Frontiers in Endocrinology (Nov 2018)
Mid-Luteal 17-OH Progesterone Levels in 614 Women Undergoing IVF-Treatment and Fresh Embryo Transfer—Daytime Variation and Impact on Live Birth Rates
Abstract
Introduction: Corpus luteum (CL) produces progesterone (P4) and 17-OH progesterone (17-OH P4) during the luteal phase. Contrary to P4, 17-OH P4 is not supplied as part of the luteal phase support following IVF-treatment. Therefore, measuring endogenous serum 17-OH P4 levels may more accurately reflect the CL function compared to monitoring serum P4 concentrations.Objective: To explore the correlation between mid-luteal serum 17-OH P4 levels and live birth rates and to explore the possible daytime variations in mid-luteal serum 17-OH P4.Design: Prospective cohort study.Patients: 614 women undergoing IVF-treatment and fresh embryo transfer.Intervention: All patients had serum 17-OH P4 measured 7 days after oocyte pick-up (OPU+7). Furthermore, on OPU+7, seven patients underwent repeated blood sampling during daytime to clarify the endogenous daytime secretory pattern of 17-OH P4.Outcome measure: Live birth rate.Secondary outcome measure: Daytime variation in serum 17-OH P4 levels.Results: The highest chance of a live birth was seen with mid-luteal 17-OH P4 between 6.0 and 14.0 nmol/l. The chance of a live birth was reduced below (RD −10%, p = 0.07), but also above the optimal range for 17-OH P4 (RD −12%, p = 0.04). Patients with diminished CL-function (17-OH P4 < 6 nmol/l) displayed clinically stable 17-OH P4 values, whereas patients with 17-OH P4 levels >6 nmol/l showed random 17-OH P4 fluctuations during daytime.Conclusion: The association between 17-OH P4 and reproductive outcomes is non-linear, and the negative effect of excessive CL-secretion seems to be just as strong as the negative effect of a reduced CL-function during the peri-implantation period.
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