsule insert and a tablet insert, respectively; 4.6 to 7.4 pg/mL and 6.6 to 14.8 pg/mL with a 10-μg softgel capsule and a tablet insert, respectively; and 3.6 to 3.9 pg/mL with a 4-μg softgel capsule insert. A mean systemic estradiol concentration ranging from undetectable to 10.7 pg/mL is proposed as an estimate for basal estradiol levels in normal, untreated, postmenopausal women. Systemic estradiol absorption may be influenced by the placement of estradiol higher (as with an applicator) versus lower (as without an applicator) in the vagina, as estradiol transport to the uterus would be more likely further away than closer to the introitus.

Conclusion: Serum estradiol concentrations were generally lower when measured with more specific and sensitive assays. Estradiol absorption was dose-dependent, and may be influenced by dose, formulation, and positioning in the vagina. Very low systemic estradiol absorption with low/ultralow-dose vaginal estrogens may potentially decrease any adverse events that may be associated with higher doses of vaginal estrogens used for treating moderate to severe VVA due to less estradiol exposure.

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使用低剂量阴道雌激素的全身雌二醇水平。

目的根据检测方法和雌激素剂量，对已发表的使用低剂量阴道雌激素期间的全身雌二醇水平进行批判性评估；描述准确测量雌二醇所面临的挑战；确定绝经后妇女的正常雌二醇水平范围：方法：在PubMed上搜索报告使用低剂量阴道雌激素（≤25 μg雌二醇或0.3 mg结合马雌激素）时全身雌二醇水平的研究。按检测类型中的剂量总结了基线和治疗期间的雌二醇水平、曲线下面积和最大雌二醇浓度。通过对已发表研究的平均值和标准偏差进行保守估计，得出了正常、未接受过治疗的绝经后妇女体内雌二醇的拟议范围：结果：使用液相色谱法或气相色谱/质谱法（LC 或 GC/MS/MS）测定的基础雌二醇平均水平为 3.1 至 4.9 pg/mL，使用放射免疫测定法测定的基础雌二醇水平范围为检测不到至 10.5 pg/mL。在不同的研究中，阴道雌激素的全身雌二醇水平反映了用 LC 或 GC/MS/MS 测定的剂量：25微克软胶囊和片剂分别为7.1至9.1皮克/毫升和16.7至22.7皮克/毫升；10微克软胶囊和片剂分别为4.6至7.4皮克/毫升和6.6至14.8皮克/毫升；4微克软胶囊为3.6至3.9皮克/毫升。建议将检测不到至 10.7 pg/mL 的平均全身雌二醇浓度作为正常、未经治疗的绝经后妇女的基础雌二醇水平估计值。全身雌二醇的吸收可能会受到雌二醇在阴道较高位置（如使用涂抹器）和较低位置（如不使用涂抹器）的影响，因为雌二醇在较远的位置比在较近的位置更容易被输送到子宫：结论：使用更特异、更灵敏的检测方法测量血清雌二醇浓度时，雌二醇浓度普遍较低。雌二醇的吸收与剂量有关，可能受剂量、配方和在阴道内的位置影响。低剂量/超低剂量阴道雌激素的全身雌二醇吸收率非常低，这可能会减少用于治疗中度至重度VVA的高剂量阴道雌激素因雌二醇暴露较少而可能引起的任何不良事件。

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来源期刊

Guocheng Gongcheng Xuebao/The Chinese Journal of Process Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

0.90

自引率

0.00%

发文量

5682

期刊介绍： The Chinese Journal of Process Engineering (CJPE), formerly the journal of Engineering Chemistry and Metallurgy (EC&M), is an academic periodical sponsored by the Institute of Process Engineering (formerly the Institute of Chemical Metallurgy), Chinese Academy of Sciences, and published by Science Press, China. It is intended to present all aspects of research and development, and significant engineering advances in the fields of engineering science and technology in China, to enhance the academic exchange both at home and abroad, and to promote the transfer of achievements in scientific research into industrialization.