SAT375 Impact of Flutamide on Wake vs. Sleep LH Pulse Frequency in PCOS: An Interim Analysis

Disclosure: C.K. Matingou: None. S. Kim: None. M. Gilrain: None. C.M. Burt Solorzano: None. C.R. McCartney: None. Polycystic ovary syndrome (PCOS) is characterized by hyperandrogenism and ovulatory dysfunction. PCOS is also associated with luteinizing hormone (LH) excess, in part related to persistently high gonadotropin-releasing hormone (GnRH) pulse frequency. Furthermore, late pubertal girls with obesity and hyperandrogenemia did not exhibit sleep-associated decreases in LH (GnRH) pulse frequency when studied during the follicular phase, in contrast to non-hyperandrogenemic controls with or without obesity (JCEM 2014;99:2887-96). We therefore aimed to test two hypotheses: (1) sleep-associated reductions in LH pulse frequency are less pronounced in adult PCOS compared to late-follicular controls; and (2) sleep-associated reductions in LH pulse frequency are normalized in PCOS with 4 weeks of flutamide (androgen-receptor antagonist) pretreatment. To date, we have studied 5 women with PCOS (median age 30 y, BMI 42.6 kg/m2) and 5 ovulatory controls (median age 22 y, BMI 23.2 kg/m2). Subjects underwent two separate 16-hour frequent-blood-sampling studies to characterize pulsatile LH secretion, once after flutamide pretreatment (250 mg BID x 4 weeks) and once after placebo (PBO) pretreatment (BID for 4 weeks). In each study, 1500-2300 h and 2300-0700 h were designated the wake and sleep periods, respectively. The order of flutamide and PBO administration was randomized, and treatment allocation was switched after the first admission per a cross-over design. Controls were studied on cycle days 7-10, while those with PCOS were studied no earlier than cycle day 7. Serum progesterone concentrations were < 1.5 ng/dl for all admissions. With PBO pretreatment, participants with PCOS and controls exhibited the following: wake LH pulse frequency 1.19 (1.08-1.33) (median [interquartile range]) and 1.22 (0.97-1.27) pulses/h, respectively; sleep LH pulse frequency 0.93 (0.78-1.28) and 0.83 (0.78-0.99) pulses/h, respectively; and wake-to-sleep change in LH pulse frequency of -19.4 (-21.9 to +2.9) and -15.5 (-31.8 to -12.0) percent, respectively. For participants with PCOS, pretreatment with flutamide was associated with the following changes compared to PBO: wake LH pulse frequency +0.01 (-0.06 to +0.03) pulses/h; sleep LH pulse frequency +0.06 (+0.01 to +0.07) pulses/h; and wake-to-sleep LH pulse frequency change +5 (+7 to -12) percent. None of these differences were statistically significant by conservative nonparametric testing. We conclude that this interim analysis does not offer any indication that wake- and sleep-associated LH pulse frequencies are different between PCOS and late-follicular controls, nor does it suggest clear differences in wake-to-sleep changes in late-follicular LH pulse frequency between groups. Furthermore, this analysis does not seem to offer any indication that flutamide alone alters wake- and/or sleep-associated LH pulse frequencies in PCOS. Presentation Date: Saturday, June 17, 2023