Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002453 (amenorrhea)
 6,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 21 year old female patient with primary amenorrhoea was diagnosed to have isolated gonadotropin deficiency with probable functional hypothalamic amenorrhoea. The evaluation included buccal smear for sex chromatin, trial of medroxy-progesterone acetate, trial of oestrogen-progesterone preparation and estimation of serum prolactin, gonadotrophin and oestrogen levels. When diagnosed as isolated gonadotropin deficiency, treatment with gonadotropin is rewarding.
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PMID:Functional hypothalamic amenorrhoea-isolated gonadotropin deficiency. 145 36

Using pulsatile LH-RH administration, ovulation induction was performed in women with pituitary dwarfism (PD, n = 1), isolated gonadotropin deficiency (IGD, n = 5), secondary hypothalamic amenorrhea (gestagen negative (AM2, n = 10), positive (AM1, n = 5)), polycystic ovarian disease (PCO, n = 6) and anovulatory cycle (ANOV, n = 1). Five to 20 micrograms of LH-RH was administered subcutaneously with a pulse frequency of 90 min to 2 h, in 76 treatment cycles. The ovulation rate of IGD, AM2, AM1 and PCO was 54.5, 83.3, 12.5 and 50.0%, respectively, all being significantly different from each other. In some cases, ovulation induction was repeated for several cycles without any interruption, and chronic effects of this therapy on the subsequent cycle were examined. In IGD and AM2, subsequent cycles were well stimulated, while those of PCO became refractory. These results indicate that pulsatile LH-RH administration should be the first choice of ovulation induction in IGD and AM2, and less effective in AM1 and PD. When this treatment is applied for PCO, the luteal phase should be supported by alternative methods to avoid pituitary desensitization.
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PMID:[Clinical effects of pulsatile LH-RH administration on ovulation induction for women with various type of amenorrhea]. 218 21

The gonadotropin-releasing activity of synthetic alpha MSH, previously found in normal men, was evaluated in women with different hormonal environments and in patients with acyclic gonadotropin release due to hypothalamic-pituitary dysfunction. alpha MSH (2.5 mg, iv) administered as either a single or two repeated pulses (at 2-h intervals) elicited unequivocal pituitary release of LH in normal women during the luteal phase and midcycle surge and in patients with functional hypothalamic amenorrhea, hyperprolactinemic amenorrhea, and polycystic ovary syndrome. Concomitant release of LH and FSH occurred only in polycystic ovarian syndrome patients and normal men. alpha MSH had no discernible effect on gonadotropin release in women during the early and late follicular phases of the cycle, in postmenopausal women, and in patients with isolated gonadotropin deficiency, even after pulsatile GnRH priming. The present observations confirm and extend our earlier finding that alpha MSH possesses gonadotropin-releasing activity in men and indicate that alpha MSH has similar properties in women with progesterone- and androgen-dominated environments or with specific types of hypothalamic-pituitary dysfunction marked by attenuated GnRH-LH release.
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PMID:Gonadotropin-releasing activity of alpha-melanocyte-stimulating hormone in normal subjects and in subjects with hypothalamic-pituitary dysfunction. 642 58

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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PMID:Further delineation of hypothalamic dysfunction responsible for menopausal hot flashes. 643 85

A case report is presented of the need for both bromocriptine and human menopausal gonadotropin (hMG) for induction of ovulation in a patient who developed partial hypopituitarism and persistent hyperprolactinemia even after a transsphenoidal pituitary microadenectomy. The patient, a 27-year old white female, initially presented in 1979 with a history of amenorrhea and galactorrhea after discontinuing oral contraceptives (OCs). Her menstrual cycles had been regular since her menarch at age 13 until she began taking OCs at age 20. Preoperative endocrine evaluation in 1979 revealed serum luteinizing hormone (LH), 9.1 mIU/ml; serum follicle stimulating hormore (FSH), 6.4 mIU/ml; serum thyroid stimulating hormone (TSH), 3.8 mIU/ml; serum prolactine (PRL), 300 ng/ml; serum thyroxine (T4), 6.4 mcg/dl; and an attenuated PRL response to thyrotropin releasing hormone (TRH). Radiographic studies revealed a pituitary tumor of approximately 1 cm in diameter. In July 1979 a transsphenoidal hypophysectomy was performed. Pathologic examination revealed a pituitary adenoma with a monomorphic basophilic cell population with fibrosis and chronic inflammation. The patient required prednisone therapy postoperatively for 3 months secondary to compromised adrenal status. Prednisone therapy was discontinued in October 1979 after a normal cortisol (F) response to induced hypoglycemia was documented. The patient's serum PRL levels remained elevated at 111 ng/ml in August 1979 and 269 ng/ml in October 1979. Her amenorrhea and galactorrhea persisted. Bromocriptine therapy, 2.5 mg 3 times daily, was instituted in October 1979. She became normoprolactinemic, with a serum PRL of 6 ng/ml, and the galactorrhea disappeared but the amenorrhea persisted. In February 1981 she was referred for further consultation on her fertility status. Bromocriptine therapy was discontinued. In April 1981 she underwent a thorough endocrine evaluation. The results indicate that GnRH stimulation was unable to elicit a pituitary gonadotropin response anywhere near normal levels of FSH and LH, thus suggesting pituitary hypogonadotropism. Growth hormone release was subnormal in response to the insulin induced hypoglycemia and L-dopa ingestion. Hyperprolactinemia was obvious but the patient's serum TSH, T4, and adrenocorticotropin (ACTH) levels were normal. A diagnosis of hyperprolactinemia with partial hypopituitarism and gonadotropin deficiency was made. Bromocriptine therapy was reinstituted at 2.5 mg twice daily in June 1981, with good results. In November 1981 her serum PRL was normal, and as she was desirous of pregnancy, ovulation induction with bromocriptine and Pergonal was carried out. The patient is now 6 months pregnant and doing well. This case illustrates the poor functional results for surgery for pituitary microplactinomas.
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PMID:Partial hypopituitarism and hyperprolactinemia: successful induction of ovulation with bromocriptine and human menopausal gonadotropins. 681 37

Two monophasic oral contraceptives containing gestodene (GTD, 75 micrograms) and ethinylestradiol (EE, 30 micrograms) or norgestimate (NGS, 250 micrograms) and EE (35 micrograms) were compared during the first six cycles of use. The subjects were randomly assigned to receive either type: 97 received GTD/EE and 92 NGS/EE. Six women in the GTD/EE group and nine in the NGS/EE group withdrew from the study; three (3%) and two (2%), respectively, withdrew because of adverse reactions. A total of 562 cycles for GTD/EE and 523 for NGS/EE were available. No woman became pregnant during the study. Overall, 94.4% of cycles in the GTD/EE group and 92.8% in the NGS/EE group were normal. A similar incidence of breakthrough bleeding (0.2% of cycles for GTD and 1.6% for NGS) and spotting (5.4% vs. 5.6%) was observed. Amenorrhea was never reported. Duration of withdrawal bleeding tended to be slightly longer in the NGS/EE group, significantly so for cycles 2 (0.5 days, p = 0.016), 4 (0.5 days, p = 0.031) and 5 (0.4 days, p = 0.045). Cycle 2 was significantly longer in the GTD/EE group (0.3 days, p = 0.027). Side-effects were reported by 12 (12%) women in the GTD/EE group and 13 (14%) in the NGS/EE group. The most common side-effects were headache (five cases (5%) in the GTD/EE group and two (2%) in the NGS/EE group) and breast pain (three (3%) and eight (9%) cases respectively). There were no statistically significant differences between the two groups with respect to change in body weight or changes in blood pressure and in laboratory data.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Efficacy, cycle control and side-effects of two monophasic combination oral contraceptives: gestodene/ethinylestradiol and norgestimate/ethinylestradiol. 814 35

Menstrual irregularity is common in women with acromegaly, occurring in 40-84%. Although it has been attributed to gonadotropin deficiency and/or PRL excess, it has not been evaluated in detail, and its pathogenesis is not well understood. To explore the various possible pathogenic mechanisms, we have analyzed the clinical, endocrinological, and radiological characteristics of 47 women with active acromegaly within the reproductive age range (15-41 yr) with respect to their menstrual pattern; 9 patients (19%) had normal cycles, 7 (15%) had oligomenorrhea, 29 (62%) had amenorrhea, and 2 (4%) had polymenorrhea. Compared to patients with normal cycles (n = 9), patients with menstrual irregularity (oligo/polymenorrhea or amenorrhea; n = 38) were more hirsute, had lower serum estradiol (normal: median, 76.5 pmol/L; range, 20-570; menstrual irregularity: median, 283; range, 140-431; P < 0.01), and sex hormone-binding globulin (SHBG; normal: median, 19.6 nmol/L; range, 5-52; menstrual irregularity: median, 48; range, 18-60; P < 0.01), but similar testosterone levels; in addition, patients with amenorrhea had higher serum GH (normal: median, 100 mU/L; range, 8.8-400; amenorrhea: median, 30; range, 10.7-120; P < 0.05). PRL levels in excess of 1000 mU/L were found in 16 of the 38 patients with menstrual irregularity compared to only 1 of the 9 patients with normal cycles. Patients with menstrual irregularity had a greater impairment of anterior pituitary function than patients with normal cycles. Acromegalic patients who were defined as estrogen sufficient (estradiol, >140 pmol/L) had clinical baseline endocrine profiles and LH responses to GnRH stimulation similar to those in patients with polycystic ovarian disease. There was a positive correlation between GH levels and tumor size (r = 0.35; P < 0.05) and an independent inverse correlation between GH and SHBG levels (r = -0.6; P < 0.01), which persisted even in patients who were estrogen sufficient, but there was no correlation between GH and estradiol levels; in addition, there was a negative correlation between estradiol levels and tumor size (r = -0.42; P < 0.05). Thirty-five of the patients with menstrual irregularity had meso- or macroadenomas and 3 had microadenoma, whereas 6 of the 9 patients with normal cycles had microadenomas. In conclusion, menstrual irregularity is common in women with acromegaly (81% of our patients). Amenorrheic patients have higher GH levels, are mainly estrogen deficient, and tend to have larger tumors than patients with normal cycles. However, the independent negative correlation between GH and SHBG levels suggests that GH may, directly or indirectly, lead to a fall in SHBG, possibly determined by the hyperinsulinemia known to occur in acromegaly. Low SHBG levels may contribute to the menstrual disturbance seen in acromegaly in addition to any gonadotropin deficiency or hyperprolactinemia and may account for hirsutism in the presence of normal testosterone levels.
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PMID:Menstrual irregularity in women with acromegaly. 1044 69

Functional hypothalamic amenorrhea are frequently observed. Body weight, body composition, eating attitudes, exercise are potent modulators of gonadotrop axis. Animal studies and clinical observations stress the fact of a major impact on ovary function of starvation or caloric restriction, weight loss and fat mass deficiency, eating disorders, stress or high intensive exercise training. From a pathophysiological point of view, insulin, IGF's system, leptine and central neuromediators are a link between nutrition and the gonadotropic axis. Initial clinical evaluation may strongly suggest the environmental origin of the amenorrhea. Basal hormonal evaluation (gonadotropins, prolactin, androgens ...) excludes other diseases and specialised evaluations [basal metabolic rate (BMR), Free T3 ...] could confirm the diagnosis. A low BMR, and a low Free T3, a normal FSH level with a low LH level suggest the nutritional origin of the amenorrhea. Improvement of nutritional intake and body composition with a psychological follow up may reverse the gonadotropin deficiency. If this deficiency persists hormonal replacement therapy is added in order to prevent the short or long term consequences (osteoporosis) of hypoestrogenism.
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PMID:[Nutritional hypogonadism]. 1048 60

Fertility and gynaecological malignancies have an important relationship. A clear inverse relationship exists between family size and the incidence of ovarian and endometrial cancer. Current methods of fertility control have an influence on subsequent development of various gynaecological malignancies. A slightly increased risk of breast cancer has been reported in current users and those who had used hormonal contraceptives (OCs) within 10 years; this risk declined with time and disappeared after 10 years. Women who started OC before age 20 had a higher relative risk; the disease did not spread beyond the breast in the majority. Most studies found OC to reduce the risk of ovarian and endometrial cancer. The relative risks of squamous cell carcinoma and adenomatous carcinoma of the cervix have been reported to be 1.3 and 1.5, respectively in ever-users of OCs; however, the aetiology of cervical cancer is multifactoral. Several reports suggest the beneficial effect of tubal ligation and breast feeding in reducing the risk of ovarian cancer. Therapy of gynaecological malignancies may have an influence on subsequent fertility. Amenorrhoea developing after treatment of hydatidiform mole may be due to choriocarcinoma, recurrent mole or a normal pregnancy. Choriocarcinoma can also develop after a partial mole. The risk of fetal teratogenicity from chemotherapy is present only if conception occurs during or immediately following the treatment cycles. Fertility is not impaired following chemotherapy. Successful pregnancies have occurred in women who have had widespread GTD including cerebral metastases. In the young patient with gynaecological malignancy preservation of fertility is possible. Fertility-sparing surgery may be safe in early ovarian epithelial cancers and even in advanced germ cell tumours. Recently, the fertility-sparing surgery of radical trachelectomy and pelvic lymphadenectomy has been carried out for early invasive cervical cancer in young women. Gynaecological cancer occurring in pregnancy is uncommon; it presents the clinician with a difficult situation to manage. In most instances the cancer is treated as though the patient is not pregnant; the timing and mode of delivery needs individualization. The overall prognosis for breast cancer complicating pregnancy is poor. Survival in cervical cancers diagnosed antepartum is similar to the non-pregnant patient. Ovarian cancer in pregnancy has a good prognosis because of the early stage at diagnosis.
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PMID:Chien-Tien Hsu Memorial Lecture. Fertility and gynaecologic malignancies. 1133 Jul 24

Anorexia nervosa (AN) is a state of leptin and gonadotropin deficiency. Leptin levels are decreased in normal weight women with hypothalamic amenorrhea and leptin may be a sensitive marker of overall nutritional status. The aim of the study is to provide additional information on plasma leptin levels and on gonadotropin responses after clomiphene testing in patients with AN who recovered weight but were still amenorrheic. We evaluated 17 patients with AN, female age 20+/-1.2 yr who reached goal weight [body mass index (BMI) 14.9+/-0.5 to 19.3+/-0.4 kg/m2]. At diagnosis serum leptin levels were 2.2+/-0.1 microg/l while after behavioural therapy and hypercaloric diet for 6-12 months serum leptin levels rose to 6.4+/-1.4 microg/l significantly lower compared with those in the control (no.=10, age 28+/-6.2 yr, BMI 21.1+/-0.3 kg/m2, leptin 9.3+/-0.7 pg/l; p<0.05). None of the patients resumed spontaneous menstrual cycles after weight gain. They were tested with a 10-day administration of clomiphene citrate. All had a significant rise in LH secretion (from 1.7+/-0.3 IU/l to 8.3+/-0.9 IU/l, p<0.01) and serum estradiol levels (from 19.0+/-5.4 to 937.7+/-241.2 pg/ml, p<0.03). Nine out of 17 patients menstruated after clomiphene. Serum leptin levels were not different in those who menstruated from those who did not (6.4+/-1.4 to 6.8+/-1.4 microg/l, p>0.05). Body compositon was studied in 12 additional carefully matched patients with AN who recovered weight. Six of them resumed spontaneous menstrual cycles. Neither BMI, body fat, nor leptin appeared as significant determinants of menstrual status. In conclusion, relative hypoleptinemia persists, independent of fat mass, in weight recovered patients with AN. A normal response to clomiphene in weight-recovered yet still amenorrhoeic patients with AN, offers reassurance that the axis is intact and that the problem lies in the hypothalamus. It is reasonable to believe that nutritional disturbances, fat intake and persisting psychological factors still affect plasma leptin levels and reproductive functions in weight-recovered patients with amenorrhea.
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PMID:Gonadotropin response to clomiphene and plasma leptin levels in weight recovered but amenorrhoeic patients with anorexia nervosa. 1571 48


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