Larry R. Laufer scite author profile

The principal glandular source of increased serum androgens in polycystic ovarian disease (PCO) is controversial), since complete separation of ovarian from adrenal function has not been achieved. The purpose of this study was to determine whether a long-acting GnRH agonist could be used to selectively inhibit ovarian steroid secretion in PCO and ovulatory women. Each of five typical PCO patients and six ovulatory subjects on day 2 of their menstrual cycles received D-Trp6-Pro9-NEt-LHRH (GnRH-a; 100 micrograms) for 28 consecutive days. Their results were compared to basal serum hormone values in eight oophorectomized women. In response to GnRH-a, PCO and normal subjects exhibited sharp and sustained rises of LH and gradual decreases in FSH. These levels were clearly less than basal levels seen in oophorectomized women. Episodic LH release was significantly attenuated in both groups at the end of GnRH-a treatment. After the administration of agonist, serum estradiol (E2), estrone (E1), androstenedione (A), and testosterone (T) were suppressed to castrate levels in both groups. The decrements of E2 and E1 in PCO were gradual and continuous compared to initial dramatic rises, which reached peaks at 14 days, and subsequent abrupt falls in the ovulatory controls. Serum A and T declined steadily in both groups. Basal serum dehydroepiandrosterone and dehydroepiandrosterone sulfate, but not cortisol, levels were elevated in PCO subjects. The 24-h secretion patterns and responses to ACTH of these hormones in PCO and ovulatory subjects were unaltered by GnRH-a administration. These data demonstrate that 1) in PCO subjects, GnRH-a induced complete suppression of ovarian steroid secretion, as circulating levels at the end of treatment were comparable to those seen in our oophorectomy subjects; 2) elevated A and T levels in PCO patients were derived primarily from the ovary; and 3) adrenal steroid secretion was unaltered by GnRH-a in both PCO and normal women.

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Treatment of Hot Flashes with Transdermal Estradiol Administration*

Steingold

Laufer

Chetkowski

et al. 1985

The Journal of Clinical Endocrinology & Metabolism

138

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A randomized prospective double blind study was performed to assess the ability of a transdermal therapeutic system (TTS) delivering estradiol (E2) to suppress hot flashes (HFs) in symptomatic postmenopausal women. Patients were given placebo or E2 in four doses for a 20-day period, and serum gonadotropin and estrogen levels and the occurrences of HFs were measured. Administration of placebo had no measurable effect on either estrogen or gonadotropin levels or the occurrence of HFs. A dose-response relationship was found between the rate of E2 administered and the circulating level of E2, with 25, 50, 100, and 200 micrograms/24 h dosages raising the mean E2 concentrations from mean baseline levels of 5-8 pg/ml to 18, 38, 73, and 100 pg/ml, respectively. Estrone levels also increased with TTS application, but to a lesser extent than did E2 levels. Dose-response reductions of FSH and LH with increasing amounts of E2 administration occurred, but gonadotropin levels were not lowered in any of the patients into the ranges found in premenopausal women. TTS application significantly suppressed the occurrence of HFs at the 50 micrograms/24 h dosage and higher. A significant negative correlation (r = 0.6045; P less than 0.001) between E2 levels and the rates of occurrence of HFs was found during hormone administration. Based on this regression, 50% and 100% reductions of HFs should occur at 61 and 122 pg/ml E2. These data indicate that the transdermal delivery of E2 with these systems significantly reduced the occurrence of HFs and allowed definition of the therapeutic range of hormone replacement in terms of lost ovarian function, as reflected by circulating E2 levels.

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Vitrification of oocytes produces high pregnancy rates when carried out in fertile women

Kim

Laufer

Hong

2010

Fertility and Sterility

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Further Delineation of Hypothalamic Dysfunction Responsible for Menopausal Hot Flashes*

Gambone

Meldrum

Laufer

et al. 1984

The Journal of Clinical Endocrinology & Metabolism

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An association exists between pulsatile LH release and hot flashes (HFs). To further delineate the hypothalamic mechanism(s) responsible for HF, the basal levels and pulsatile release of LH, FSH, estradiol, and estrone and the rate of occurrence of HFs (measured objectively) were evaluated in patients with a defect of GnRH secretion [isolated gonadotropin deficiency (IGD)], patients with abnormalities of afferent input to GnRH neurons [hypothalamic amenorrhea (HA)], and postmenopausal women with severe HFs. Patients with IGD had received estrogens, which were discontinued before study. Patients with HA had experienced regular menses before disease onset, which followed emotional stress or weight loss. Studies were limited to HA patients with estrogen levels in the postmenopausal range. Pulsatile LH release was absent in patients with IGD and was absent or greatly reduced in women with HA. Objectively measured and subjectively experienced HFs occurred in IGD but not in HA patients. These results suggest that HFs are not an obligatory consequence of low endogenous estrogen levels and that the absence of episodic LH and GnRH release (IGD) does not influence the occurrence of HFs. It is possible that the dysfunction of afferent input to GnRH neurons in HA somehow prevents HFs in these women with low endogenous estrogen secretion.

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Larry R. Laufer

Steroid Secretion in Polycystic Ovarian Disease after Ovarian Suppression by a Long-Acting Gonadotropin-Releasing Hormone Agonist*

Treatment of Hot Flashes with Transdermal Estradiol Administration*

Vitrification of oocytes produces high pregnancy rates when carried out in fertile women

Further Delineation of Hypothalamic Dysfunction Responsible for Menopausal Hot Flashes*

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