Sitruk-Ware Régine L, Menard Joël, Rad Mandana, Burggraaf Jacobus, de Kam Marieke L, Tokay Barbara A, Sivin Irving, Kluft Cornelis
Center for Biomedical Research, Population Council, New York, NY 10021, USA.
Contraception. 2007 Jun;75(6):430-7. doi: 10.1016/j.contraception.2007.01.027. Epub 2007 Mar 26.
We evaluated the effects of a new combined hormonal contraceptive vaginal ring (CVR) delivering the nonandrogenic progestin Nestorone (NES) and ethinyl estradiol (EE) on several key estrogen-sensitive hepatic proteins that may be markers for the risk of arterial or venous disease events and on blood pressure (BP). Because the pharmacologic androgenicity of the progestin in these formulations influences the hepatic impact of EE, we selected an oral contraceptive (OC) delivering the androgenic progestin levonorgestrel (LNG) and EE as the comparator. We also investigated the effect of delivery route, which is known to modify the hepatic effects of estradiol, but has not been widely studied with EE.
Women, aged 18-34 years, with no contraindications to the use of combined OCs, were randomized to three cycles of treatment with a CVR delivering NES/EE (150/15 microg/day) or a combined OC providing LNG and EE (150/30 microg per tablet). Each cycle consisted of 21 days of active treatment, followed by 7 days without treatment. During the last weeks of the pretreatment and third treatment cycles, blood samples were obtained for determinations of plasma concentrations of angiotensinogen, an estrogen-sensitive hepatic protein, and serum concentrations of sex hormone-binding globulin (SHBG), total cholesterol (TC), high-density lipoprotein cholesterol (HDL-C), low-density lipoprotein cholesterol (LDL-C), triglycerides (TG) and estrogen- and androgen-sensitive proteins. BP was also measured.
Of 47 women randomized, 45 completed the study (CVR: 23; OC: 22). Within-group comparisons over time by repeated-measure analysis of variance demonstrated statistically significant changes over time with both treatments for all hepatic proteins (p < .02) but not for TC. The within-group effects, presented as relative percent difference [95% confidence interval (CI)], were greatest for angiotensinogen [CVR: 227% (195-262%); OC: 251.3% (218-288%)] and SHBG [CVR: 306% (237-389%); OC: 55% (30-86)]. Both treatments were associated with small changes in systolic BP and diastolic BP (DBP), but only the within-group change in DBP for the OC group was statistically significant (p = .04). Between-treatment comparisons of third treatment cycle mean values were performed by analysis of covariance (baseline values as covariate). No statistically significant between-treatment differences were found for angiotensinogen, sensitive only to estrogen, or BP. Statistically significant treatment differences were found for all estrogen- and androgen-sensitive proteins (p < or = .002) but not for TC. When presented as relative percent difference between the effects of treatment (CVR-OC/OC; 95% CI of percent difference), the difference was largest for SHBG (159% [117-210%]); smaller relative percent differences were found for HDL-C [31.9% (18.5-46.8%)], LDL-C [23.6% (33.4% to -2.4%)] and TG [39.0% (14.0-69.4%)], but not TC.
Vaginal delivery of a combined hormonal contraceptive did not reduce the EE-associated changes in estrogen-sensitive hepatic proteins observed after use of a combined OC. Significant treatment differences between the NES/EE CVR and the LNG/EE OC were found for SHBG, HDL-C, LDL-C, and TG, proteins sensitive to androgen as well as estrogen. No treatment difference was observed for angiotensinogen, which is sensitive only to estrogen. The observed treatment differences were therefore most likely due to the difference in androgenicity between NES and LNG.
我们评估了一种新型复方激素避孕阴道环(CVR),其释放非雄激素孕激素奈斯孕酮(NES)和炔雌醇(EE),对几种关键的雌激素敏感肝脏蛋白(可能是动脉或静脉疾病事件风险的标志物)以及血压(BP)的影响。由于这些制剂中孕激素的药理雄激素活性会影响 EE 的肝脏作用,我们选择了一种释放雄激素孕激素左炔诺孕酮(LNG)和 EE 的口服避孕药(OC)作为对照。我们还研究了给药途径的影响,已知给药途径会改变雌二醇的肝脏作用,但 EE 对此的研究尚未广泛开展。
年龄在 18 - 34 岁、无复方 OC 使用禁忌证的女性,被随机分配接受三个周期的治疗,分别使用释放 NES/EE(150/15 微克/天)的 CVR 或提供 LNG 和 EE(每片 150/30 微克)的复方 OC。每个周期包括 21 天的积极治疗,随后是 7 天的无治疗期。在预处理和第三个治疗周期的最后几周,采集血样以测定血浆血管紧张素原浓度(一种雌激素敏感肝脏蛋白)以及性激素结合球蛋白(SHBG)、总胆固醇(TC)、高密度脂蛋白胆固醇(HDL-C)、低密度脂蛋白胆固醇(LDL-C)、甘油三酯(TG)和雌激素及雄激素敏感蛋白的血清浓度。同时测量 BP。
47 名随机分组的女性中,45 名完成了研究(CVR 组:23 名;OC 组:22 名)。通过重复测量方差分析进行的组内随时间比较显示,两种治疗方法对所有肝脏蛋白随时间均有统计学显著变化(p < 0.02),但对 TC 无变化。以相对百分比差异[95%置信区间(CI)]表示的组内效应,血管紧张素原最大[CVR 组:227%(195 - 262%);OC 组:251.3%(218 - 288%)],SHBG 次之[CVR 组:306%(237 - 389%);OC 组:55%(30 - 86%)]。两种治疗均与收缩压和舒张压(DBP)的小变化相关,但仅 OC 组的组内 DBP 变化具有统计学显著性(p = 0.04)。通过协方差分析(以基线值作为协变量)对第三个治疗周期的均值进行组间比较。对于仅对雌激素敏感的血管紧张素原或 BP,未发现组间统计学显著差异。对于所有雌激素和雄激素敏感蛋白,发现了统计学显著的治疗差异(p ≤ 0.002),但对 TC 无差异。当以治疗效果之间的相对百分比差异(CVR - OC/OC;百分比差异的 95%CI)表示时,SHBG 的差异最大(159%[117 - 210%]);HDL - C[31.9%(18.5 - 46.8%)]、LDL - C[23.6%(33.4%至 - 2.4%)]和 TG[39.0%(14.0 - 69.4%)]的相对百分比差异较小,但 TC 无差异。
复方激素避孕阴道环给药并未减少使用复方 OC 后观察到的与 EE 相关的雌激素敏感肝脏蛋白变化。对于 SHBG、HDL - C、LDL - C 和 TG 这些对雄激素以及雌激素敏感的蛋白,NES/EE CVR 和 LNG/EE OC 之间存在显著的治疗差异。对于仅对雌激素敏感的血管紧张素原,未观察到治疗差异。因此,观察到的治疗差异很可能是由于 NES 和 LNG 之间雄激素活性的差异所致。
