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Query: UMLS:C0038454 (stroke)
 147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This report deals with a detailed course of one patient with acromegaly who had a pituitary apoplexy. The pituitary apoplexy occurred suddenly 5 days after administration of a oral hypoglycemic agent, buformin, during hospitalization. Immediately after the attack changes of the concentrations of several hormones such as serum growth-hormone, serum thyroid hormone and urinary 17-hydroxycorticosteroids were followed until the development to hypopituitary state. Simultaneously with the decrease of the concentrations of the above-mentioned hormones, a regression of the physical manifestations of acromegaly and a complete amelioration of diabetes mellitus were observed.
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PMID:A case of acromegaly improved by pituitary apoplexy. 16 61

Serum thyroid hormones were measured in 62 cases of acute cerebrovascular apoplexy. Compared with the control group, T3, FT3 were markedly lowered and rT3, T4 and TSH were significantly increased with lowered T3/rT3 ratio. The patients were divided into two groups, according to whether there was hemorrhage in their CSF. Changes of serum thyroid hormones in cerebral haemorrhage were more remarkable than those observed in cerebral thrombosis. 16 cases with increased T4, FT4 were diagnosed as euthyroid hyperthyroxinemia. It was found that the amount of thyroid hormone changes appeared to be in proportion to the severity of acute cerebrovascular apoplexy. The determination of serum thyroid hormones would be useful in evaluating the severity of the strokes and in studying the thyroid function in acute cerebrovascular apoplexy.
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PMID:[Changes in serum thyroid hormones in acute cerebrovascular apoplexy and their clinical significance]. 239 Aug 78

The pituitary-thyroid axis of 12 patients, exposed to transsphenoidal pituitary microsurgery because of nonfunctioning adenomas (6), prolactinomas (3) and craniopharyngioma (1), or to major pituitary injury (1 apoplexy, 1 accidental injury), was controlled more than 6 months following the incidents. The patients did not receive thyroid replacement therapy and were evaluated by measurement of the serum concentration of thyroxine (T4), 3,5,3'-triiodothyronine (T3), 3,3',5'-triiodothyronine (rT3), T3-resin uptake test and thyrotropin (TSH, IRMA method) before and after 200 micrograms thyrotropin releasing hormone (TRH) iv. The examination also included measurement of prolactin (PRL) and cortisol (C) in serum. Apart from 1 patient with pituitary apoplexy all had normal basal TSH levels and 9 showed a significant TSH response to TRH. Compared to 40 normal control subjects the 12 patients had significantly decreased levels of T4, T3 and rT3 (expressed in free indices), while the TSH levels showed no change. Five of the patients, studied before and following surgery, had all decreased and subnormal FT4I (free T4 index) after surgery, but unchanged FT3I and TSH. The levels of FT4I were positively correlated to both those of FT3I and FrT3I, but not to TSH. The TSH and thyroid hormone values showed no relationship to the levels of PRL or C of the patients exposed to surgery. It is concluded that the risk of hypothyroidism in patients exposed to pituitary microsurgery is not appearing from the TSH response to TRH, but from the thyroid hormone levels.
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PMID:The pituitary-thyroid axis in patients with pituitary disorders. 250 20

The effect of acute thyroid hormone deficiency on left ventricular diastolic filling was studied by radionuclide ventriculography with simultaneous right heart catheterization in nine athyreotic patients without cardiovascular disease. The patients were studied when they were hypothyroid and when they were euthyroid on replacement therapy. Peak filling rate and the time to peak filling were used to characterize diastolic function. The time to peak filling was defined as the interval from end-systole on the radionuclide time-volume curve to the time of occurrence of peak filling. The peak filling rate was determined in absolute terms from the normalized radionuclide peak filling rate and from the end-diastolic volume, which was derived from the radionuclide ejection fraction and from the thermodilution stroke volume. In all patients, the values for peak filling rate were lower in the hypothyroid than in the euthyroid state (287 +/- 91 mL/s vs. 400 +/- 118 mL/s, delta = 41 +/- 13%, p less than 0.01). Peak filling always occurred during the first half of the diastolic interval. The time to peak filling was not significantly affected by the thyroid state (170 +/- 10 ms vs. 159 +/- 21 ms, delta = 7 +/- 10%). Left ventricular filling pressure as reflected by the pulmonary capillary wedge pressure and end-systolic volume were similar in both thyroid states (6 +/- 2 mmHg vs. 8 +/- 2 mmHg (1 mmHg = 133.32 Pa) and 32 +/- 11 mL vs. 32 +/- 7 mL, respectively). The data suggest that the rate of active diastolic relaxation is decreased in short-duration hypothyroidism.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acute hypothyroidism slows the rate of left ventricular diastolic relaxation. 259 25

Primary care physicians have a vital role to play in identifying depression in their elderly patients. Diagnosis may be difficult, because symptoms are atypical and frequently include psychomotor agitation, somatic symptoms, and complaints of memory loss. Patients with medical illnesses, such as cancer, postmyocardial infarction, stroke, Parkinson's disease, and early Alzheimer's disease are particularly vulnerable to depression. Drugs that may cause depressive symptoms are digitalis at toxic levels, beta-blockers, centrally acting antihypertensives, immunosuppressants, and nonsteroidal anti-inflammatory agents. Cyclic antidepressants are the drugs of first choice. Selection depends on the patient's physical health and current medications and the side effect profile of the drug. Side effects are more pronounced in old age because of drug accumulation owing to slowed clearance. Troublesome side effects are anticholinergic effects, orthostatic hypotension, sedation, cardiotoxicity, and weight gain. The most useful antidepressants for geriatric patients are the secondary amines, desipramine and nortriptyline. The second-generation drug trazodone has the advantage of causing the least anticholinergic effects, but it is very sedating. Before treatment, the patient should have an electrocardiogram, liver function tests, tonometry, sitting and standing blood pressures, evaluation of urinary symptoms for outflow obstruction, review of current medications, and estimation of suicide risk. Cyclic antidepressants are contraindicated during recovery from myocardial infarction, in heart disease when there is severe impairment of myocardial performance, in seizure disorders, and in the presence of glaucoma or a large prostate. Drug interactions that may cause trouble can occur with epinephrine, MAO inhibitors, thyroid hormone, cimetidine, and centrally acting antihypertensives. Dosage should start low, increasing usually by 25 mg every 4 to 5 days until a therapeutic level is reached. Failure of a noradrenergic antidepressant after 4 to 5 weeks can be followed by a trial of a serotonergic drug. Drug serum level monitoring is useful for imipramine, desipramine, and nortriptyline. Monoamine oxidase inhibitors are effective in many elderly patients who are resistant to TCAs. Sympathomimetic drugs must be avoided with MAOIs. Elderly patients are at high risk of toxicity and drug interactions with lithium. Electroconvulsive therapy is useful for patients who do not respond to drug treatment, but medical complications, particularly cardiovascular, often occur in patients 75 or older. Many patients relapse after ECT. Psychotherapy together with pharmacotherapy may be the optimal treatment for elderly depressives. Older patients are more likely to become chronically depressed than younger patients. The risk of suicide in depressed elderly males is high, particularly in those with psychosocial problems, and depression rises with age.
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PMID:Management of depression in the elderly. 266 41

Affective illness is common, frequently debilitating, and sometimes life-threatening in the elderly. Considerations pertaining to treatment with heterocyclic drugs, MAOIs, lithium, psychostimulants and thyroid hormone, as well as ECT, have been reviewed. Amitriptyline and imipramine cause significant orthostatic hypotension and probably should be avoided in the elderly. In addition, amitriptyline is extremely anticholinergic. Amoxapine is essentially a neuroleptic sequelae, including tardive dyskinesia. If a patient has had a prior positive response or has a relative who had a good outcome from a particular drug, it may be best to begin treatment with that drug. Initial choice of antidepressant can be based largely on the clinical picture. For example, if a depressed patient is sleeping much more than usual, try a potentially activating agent like desipramine or protriptyline. if, on the other hand, the patient is unable to sleep, a more sedating agent like nortriptyline, maprotiline, trimipramine, or trazodone should be tried. Risks and side effects of these drugs, as well as their use in cardiac patients, have been reviewed in detail. Many clinicians avoid MAOIs in elderly patients because of fear of adverse reactions. This fear is largely unfounded. Precautions, side effects, and specific recommendations have been outlined. Using lithium in the elderly requires special precautions because of decreased GFR and potential interactions with concomitantly used drugs. This paper has discussed possible side effects and toxicity. The usage of psychostimulants, such as methylphenidate and amphetamine, to treat medically ill depressed patients is reviewed. These agents are also sometimes useful in demented individuals or in patients with abulic frontal lobe syndromes. Poststroke depressions are common, and recent evidence indicates that they can be adequately treated. Stroke patients have many difficulties dealing with rehabilitation and should not be forced to suffer concomitant depression when we have the tools at hand to effectively treat such symptoms. Recent data on the potentiation of antidepressant effects by lithium or T3 indicate that they may be useful adjuvants in some tricyclic-resistant patients. Risks, side effects, and recent procedural advances in the use of ECT have been reviewed. Electroconvulsive therapy is both more effective and faster-acting than drugs in the treatment of depression. Many depressed elderly patients, especially those with psychotic symptoms, do not respond to drugs but improve with ECT.
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PMID:Treatment of affective illness in the elderly with drugs and electroconvulsive therapy. 269 55

A thyrotropin-releasing hormone (TRH) test with serum thyroid-stimulating hormone (TSH) assays was performed in 22 euthyroid stroke patients without thyroid disease and the results were compared with those in 17 age-matched euthyroid controls. Basal and maximum TSH levels after TRH injection were significantly lower in the stroke group without elevation of basal serum thyroid hormone levels. There was a tendency towards an inverse relationship between TSH levels and the degree of pareses of the extremities. The test was repeated in 7 stroke patients 3-4 months after the onset of stroke with essentially the same results. The abnormal TSH parameters in stroke patients seem to be the result of the brain lesion per se.
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PMID:Serum thyroid-stimulating hormone in cerebrovascular disease. 308 6

The effect of hypothyroidism on left ventricular function at rest and during exercise was studied in nine patients without demonstrable cardiovascular disease who had had total thyroidectomy and ablative radioiodine treatment for thyroid cancer. Radionuclide ventriculography and simultaneous right heart catheterisation were performed while the patients were hypothyroid two weeks after stopping triiodothyronine treatment (to permit routine screening for metastases) and while they were euthyroid on thyroxine replacement treatment. When the patients were hypothyroid, cardiac output, stroke volume, and end diastolic volume at rest were all lower and peripheral resistance was higher than when they were euthyroid. Pulmonary capillary wedge pressure, right atrial pressure, heart rate, left ventricular ejection fraction, and the systolic pressure:volume relation of the left ventricle, which was used as an estimate of the contractile state, were not significantly different when the patients were hypothyroid or euthyroid. During exercise, heart rate, cardiac output, end diastolic volume, and stroke volume were higher when the patients were euthyroid than when they were hypothyroid. Again, pulmonary capillary wedge pressure, ejection fraction, and the systolic pressure:volume relation were similar in both thyroid states. The data suggest that the alterations in cardiac performance seen in short term hypothyroidism are primarily related to changes in loading conditions and exercise heart rate; they do not suggest that acute thyroid hormone deficiency has a major effect on the contractile properties of the myocardium.
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PMID:Left ventricular function at rest and during exercise in acute hypothyroidism. 317 36

Effect of a chronic excess or deficit of thyroid hormone on intrinsic myocardial performance in rats was assessed. Animals were thyroidectomized or treated with thyroid hormone or vehicle 6-7 wk before the study. Body weight and heart weight were decreased in the hypothyroid group, and heart weight was elevated in the hyperthyroid group. Hearts were removed from thyroidectomized, euthyroid or thyroid-treated animals and studied as isolated, perfused working heart preparations. Ventricular function curves were generated by increasing left atrial filling pressure, whereas outflow resistance was not varied. Coronary flow, aortic outflow (and thus cardiac output), heart rate, and peak aortic systolic pressure were measured as a function of preload. These studies showed that performance of hearts from hyperthyroid animals was similar to that of euthyroid controls. Hearts from hypothyroid rats had decreased rate, pressure, and cardiac output but normal stroke volume. Since heart weight was 55% lower than control, normalization of volume work to dry heart weight reversed the difference in cardiac output. Comparison of hearts from hypothyroid animals to control rats of similar weight showed minimal differences in pump function. Thus hyperthyroidism did not result in altered in vitro cardiac output or peak systolic pressure as a function of changing preload when compared with age-matched euthyroid controls, hypothyroidism resulted in a decreased in vitro heart rate but greater cardiac output normalized to heart weight when compared with age-matched controls and hyperthyroid animals; external pacing of hypothyroid hearts yielded myocardial work parameters that were comparable to euthyroid control rats of similar body weight; and cardiac efficiency was significantly greater in hypothyroid hearts than in hyperthyroid hearts.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of altered thyroid status on in vitro cardiac performance in rats. 356 93

Severe nonthyroidal illness has been claimed to cause secondary hypothyroidism. We reevaluated this concept measuring serum free T4 and free T3 by an ultrafiltration method and serum TSH by an ultrasensitive technique (detection limit, and serum TSH by an ultrasensitive technique (detection limit, 0.05 mU/L). Forty-five critically ill patients suffering from hepatic coma (n = 10), terminal cancer (n = 9), stroke (n = 8), and respiratory insufficiency not treated (n = 7) and treated (n = 11) with dopamine were studied. The mortality rate was 80%. No patients received glucocorticoids, and only patients in the last group received dopamine. Serum total as well as free thyroid hormone index values were grossly reduced in the majority of the patients. The 34 patients not receiving dopamine in general had normal values of serum free T4 (32 of 34) and free T3 (31 of 34), measurable TSH (33 of 34), and detectable TSH responses to iv TRH (33 of 34). In contrast, the dopamine-treated patients had reduced serum free T4 and TSH levels compared to normal subjects (P less than 0.05), as well as reduced TSH responses to TRH (P less than 0.01). Serum free T4 and free T3 were below the normal range in 3 patients and 1 patient, respectively, and serum TSH was below the detection limit in 2 patients. We conclude that critically ill patients with nonthyroidal illness not receiving dopamine have normal pituitary-thyroid function, whereas dopamine induces some degree of secondary hypothyroidism.
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PMID:Pituitary-thyroid axis in critical illness. 359 10


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