Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027497 (nausea)
23,468 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A combined anterior pituitary (CAP) function test was assessed in eight healthy male beagle dogs. The CAP test consisted of sequential 30-second intravenous administrations of four hypothalamic releasing hormones in the following order and doses: 1 microgram of corticotropin-releasing hormone (CRH)/kg, 1 microgram of growth hormone-releasing hormone (GHRH)/kg, 10 micrograms of gonadotropin-releasing hormone (GnRH)/kg, and 10 micrograms of thyrotropin-releasing hormone (TRH)/kg. Plasma samples were assayed for adrenocorticotropin, cortisol, GH, luteinizing hormone (LH), and prolactin (PRL) at multiple times for 120 min after injection. Each releasing hormone was also administered separately in the same dose to the same eight dogs in order to investigate any interactions between the releasing hormones in the combined function test. Compared with separate administration, the combined administration of these four hypothalamic releasing hormones caused no apparent inhibition or synergism with respect to the responses to CRH, GHRH, and TRH. The combined administration of these four hypothalamic releasing hormones caused a 50% attenuation in LH response compared with the LH response to single GnRH administration. The side effects of the combined test were confined to restlessness and nausea in three dogs, which disappeared within minutes after the administration of the releasing hormones. It is concluded that with the rapid sequential administration of four hypothalamic releasing hormones (CRH, GHRH, GnRH, and TRH), the adenohypophyseal responses are similar to those occurring with the single administration of these secretagogues, with the exception of the LH response, which is lower in the CAP test than after single GnRH administration.
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PMID:Assessment of a combined anterior pituitary function test in beagle dogs: rapid sequential intravenous administration of four hypothalamic releasing hormones. 866 4

A prolactin-secreting pituitary tumour is the most frequent cause of hyperprolactinaemia that commonly occurs in clinical practice. Prolactinomas occur more frequently in women than in men and may differ in size, invasive growth and secretory activity. At presentation, macroadenomas are more frequently diagnosed in men. Specific immunohistochemical stains are necessary to prove the presence of prolactin in the tumour cells. The main investigations in the diagnosis of a prolactin-secreting adenoma are hormonal and radiological. As prolactin is a pulsatile hormone, it is a general rule to obtain several blood samples by taking a single sample on 3 separate days or 3 sequential samples (every 30 minutes) in restful conditions. Prolactin levels of 100 to 200 micrograms/L are commonly considered diagnostic for the presence of a prolactinoma; however, prolactinoma cannot be excluded in the presence of lower levels, and prolactin levels > 100 micrograms/L are present in some patients with idiopathic hyperprolactinaemia. Several dynamic function tests have been proposed to differentiate idiopathic from tumorous hyperprolactinaemia. Although they could be used for group discrimination, these tests cannot be used for individual patients. To differentiate between a prolactinoma and a pseudoprolactinoma, thyrotrophin response to a dopamine receptor antagonist may be used, as only prolactinomas may have an increased response. A short course of dopaminergic drugs may also be of some help, as in macroprolactinomas only a shrinkage may be observed. After hyperprolactinaemia is confirmed, imaging with computerised tomography (CT) and magnetic resonance imaging (MRI) are necessary to define the presence of a lesion compatible with a pituitary tumour. There is now a general agreement that medical therapy is of first choice in patients with prolactinomas. Bromocriptine, the most common drug used in this condition, is a semisynthetic ergot alkaloid that directly stimulates specific pituitary cell membrane dopamine D2 receptors and inhibits prolactin synthesis and secretion. In most patients, a reduction or normalisation of prolactin levels is usually observed, together with the disappearance or improvement of clinical symptoms. The sensitivity to bromocriptine is variable and patients may need different dose of the drug. Bromocriptine is also able to shrink the tumour in most patients; however, a few reports of disease progression during therapy have been described. The need for close follow-up, including prolactin levels and CT or MRI studies, is therefore emphasised. Bromocriptine is conventionally given in 2 or 3 daily doses; however, a single evening dose has been shown to be equally effective. Bromocriptine is usually well tolerated by the majority of patients; some adverse effects (nausea, vomiting, postural hypotension) may be initially present, but they usually wear off in time. To prevent such adverse effects it is advisable to start treatment with a low dose during the evening meal and gradually increase the dose over days or weeks. A few patients are unable to tolerate oral bromocriptine, so different formulations of bromocriptine or alternative dopamine agonist drugs (lisuride, terguride, metergoline, dihydroergocryptine, quinagolide, cabergoline, pergolide) have been proposed. Of particular clinical relevance because of their good tolerability and sustained activity are cabergoline and quinagolide. Particular attention should be paid to pregnancy in prolactinoma patients, as tumour enlargement has been reported. As the risk for this occurrence is low in patients with microprolactinoma, there is a general agreement that the drug can be stopped once pregnancy is diagnosed. In patients with macroprolactinoma the risk of tumour enlargement is higher. Therefore, primary therapy with bromocriptine until the tumour has shrank is suggested before pregnancy is attempted. Bromocriptine should be stopped as soon as pregnancy is confirmed, but re
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PMID:Diagnosis and drug therapy of prolactinoma. 873 17

The oral administration of bromocriptine induces a variety of side-effects in about 50-70% of patients, the most common being nausea and vomiting, probably related to the local gastrointestinal effect of the drug. Nasal administration makes it possible to avoid intestinal and liver metabolism. This study compared the serum concentrations of bromocriptine and prolactin (PRL) in twenty puerperal women who had asked to discontinue breast feeding and were randomized to receive a single oral (2.5 mg) or nasal spray dose (0.8 mg) of bromocriptine. Serum bromocriptine and PRL concentrations were measured at various times before and after drug administration. At 15 min, the circulating concentrations of bromocriptine were about eight times higher after nasal than after oral administration; peak serum concentration (CMax) was reached respectively 45 min and 60 min after administration, and was about three times higher after nasal administration (314 +/- 102 pg/ml vs 112.30 +/- 34.47 pg/ml). The reduction in serum PRL concentrations was also more rapid in the nasally-treated group reaching the normal assay range of < 20 micrograms/l within two as against five hours post-administration. Four orally-treated patients complained of nausea; in the nasally-treated group, six patients reported only a mild endonasal burning that disappeared within a few minutes of administration. Our results suggest that the nasal administration of bromocriptine may lead to a reduction in the required overall dose and fewer gastrointestinal side-effects, and may therefore improve therapy compliance.
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PMID:Nasal spray vs oral administration of bromocriptine: pharmacology and effect on serum prolactin in puerperal women. 888 36

We studied the endocrine and subjective responses that followed acute administration of the 5-HT1A receptor agonist buspirone (0.5 mg/kg orally) in 11 male patients with chronic fatigue syndrome (CFS) and a group of matched healthy controls. Patients with CFS had significantly higher plasma prolactin concentrations and experienced more nausea in response to buspirone than did controls. However, the growth hormone response to buspirone did not distinguish CFS patients from controls. Our data question whether the enhancement of buspirone-induced prolactin release in CFS is a consequence of increased sensitivity of post-synaptic 5-HT1A receptors. It is possible that the increased prolactin response to buspirone in CFS could reflect changes in dopamine function.
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PMID:Increased prolactin response to buspirone in chronic fatigue syndrome. 893 8

This study was aimed at investigating the absorption of nasally administered bromocriptine and its effect on serum prolactin level. Fifteen physiologically hyperprolactinemia women who had asked to discontinue breast feeding received a single nasal spray administration of 0.8 mg bromocriptine. Serum prolactin levels were measured by radioimmunoassay at 30 and 15 min before drug administration, at the time of administration and at 15, 30, 60, 120, 240, 480 and 720 min after administration; bromocriptine was radioimmunoassayed in only five of the patients from time 0 to 720 min after administration. Serum bromocriptine levels increased rapidly after administration, reached a maximum at 120 min and thereafter declined slowly over the subsequent 10 h. As the bromocriptine level increased there was a decline in the serum prolactin level. The first significant decline in serum prolactin level compared with the baseline level occurred at 30 min after administration and the level continued to decrease significantly until time 120 min. Four hours after administration the mean serum prolactin level was within the normal assay range. The maximum decline in serum prolactin level was reached at 720 min after administration. Correlation analysis between serum bromocriptine and prolactin concentrations yielded a significant negative value between times 0 and 120 min after administration. There was no significant change in mean orthostatic systolic or diastolic blood pressure or in mean heart rate. Only one patient complained of headache and dizziness; another experienced mild transient nausea, and none had vomiting. Ten patients (66.67%) reported light endonasal burning and an unpleasant taste which subsided after a few minutes; no patient showed nasal irritation at nasal examination. In conclusion, nasal administration of 0.8 mg bromocriptine was effective in reducing the serum prolactin level for more than 12 h after administration without inducing significant side-effects.
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PMID:Nasal spray administration of bromocriptine: pharmacology and effect on serum prolactin level in puerperal women. 903 65

The purpose of this study was to examine the relationship between mood and hormonal responses to cholinergic challenge with physostigmine in order to assess cholinergic system responsiveness in borderline personality disorder (BPD) patients, other non-BPD personality disorder patients, and normal controls. Thirty-four personality disorder patients, 10 of whom met criteria for BPD and 24 of whom met criteria for other, non-borderline, personality disorders, and 11 normal controls participated in a double blind, placebo controlled physostigmine challenge paradigm. The Profile of Mood States depression subscale (POMS-D) self report measure was obtained at baseline and following the physostigmine or placebo infusions. A repeated measures ANOVA of POMS-D scores in placebo and drug conditions indicated a significantly greater depressive response in the total cohort of personality disorder patients than in the normal comparison group (p < 0.05). However, the depressive response to physostigmine was significantly greater in BPD patients, but not other personality disorder patients, compared to normal controls (p < 0.05). There was a correlation between the peak placebo-corrected depressive response to physostigmine and a group of BPD traits related to affective instability but not a group of BPD traits related to impulsivity. There was no correlation in any group between mood response to physostigmine and changes in plasma cortisol, prolactin, or growth hormone, or to nausea or other side effects following physostigmine infusion. These data suggest that there is an association between BPD and acute depressive responses to physostigmine challenge, and that the cholinergic system may be involved in the regulation of affect in Axis II disorders.
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PMID:Depressive response to physostigmine challenge in borderline personality disorder patients. 932 51

This study investigated whether domperidone could improve gastrointestinal symptoms in patients with Parkinson's disease who were receiving levodopa therapy. A total of 11 patients were studied. Following a baseline gastric emptying test, patients were treated with a starting dose of domperidone 20 mg p.o. q.i.d. A follow-up gastric emptying test was repeated at least 4 months after starting domperidone therapy. At the beginning and at each 3-month follow-up visit, symptoms of nausea, vomiting, anorexia, abdominal bloating, heartburn, regurgitation, dysphagia, and constipation were evaluated and scored on a scale of 0-3. The overall mean follow-up period was 3 years. Compared with their baseline evaluation, patients experienced a significant improvement in all symptoms (p < 0.05) except dysphagia and constipation. Gastric emptying of an isotope-labeled solid meal was significantly faster, with a baseline result of 60.2 +/- 6.4% retention of isotope 2 h after the meal compared with 37.0 +/- 2.2% retention during domperidone therapy (p < 0.05). Patients' global assessment of Parkinson's disease remained stable or improved. Serum prolactin was elevated in all patients after domperidone therapy (p < 0.05). Domperidone therapy significantly reduces upper gastrointestinal symptoms and accelerates gastric emptying of a solid meal, but does not interfere with response to antiparkinsonism treatment.
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PMID:Effect of chronic oral domperidone therapy on gastrointestinal symptoms and gastric emptying in patients with Parkinson's disease. 939 20

Obsessive-compulsive disorder is a chronic psychiatric illness, affecting up to 3% of the general population, to the middle of 60-th it was supposed to be untreatable. Antidepressant pharmacotherapy is one of the treatment alternatives today. We compared efficacy and safety of citalopram versus clomipramine (serotoninergic antidepressants) in 6 weeks in double blind therapy of obsessive-compulsive disorder. The second objective was to compare prolactin response to a fenfluramine challenge test before the treatment of patients and after 6 weeks of the treatment. In a sample of 14 patients we confirmed significant therapeutic response after 3 weeks of pharmacotherapy, better in obsession than in compulsion. We found low level of adverse effects in the first week of therapy--dry mouth, anxiety, nausea, somnolence, tremor, and sexual adverse events. There were no changes in the laboratory, test EEG, and ECG examinations. Fenfluramine challenge test showed statistically significant decrease of prolactin levels 1 hour after administration of fenfluramine. It was not observed after six weeks of the therapy. Statistically significant negative correlation between prolactin plasma levels at the 6th hour after administration of fenfluramine and obsession item of YBOC Scale was showed after the 3rd and 6th week of the therapy. The correlation was not observed for compulsion item YBOC Scale. Side effects observed during and after the challenge test were anxiety and nervousness and gastrointestinal problems, lasted from 1 hour to 10 hours. These preliminary result could support the idea, that obsessions and compulsions have not necessary the same biological background. The challenge paradigm appears to be a possible way to clarify the pathogenesis of OCD. Our study will continue.
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PMID:Fenfluramine challenge test in obsessive-compulsive disorder--first results. 948 83

Prolactin is an important physiological regulator of prostate development and growth in preclinical models. In prostate cancer there is strong evidence that prolactin exerts a trophic effect independent of testosterone. In addition, patients with prostate cancer that have an elevated prolactin level correlated with a poorer prognosis. Based on these data, we evaluated the clinical effect of prolactin suppression using bromocriptine in patients with androgen-independent prostate cancer. We conducted an open-label phase II trial of bromocriptine in patients with progressive metastatic prostate cancer. Basal and thyrotropin releasing hormone (TRH)-stimulated prolactin levels were utilized as biological endpoints for determining the dose of bromocriptine. All patients continued to receive complete androgen blockade. Thirteen patients were enrolled (median age 69.5 years). There were no complete or partial responses associated with bromocriptine in 11 of the evaluable patients. The mean duration of bromocriptine treatment was 8.2 weeks (2-14 weeks). One patient had a clinically insignificant decrease in prostate-specific antigen (PSA) and another patient had a 19.9% decrease in PSA with progression of a soft tissue mass. The vast majority of patients (10 of 11) had suppression of prolactin with a bromocriptine dose of 2.5 mg three times a day. One patient required a dose adjustment due to inadequate suppression, with a final maintenance dose of bromocriptine 12.5 mg per day resulting in complete suppression. No serious treatment-related toxicities were observed. The most common complications noted were nausea, headaches, dizziness, and fatigue. Our data showed that 2.5 mg three times per day of bromocriptine suppressed prolactin in 90% of the patients. Furthermore, this dose appears to be well tolerated.
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PMID:A phase II study of bromocriptine in patients with androgen-independent prostate cancer. 962 40

Inflammatory lesions of the hypophysis include lymphocytic hypophysitis, pituitary abscess, and granulomatous inflammation, with or without specific infections (i.e., sarcoidosis, mycobacteria). These lesions are known to mimic pituitary neoplasms. We report the clinical and pathologic findings in three patients who underwent transsphenoidal resection for presumed pituitary adenoma. Two were women aged 30 years (one with a 5-month history of headache, the other with a 1-year history of menstrual irregularity) and one was a 12-year-old girl with headache, nausea, and diabetes insipidus. Preoperative endocrinologic studies showed increased prolactin in one patient and normal serum thyroid stimulating hormone and prolactin levels in another. By magnetic resonance imaging (MRI), the first case had a 1.2-cm mass with increased signal on T1 and isointensity on T2, ring enhancement after gadolinium, and lateral deviation of the pituitary stalk. The second patient had a 1.1-cm "cystic" mass seen during magnetic resonance imaging with adjacent bony changes seen during computed tomography. In the third, computed tomography showed a hypodense pituitary mass that enlarged during 1-month observation. At surgery, abnormal soft tissue surrounded liquefied material in the anterior pituitary in all cases. Histologic studies showed fragments of intact normal anterior pituitary with preserved vascular and reticulin network and regions of anterior pituitary infiltrated by foamy histiocytes. Other fragments resembled granulation tissue, and some consisted of acellular debris. Histiocytes were immunoreactive for the macrophage marker CD68 and negative for S-100 and CD1a. Ultrastructurally, the normal adenohypophysis was permeated by lipid-laden macrophages. There were no well-formed granulomas or giant cells, hemosiderin, acid-fast bacilli, or fungi. Serial sections and keratin immunostains failed to identify an epithelial cyst lining or keratin among the debris. We propose the term "xanthomatous hypophysitis" for this lesion.
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PMID:Xanthomatous hypophysitis. 963 Jan 81


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