孕酮β-hCG联合CA125在先兆流产中的检测意义

doi:10.3969/j.issn.1006-6233.2018.11.003

摘要
图/表
参考文献
相关文章 (0)

全文: PDF (1392 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要 目的: 分析先兆流产患者孕酮、绒毛膜促性腺素(β-hCG)、糖链蛋白125(CA125)检测的意义。方法: 选择我院2015年5月至2016年11月收治的113例先兆流产患者,按妊娠结局不同分为65例先兆流产继续妊娠组及48例难免流产组。同期选择53例正常妊娠者。均以放射免疫法测定P、β-hCG、CA125水平,并观察比较各组血清P、β-hCG及CA125水平,明确先兆流产发生的可能危险因素,选用多元Logistic回归及受试者工作绘制特征(ROC)曲线分析孕酮、β-hCG及CA125与先兆流产的联系。结果: 难免流产组孕酮、β-hCG水平低于先兆流产继续妊娠组且低于正常妊娠组(11.70±1.26)、(24.09±3.19)、(26.70±4.20)mg/mL,(1879.53±220.18)、(6982.11±876.10)、(7035.96±965.12)mU/mL,CA125高于先兆流产继续妊娠组且高于正常妊娠组(57.88±8.96)、(27.63±3.41)、(19.40±2.76)U/mL,差异有统计学意义(P<0.05)。Logistic回归分析,孕酮、β-hCG及CA125水平为先兆流产发生的独立影响因素。ROC曲线下显示,P曲线下面积为0.723(95%cCI为0.628~0.819),敏感度及特异度分别为0.406和0.761;β-hCG曲线下面积为0.513(95%CI为0.406~0.620),敏感度及特异度分别为0.653和0.672;CA125曲线下面积为0.812(95%CI0.737~0.888),敏感度和特异度分别为0.782和0.567,联合检测曲线下面积为0.857(95%CI为0.790~0.924),敏感度及特异度分别为0.663和0.716,联合检测曲线下面积明显高于单个指标。结论: 孕酮、β-hCG及CA125能够客观反映妊娠状态,预测先兆流产,提高临床诊断,从而利于临床治疗。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	张艳
	陈灵芝

关键词 ：先兆流产, 孕酮, 绒毛膜促性腺素, 糖链蛋白125

Abstract：Objective: To analyze the clinical value of progesterone, chorionic gonadin (β-hCG) and glycoprotein 125 (CA125) detection in patients with threatened abortion. Methods: 113 cases of threatened abortion admitted in our hospital from May 2015 to November 2016 were divided into 65 cases of threatened abortion continuing pregnancy group and 48 cases of inevitable abortion group according to pregnancy outcome. 53 normal pregnancies were selected at the same time. The levels of progesterone, beta-hCG and CA125 were measured by radioimmunoassay. The serum levels of progesterone, beta-hCG and CA125 in each group were observed and compared. The possible risk factors of threatened abortion were identified. The relationship between P, beta-hCG and CA125 and threatened abortion was analyzed by multiple logistic regression and ROC curve. Results: The levels of progesterone and beta-hCG in the inevitable abortion group were lower than those in the threatened abortion group and were lower than those in the normal pregnancy group (11.70 [1.26], (24.09 [3.19], (26.70 [4.20] mg / mL, (1879.53 [220.18], (6982.11 [876.10], (7035.96 [965.12] mU / ml. CA125 was higher in threatened abortion group than in continuing pregnancy group and higher than in normal pregnancy group (57.88 [8.96], (27.63 [3.41], (19.40 [2.76] U/mL. The difference was statistically significant (P<0.05). Logistic regression analysis showed that serum progesterone, beta -hCG and CA125 levels were independent factors influencing the occurrence of threatened abortion. ROC curve showed, area under progesterone curve was 0.723 (95%CI was 0.628~0.819), and the sensitivity and specificity were 0.406 and 0.761. The area under the β-hGG curve was 0.513 (95%CI was 0.406~0.620), and the sensitivity and specificity was 0.653 and 0.672. Area under curve of CA125 was 0.812 (95% CI 0.737~0.888), the sensitivity and specific degree was 0.782 and 0.567, the joint detection area under the curve was 0.857 (95% CI was 0.790~0.924), sensitive and specific degree was 0.663 and 0.716 respectively, the joint detection area under curve is significantly higher than individual indicators. Conclusions: Progesterone, beta-hCG and CA125 can objectively reflect the state of pregnancy, predict threatened abortion, improve clinical diagnosis, thus conducive to clinical treatment.

Key words： Threatened abortion Progesterone Human chorionic gonadotropin Glycoprotein 125

基金资助:2013年四川省卫生厅科研课题项目,(编号:130529)

引用本文:

张艳,陈灵芝. 孕酮β-hCG联合CA125在先兆流产中的检测意义[J]. 河北医学, 2018, 24(11): 1769-1772.
ZHANG Yan, et al. Significance of Progesterone beta -hCG combined with CA125 in Threatened Abortion. HeBei Med, 2018, 24(11): 1769-1772.

链接本文:

http://www.hbyxzzs.cn/CN/10.3969/j.issn.1006-6233.2018.11.003 或 http://www.hbyxzzs.cn/CN/Y2018/V24/I11/1769

[1] Garratt D, Turner JV. Progesterone for preventing pregnancy termination after initiation of medical abortion with mifepristone[J]. Eur Contracept Reprod Health Care,2017,22(6):472~475.
[2] Rzaguliyeva L, Osmanli Z, Akperbekova S, et al. To the state of the fetoplacental complex in women with the threat ofabortion[J]. Georgian Med News,2017,23(268-269):47~53.
[3] Rottenstreich A, Amsalem H, Kleinstern G, et al. Outcomes of threatened abortions after anticoagulation treatment to prevent recurrent pregnancy loss[J]. Reprod Biomed Online,2017,35(4):461~467.
[4] Dagklis T, Tsakiridis I, Chouliara F, et al. Antenatal depression among women hospitalized due to threatened preterm labor in a high-risk pregnancy unit in Greece[J].Matern Fetal Neonatal Med, 2018,31(7):919~925.
[5] Chan DM, Cheung KW, Yung SS,et al. A randomized double-blind controlled trial of the use of dydrogesterone in women with threatenedmiscarriage in the first trimester: study protocol for a randomized controlled trial[J]. Trials, 2016,17(1):408.
[6] Kumar N, Agrawal S, Das V, et al. Cervical Pregnancy Masquerading as an Incomplete Abortion- A Learning Lesson[J].Clin Diagn Res,2017,11(3):QD04~QD05.
[7] Lavoué V, Huchon C, Deffieux X, et al. French guidelines for diagnostic criteria for nonviable pregnancy early in the first trimester and for management of threatened miscarriage and nonviable pregnancy (except uterine evacuation)[J].Gynecol Obstet Biol Reprod (Paris),2014,43(10):776~793.
[8] Ozdemirci S, Karahanoglu E, Esinler D, et al. Influence of threatened miscarriage on pregnancy and early postpartum period: a case-control report[J].Matern Fetal Neonatal Med,2015,28(10):1186~1189.
[9] Gulic T, Laskarin G, Dominovic M, et al. Potential role of heat-shock protein 70 and interleukin-15 in the pathogenesis of threatenedspontaneous abortions[J]. Am Reprod Immunol,2016,76(2):126~136.
[10] Costantino M, Guaraldi C, Costantino D. Resolution of subchorionic hematoma and symptoms of threatened miscarriage using vaginal alpha lipoic acid or progesterone: clinical evidences[J]. Eur Rev Med Pharmacol Sci,2016,20(8):1656~1663.
[11] Tian CM, Chen B. Effects of Gushen Antai pills combined with progestin on serum β-HCG, P, E2 and CA125 in patients with threatened abortion[J]. Zhongguo Zhong Yao Za Zhi,2016,41(2):321~325.
[12] Pillai RN, Konje JC, Tincello DG,et al. Role of serum biomarkers in the prediction of outcome in women with threatened miscarriage: a systematic review and diagnostic accuracy meta-analysis[J]. Hum Reprod Update,2016,22(2):228~239.
[13] Carcopino X, Barde K, Petrovic M, et al. Threatened late miscarriage. French guidelines[J].Gynecol Obstet Biol Reprod (Paris),2014,43(10):842~855.
[14] Sukur YE, Goc G, Kose O, et al. The effects of subchorionic hematoma on pregnancy outcome in patients with threatened abortion[J].Turk Ger Gynecol Assoc,2014,15(4):239~242.