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Query: UMLS:C1332347 (ADH)
 2,230 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Some pituitary hormones secrete hormones while others do not. Nonsecreting tumors can interfere with normal pituitary hormone secretion and produce tumor symptoms and signs like headaches and visual field defects. The most frequent hormone-secreting tumors are prolactinomas. Growth hormone or ACTH or gonadotropin or gonadotropin-alpha and beta chain-producing tumors are less frequent, TSH producing tumors are extremely rare. The most important elements of the diagnostic work-up are clinical signs and symptoms, assessment of pituitary function (measurement of TSH, free T4, LH, FSH, oestradiol/free testosteron, growth hormone, IGF-1, prolactin, ACTH, Cortisol, serum and urine osmolality), CT and/or MRI and, in patients with large tumors, a visual field exam. The treatment of choice of pituitary tumors is often surgery. Alternative therapies are radiation treatment (in nonoperable patients or when hormone levels are persistently elevated after pituitary surgery) and drug treatment (dopamine agonists in hyperprolactinemia, somatostatin analogues in acromegaly). Pituitary hormone deficiencies are treated depending on the specific deficiency with thyroxine, cortisone, oestrogen/gestagen/testosterone gonadotropines or ADH analogues.
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PMID:[Hypophyseal dysfunction and tumors]. 158 68

After burn trauma, a very marked endocrine response occurs. Almost all the known hormones take part in it. Their response influences very much the postburn metabolic changes and participates in the integration of the body's response with the nervous and immune systems. In this review, mainly the changes in various hormone levels are described, as well as the possible role of the acute phase response after burn trauma, and the communications between the endocrine and immune systems, the cells of the latter are able to respond to various hormonal stimuli and to secrete various hormones themselves. Some of the hormones are very sensitive indicators of the burn stress, e.g., the T3 levels (very low), testosterone in males (very low), dehydroepiandrosterone (DHEA) and dehydroepiandrosterone sulfate (DHEA-S) (very low), ADH, catecholamines, renin and angiotensin II, cortisol (high), 17-beta-estradiol in males (usually elevated). Other hormones are usually elevated, but not always (ACTH, aldosterone, prolactin, glucagon, immunoreactive insulin, beta-endorphin, rT3, 11-beta-hydroxyandrostenedione), but there are hormones that are unually low (T4, FSH, androstenedione, progesterone--the latter especially in females). Calcitonin, parathyroid hormone, growth hormone are sometimes elevated, as well as LH (measured with RIA methods). TSH is usually normal, the biologically measured LH was reported to be low. The levels of the sensitive indicators of burn stress may be used to evaluate the effect of treatment: if the burn patient is properly treated, the indicators may become earlier normal.
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PMID:Endocrine changes after burn trauma--a review. 251 73

According to the report of the Health and Welfare Ministry's research committee on brain death (1985), "brain death is defined as an irreversible cessation of the total brain function including brain stem." However, in brain death patients, whether the hypothalamic function which belongs to the brain stem function has completely ceased or not is unknown. In order to evaluate the hypothalamic function in brain death patients, the blood levels of the pituitary hormones and hypothalamic hormones were measured, and anterior pituitary stimulation test with triple bolus injection (TRH 500 micrograms, LH-RH 100 micrograms, regular insulin 0.3-0.7 unit/kg) was performed. The subjects were 13 brain death patients whose clinical states fully satisfied the criteria proposed by the committee. 1) The average blood levels of anterior pituitary hormones in these brain death patients were within normal range, and that of growth hormone was more than the twice of the normal level. 2) The blood anterior pituitary hormones were detectable in almost all cases even several days after the diagnosis of the brain death. 3) LH reserve was maintained in three cases. FSH reserve was maintained in three cases. Prolactin reserve was maintained in two cases. TSH reserve was maintained in one case. 4) Blood ADH (antidiuretic hormones) were detectable in 7 cases out of 9 cases. The blood ADH level of one case, in particular, was rather high (above 10 pg/ml). 5) Histopathologically anterior pituitaries were examined in three autopsy cases. The central necrotic areas were observed in all cases, but normal pituitary tissues existed peripherally. And all anterior pituitary hormones could be recognized immunohistochemically. 6) The blood levels of the hypothalamic hormones (GRF, CRF, LH-RH) were measured in four cases. The hypothalamic hormones were detectable in all cases. In one case, the levels of GRF were within normal range even 9 or 15 days after the diagnosis of brain death.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Hypothalamic pituitary function in brain death patients--from blood pituitary hormones and hypothalamic hormones]. 314 54

This report concerns a review of the neuroendocrine effects of narcotic analgesics and endorphins. Acute administration of narcotic analgesics to rats increases the blood levels of ACTH, GH and prolactin, and decreases levels of LH and TSH, however, there is no general consensus regarding changes in serum FSH, ADH and oxytocin as induced by narcotics in rats. In humans, the narcotic analgesic increases in serum prolactin, decreases in serum LH and has no effect on the release of other known pituitary hormones. Endorphins mimic morphine regarding hormonal effects. Effects of naloxone on the basal levels of prolactin, LH or GH were inverse to the effects seen with narcotics and endorphins, therefore endorphins may play a role in regulating the basal levels of these hormones. Narcotics analgesics depress the increased blood levels of prolactin, gonadotropins or TSH elicited by specific measures. While chronic administration of morphine results in tolerance to the stimulant effect of ACTH, and possibly of prolactin secretion, tolerance does not develop to the stimulant effect on GH secretion. The analgesic potency of narcotic analgesics correlates with their suppressive effect on the pituitary-gonadal system and the potency with which endorphins bind to the opiate receptors correlates with their prolactin releasing activity. It is assumed that narcotic analgesics and endorphins exert their hormonal effects by altering the release of neurotransmitters in the CNS. Thus, a release of hypothalamic releasing hormones is involved rather than a direct action on the pituitary. The central neurotransmitter systems involved in the hormonal effects of narcotics are now being intensively investigated by various groups of workers.
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PMID:[Narcotic analgesics and endorphins and the release of pituitary hormones (author's transl)]. 611 Jun 21

Opioid peptides are found throughout the central nervous system, and have profound effects on neuroendocrine function. In man, exogenous opiates and opioids elevate circulating prolactin, GH and TSH, and suppress the release of the gonadotrophins and pro-opiocortin-related peptides. However, unlike in other species, there is substantial evidence for a physiological role of endogenous opioids only in the case of the gonadotrophins and ACTH/LPH. Most evidence suggests that LH and FSH are modulated via the hypothalamus or amygdala, where concentrations of opioids and opioid receptors are very high. Endogenous opioids appear to be principally concerned with the frequency-modulated release of GnRH, and this may be important clinically in patients presenting with amenorrhoea. ACTH/LPH are under tonic inhibition by endogenous opioids acting at hypothalamic and/or pituitary levels, and changes in this inhibition may be responsible for the release of these peptides in response to certain forms of stress. It has been reported that the opiate antagonist, naloxone, is clinically useful in paradoxically inhibiting the release of ACTH in patients with Nelson's syndrome, but this requires adequate confirmation. Vasopressin is under biphasic opiate control, but the principal effect is probably opiate-mediated inhibition of vasopressin release. The endogenous ligand for this response is likely to be dynorphin. Suppression of vasopressin release by opiates may become a useful therapy in the treatment of the 'Syndrome of inappropriate ADH'.
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PMID:Brain opiates and neuroendocrine function. 632 67

The frequency of growth hormone (GH) deficiency in patients operated for pituitary neoplasms of various size and type was investigated using the insulin tolerance test. 45 patients were included in the study. 20 of the patients had a non-hormone secreting pituitary neoplasm, 9 had GH-, 6 ACTH-, 7 prolactin secreting adenomas and 3 had a craniopharyngeoma. Complete endocrinological examination was obtained in all patients after pituitary surgery. Apart from patients operated for GH secreting adenomas, GH deficiency was very common after pituitary surgery (92%), even in patients operated for small lesions. Among the 45 patients LH/FSH deficiency was found in 33%, ACTH in 33%, TSH in 18% and ADH deficiency in 9% of the patients. In this study, impaired GH secretion was found to be independent of the size of the tumors and was present in nearly all patients after pituitary surgery (with exception of GH secreting adenomas). Deficiencies of other pituitary hormones were predominantly observed after surgery for large tumors.
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PMID:Impaired growth hormone secretion in patients operated for pituitary adenomas. 795 Sep 4

A retrospective study analyzing etiological, clinical and hormonal aspects in a population of 45 patients (14 males and 31 females) with permanent hypogonadism was performed, the most important findings were: 1) The most common cause of hypogonadism was gonadal failure (60% of all patients). This included-twenty-three females and four males. Eighteen patients had XO, two XY and two more XX gonadal dysgenesis. In the remaining cases, three patients had bilateral agonadism and two had testicular atrophy secondary to radiochemotherapy. 2) Eighteen patients had hypogonadotropic hypogonadism (40% of the cases). Ten were males and eight females. Eleven patients had gonadotropin deficiency associated with other pituitary dysfunctions. Deficiency of GH was found in all cases. TSH in ten, ACTH in nine and ADH in five. An increase in prolactin was observed in seven patients. The etiology of the hypopituitarism was intracranial tumors in five cases, idiopathic in three, perinatal hypoxemia in two and hypoplastic pituitary in one. In the remaining seven cases, isolated gonadotropin deficiency was found. Four cases were idiopathic, two cases had demyelinating diseases and one beta-thalassaemia. 3) Mean levels of testosterone were 4.20 +/- 6.5 (0, 20) pg/ml. Meal levels of estradiol of the total group, gonadal failure patients and those with hypogonadotropic hypogonadism were 8.51 +/- 14.7 (0, 50), 9 +/- 16 (0, 50) and 7.12 +/- 10.98 (0, 29) pg/ml, respectively. 4) Mean basal levels of LH and FSH in patients with gonadal failure were 35.57 +/- 60.66 (5, 320) and 53.19 +/- 53.92 (4, 230) mUi/ml, respectively. In hypogonadotropic hypogonadism patients, mean basal and peak levels of LH were 0.98 +/- 1.24 (0, 5) and 3.45 +/- 3.94 (0, 12) mUi/ml, respectively. Mean basal and peak levels of FSH after LHRH stimulation were 1.43 +/- 1.88 (0, 6) and 3.85 +/- 4.85 (0, 17) mUi/ml, respectively.
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PMID:[Etiological, clinical and hormonal characteristics of a group of patients with permanent hypogonadism]. 929 97

The effect of surgery alone or followed by radiotherapy in recovering visual abnormalities, debulking tumor mass and restoring hormone impairments was evaluated in 84 patients with clinical nonfunctioning pituitary adenomas (NFPA) subjected to 1-10 yr follow-up. All patients underwent surgery via transsphenoidal (in 69) or transcranic-pterional approach (in 15). Radiotherapy was performed after surgery in 59 of 72 patients with incomplete tumor removal. The assessment of pituitary function was performed in all patients before and every 1-2 yr after surgery and/or radiotherapy. Radiological and ophthalmologic assessment was performed before and 3, 6 and 12 months after surgery, then yearly. At diagnosis, headache and visual disturbances occurred in 63 and 58 patients, respectively, while deficiency of GH, TSH, ACTH, FSH, LH and ADH was documented in 55, 7, 19 47 and 6 patients, respectively. After surgery, gonadal function recovered in 12 women, visual disturbances improved in 43 patients (15 regained normal vision), pituitary function improved in 8 of 62 patients, worsened in 34 patients. At MRI, complete tumor removal was documented in 12 of 84 patients. After surgery alone, tumor regrowth was observed in 7 patients between 3-7 yr. After radiotherapy, vision improved in 9, remained unchanged in 49 and worsened in 1 of 59 patients. After radiotherapy, tumor regrowth was documented in 9 patients between 2-12 yr and the prevalence of hypopituitarism raised from 28.8% to 92% after 1 and 10 yr. In conclusion, surgery alone is effective only in a minority of patients (14.3%) and radiotherapy causes hypopituitarism in rather the totality of patients after 10 yr. The prevalence of tumor regrowth was similar in irradiated ones (15%) and non irradiated patients (28%; chi(2), p = 0.4). Therefore, a careful radiological followup is suggested after surgery so that radiotherapy can be performed promptly on the basis of clinical data, tumor regrowth and/or invasiveness documented at histology.
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PMID:Effect of surgery and radiotherapy on visual and endocrine function in nonfunctioning pituitary adenomas. 964 49

Congenital panhypopituitarism is a rare disease. It may be a complication of tumors, craniocerebral trauma, infection, granulomatous diseases, vascular pathologies, etc. In many cases no primary disease causing panhypopituitarism is found (idiopathic form). A potential reason is interruption of the pituitary stalk due to ischemic etiology in patients with cord encirclement and/or other birth injuries leading to interruption of the axonal transport of ADH and oxytocin as well as hypothalamic releasing hormones. This explains the ectopy of the neurohypophysis without diabetes insipidus and the hypoplasia of the adenohypophysis. GH-deficiency causes short stature and metabolic disturbances, LH-FSH-deficiency amenorrhoea/oligomenorrhoea, loss of libido and secondary sexual characteristics, TRH-deficiency hypothyroidism and ACTH-deficiency hypotonia, weakness, loss of pigmentation. We report a case of congenital panhypopituitarism. MR imaging of the brain revealed a hypoplastic adenohypophysis and a hypoplastic pituitary stalk which was interrupted in its superior segment. An ectopic neurohypophysis was found located in the area of the hypothalamus ("hypothalamic hot spot"). The ectopic neurohypophysis showed strong enhancement after intravenous application of Gd-DTPA. MR imaging of the hypothalamic-hypophyseal axis is well suited for the differentiation between congenital and acquired forms of panhypopituitarism in clinically uncertain cases.
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PMID:[Neuro-MR-findings in primary panhypopituitarism]. 979 7

Virusencephalitis is characterised by clinical symptoms of a parenchymatous inflammation. In addition, early mental status changes often occur as a result of virusencephalitis, beside focal neurological deficiencies, epileptic seizures, cerebral compression, even coma. Other pathological manifestations of virusencephalitis are disturbances of the neurohumoral and the endocrine system, which are often recognised and treated too late. This case report describes symptoms, treatment, and complications of a 76 year old female in-patient, who was diagnosed with virusencephalitis. The number of lymphocytes in the cerebrospinal fluid was increased to 30 cells per microliter, liquor albumin was 1705 mg/l, liquor sugar was 53 mg/dl and liquor lactat was 1.9 mmol/l. IgM antibodies against herpes viruses were found in the cerebrospinal fluid and distinct contrasting foci were found near the mammillary bodies, hypothalamus, tractus opticus, hypophyseal stalk and right parahippocampal in the magnetic resonance imaging of the head, indicating a focal herpes simplex encephalitis. Within seven days, the following symptoms developed: akinetic parkinsonian syndrome, central diabetes insipidus with hypernatremia and polyuria (6 l/die), hypothyreosis, adrenal insufficiency with adynamia, sopor, hypotension and even hypophyseal coma. Panhypopituitarism was diagnosed after measuring the basal hormone levels (ACTH, TSH, FT3, FT4, Cortisol, Prolactin, LH, FSH, ADH) and conducting the pituitary stimulation test. The severeness of all symptoms was slightly improved after substitution with antidiuretic hormone at 0.4 microgram/die and administration of hydrocortisone at 50 mg/die. Administration of amantadine sulphate at 0.6 g/die and L-dopa at 187.5 mg/die for 14 days resulted in a complete regression of the parkinsonism. After administration of aciclovir at 2.25 g/die for 21 days a complete regression of the clinical symptoms could be reached in connection with a decrease of 90% in number and size of cerebral contrasting foci in the magnetic resonance imaging of the head. Three month after therapy, clinical examination and blood serum analysis revealed persistent panhypopituitarism. The present case report is the first description of a viral infection on of the central nervous system (CNS) in combination with parkinsonism, diabetes insipidus, persistent panhypopituitarism and hyperprolactinemia. Early treatment of viral infections of the brain can improve a patient's prognosis dramatically. Early determination and early treatment of a patient's neurohumoral parameters is therefore critical to prevent or reverse early mental status changes like attention disturbances, alterations of personality and behavior, apathy, and slowed cognition.
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PMID:[Virus encephalitis with symptomatic Parkinson syndrome, diabetes insipidus and panhypopituitarism]. 1059 69


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