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 51,768 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primary hyperparathyroidism (pHPT), caused by solitary parathyroid adenomas in 85% of cases and diffuse hyperplasia in most of the remaining cases, overproduces parathyroid hormone (PTH), which mobilizes calcium to the blood stream. Renal stones, osteoporosis and diffuse symptoms of hypercalcaemia, such as constipation, fatigue and weakness are well-known complications. However, in Western Europe and North America, patients with pHPT are nowadays usually discovered during an early, asymptomatic phase of the disease. It has been reported that patients suffering from symptomatic pHPT have increased mortality, mainly due to an overrepresentation of cardiovascular death. pHPT is reported to be associated with hypertension, disturbances in the renin-angiotensin-aldosterone system, and structural and functional alterations in the vascular wall. Recently, studies have indicated an association between pHPT and heart disease, and studies in vitro have produced a number of theoretical approaches. An increased prevalence of cardiac structural abnormalities such as left ventricular hypertrophy (LVH) and valvular and myocardial calcification has been observed. Associations have been found between PTH and LVH, and between LVH and serum calcium. LV systolic function does not seem to be affected in patients with pHPT, whereas any influence on LV diastolic performance needs further evaluation. The aim of this review is to clarify the connection between pHPT and cardiac disease.
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PMID:Primary hyperparathyroidism and heart disease--a review. 1547 92

Chronic heart failure (CHF) remains an important and increasing public health care problem. It is a complex syndrome affecting many body systems. Body wasting (i.e., cardiac cachexia) has long been recognised as a serious complication of CHF. Cardiac cachexia is associated with poor prognosis, independently of functional disease severity, age, and measures of exercise capacity and cardiac function. Patients with cardiac cachexia suffer from a general loss of fat tissue, lean tissue, and bone tissue. Cachectic CHF patients are weaker and fatigue earlier, which is due to both reduced skeletal muscle mass and impaired muscle quality. The pathophysiologic alterations leading to cardiac cachexia remain unclear, but there is increasing evidence that metabolic, neurohormonal and immune abnormalities may play an important role. Cachectic CHF patients show raised plasma levels of epinephrine, norepinephrine, and cortisol, and they show high plasma renin activity and increased plasma aldosterone level. Several studies have also shown that cardiac cachexia is linked to raised plasma levels of tumour necrosis factor alpha and other inflammatory cytokines. The degree of body wasting is strongly correlated with neurohormonal and immune abnormalities. The available evidence suggests that cardiac cachexia is a multifactorial neuroendocrine and metabolic disorder with a poor prognosis. A complex imbalance of different body systems may cause the development of body wasting.
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PMID:Cardiac cachexia. 1551 2

B-type natriuretic peptide (BNP) is an endogenous cardiac neurohormone, produced in the ventricles in response to pressure and volume elevation. Nesiritide is identical to endogenous BNP and is synthesized using recombinant DNA technology. It is currently used in the treatment of acute decompensated heart failure. In clinical trials, nesiritide has been shown to decrease pulmonary capillary wedge pressure, pulmonary artery pressure, right atrial pressure, and systemic vascular resistance, as well as increase cardiac index and stroke volume index. Infusions of nesiritide have led to increased diuresis and natriuresis. Patients treated with nesiritide have reported improvements in global clinical status, dyspnea, and fatigue. Therapy with nesiritide has resulted in decreased plasma renin, aldosterone, norepinephrine, and endothelin-1 levels, as well as reduced ventricular ectopy and ventricular tachycardia. Heart rate variability also improved with nesiritide. Patients with acute coronary syndromes, serious arrhythmia, renal disease, diastolic dysfunction, or vasopressor dependence have been safely managed with nesiritide. Early treatment with nesiritide in the emergency department may lead to decreased length of hospital stay and reduced readmission rates compared to standard care. Outpatient serial infusions of nesiritide in severe heart failure patients on optimal medical therapy may result in improved clinical status, increased ejection fraction, reduced aldosterone and endothelin-1 levels, and decreased hospitalizations. Potential future uses of nesiritide include treatment of acute coronary syndromes, pulmonary hypertension, bronchospasm in chronic lung disease, and as antifibrotic/anti-remodeling therapy or bridge to cardiac transplant. The possibility of subcutaneous injections of nesiritide has been studied in both animals and humans.
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PMID:Nesiritide: past, present, and future. 1633 35

Adrenal insufficiency is a disorder characterized by hypoactive adrenal glands resulting in insufficient production of the hormones cortisol and aldosterone by the adrenal cortex. This disorder may develop as a primary failure of the adrenal cortex or be secondary to an abnormality of the hypothalamic-pituitary axis. Patients with adrenal insufficiency often are asymptomatic or they may present with fatigue, muscle weakness, weight loss, low blood pressure, and sometimes darkening of the skin. The presentation of adrenal insufficiency varies dramatically and poses a major diagnostic dilemma. This review focuses on the diagnosis and treatment of primary and secondary adrenal insufficiency.
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PMID:Adrenal insufficiency: diagnosis and management. 1648 Jun 77

Hyponatremia, albeit common in chronic renal insufficiency, necessitates a detailed search of the underlying hidden causes. We report on a 67-year-old woman with chronic kidney disease (creatinine 230 micromol/L) and hypertension who suffered from general fatigue, dizziness, nausea, vomiting and abdominal fullness off and on for 6 months. Hyponatremia (plasma Na(+) 106-125 mmol/L) on 4 occasions during the past 6 months was noticed. Her extracellular volume status was apparently normal. Plasma Na(+) concentration 110 mmol/L was the most striking laboratory abnormality with mild metabolic acidosis (HCO(3)- 19.8 mmol/L). Her urine Na(+) concentration and osmolality were inappropriately high. Her hyponatremia was refractory to normal saline, hypertonic NaHCO(3) and 0.1-microg 9 alfa-fludrocortisone. Despite normal plasma cortisol and thyroid hormone concentrations, a provocation test with cosyntropin (250 microg) showed a blunted cortisol (<579 nmol/L) but intact aldosterone response. Magnetic resonance imaging of her brain displayed a normal pituitary gland and hypothalamus. A history of intermittent intravenous steroid therapy to treat her allergic rhinitis for 3 years was uncovered. Steroid supplements induced water diuresis and corrected hyponatremia to 135 mmol/L in 5 days. With nonspecific clinical symptoms, glucocorticoid insufficiency must be kept in mind as a cause of hyponatremia even in patients with impaired renal function and normal plasma cortisol concentration.
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PMID:Recurrent hyponatremia in a patient with chronic kidney disease. 1687 5

Animal studies suggest that acute and chronic aldosterone administration impairs baroreceptor/baroreflex responses. We tested the hypothesis that aldosterone impairs baroreflex control of cardiac period [cardiovagal baroreflex sensitivity (BRS)] and muscle sympathetic nerve activity (MSNA, sympathetic BRS) in humans. Twenty-six young (25 +/- 1 yr old, mean +/- SE) adults were examined in this study. BRS was determined by using the modified Oxford technique (bolus infusion of nitroprusside, followed 60 s later by bolus infusion of phenylephrine) in triplicate before (Pre) and 30-min after (Post) beginning aldosterone (experimental, 12 pmol.kg(-1).min(-1); n = 10 subjects) or saline infusion (control; n = 10). BRS was quantified from the R-R interval-systolic blood pressure (BP) (cardiovagal BRS) and MSNA-diastolic BP (sympathetic BRS) relations. Aldosterone infusion increased serum aldosterone levels approximately fourfold (P < 0.05) and decreased (P < 0.05) cardiovagal (19.0 +/- 2.3 vs. 15.6 +/- 1.7 ms/mmHg Pre and Post, respectively) and sympathetic BRS [-4.4 +/- 0.4 vs. -3.0 +/- 0.4 arbitrary units (AU).beat(-1).mmHg(-1)]. In contrast, neither cardiovagal (19.3 +/- 3.3 vs. 20.2 +/- 3.3 ms/mmHg) nor sympathetic BRS (-3.8 +/- 0.5 vs. -3.6 +/- 0.5 AU.beat(-1).mmHg(-1)) were altered (Pre vs. Post) in the control group. BP, heart rate, and MSNA at rest were similar in experimental and control subjects before and after the intervention. Additionally, neural and cardiovascular responses to a cold pressor test and isometric handgrip to fatigue were unaffected by aldosterone infusion (n = 6 subjects). These data provide direct experimental support for the concept that aldosterone impairs baroreflex function (cardiovagal and sympathetic BRS) in humans. Therefore, aldosterone may be an important determinant/modulator of baroreflex function in humans.
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PMID:Aldosterone impairs baroreflex sensitivity in healthy adults. 1692 Aug 5

We report a case of a 67-year-old woman with hypokalemic rhabdomyolysis induced by pseudohyperaldosteronism. The pseudohyperaldosteronism in this case was caused by the administration of a traditional Chinese medicine, which contained 2.0 g of licorice in the approved daily dose. She started to suffer from hypertension and general fatigue after taking the medication, but continued it for two years until admission after an episode of diarrhea and vomiting. On admission, severe hypokalemia (1.6 mEq/L) and increased serum creatinine kinase (8,778 IU/L) was noted. With the findings of a high transtubular potassium concentration gradient (TTKG) in spite of low plasma renin activity and a low plasma aldosterone concentration, we suspected licorice-induced pseudohyperaldosteronism as the cause of her hypokalemic rhabdomyolysis. The Chinese medicine was terminated, and she received appropriate hydration and potassium replacement therapy as judged by the value of TTKG with the result that her serum potassium and creatinine kinase levels were normalized without any more adverse events. Since it was only a low dose of licorice (2.0 g/day) that induced hypokalemic rhabdomyolysis in this case, serum electrolytes should be examined in all cases under the possible consumption of licorice.
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PMID:[Case of rhabdomyolysis induced by the approved daily dose of a traditional Chinese medicine]. 1842 70

Bidirectional associations between mood disorders and cardiovascular diseases are extensively documented. However, the precise physiological and biochemical mechanisms that underlie such relationships are not well understood. This review focuses on the neurobiological processes and mediators that are common to both mood and cardiovascular disorders. The discussion places an emphasis on the role of exogenous stressors in addition to: (a) neuroendocrine and neurohumoral changes involving dysfunction of the hypothalamic-pituitary-adrenal axis and the activation of the renin-angiotensin-aldosterone system, (b) immune alterations including activation of pro-inflammatory cytokines, (c) autonomic and cardiovascular dysregulation including increased sympathetic drive, withdrawal of parasympathetic tone, cardiac rate and rhythm disturbances, and altered baroreceptor reflex function, (d) central neurotransmitter system dysfunction involving the dopamine, norepinephrine and serotonin systems, and (e) behavioral changes including fatigue and physical inactivity. The review also discusses experimental investigations using preclinical disease models to elucidate the neurobiological mechanisms underlying the link between mood disorders and cardiovascular disease. These include: (a) the chronic mild stress model of depression, (b) a model of congestive heart failure, (c) a model of cardiovascular deconditioning, (d) pharmacological manipulations of body fluid and sodium balance, and (e) pharmacological manipulations of the central serotonergic system. In combination with an extensive human research literature, the investigation of mechanisms underlying mood and cardiovascular regulation using animal models will enhance understanding the association between depression and cardiovascular disease. This will ultimately promote the development of better treatments and interventions for individuals with co-morbid psychological and somatic pathologies.
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PMID:Stress, depression and cardiovascular dysregulation: a review of neurobiological mechanisms and the integration of research from preclinical disease models. 1911 88

Evidence of the effect of dehydration on physiological responses to hypoxia is limited. The purpose of this study was to determine the effect of hypohydration severity on physiological, renal hormonal and psychological responses to acute hypoxia. Eight males completed intermittent walking tests under normobaric hypoxic conditions (FI O(2) = 0.13) after completing four separate hypohydration protocols, causing change in body mass of approximately 0% (EU), -1% (H1), -2% (H2) and -3% (H3). Physiological and psychological markers were monitored throughout the 125 min test. Fluid controlling hormones were measured pre and post exposure. Heart rate, core temperature, peripheral arterial oxygen saturation (SpO(2)), minute ventilation and urine osmolality were found to be significantly different between hydration conditions and correlated with Lake Louise Questionnaire score (LLQ) (P < 0.05). LLQ score increased with hypohydration severity above H2 (EU 1.3 +/- 1; H1 1.2 +/- 1; H2 2.7 +/- 2; H3 3.9 +/- 2) (P < 0.001). Antidiuretic hormone and aldosterone increased over the test, but were not different between hydration conditions (P < 0.05). Atrial natriuretic peptide showed no change over time, or with conditions. Therefore, renal hormones are not influenced by hypohydration severity during moderate intensity hypoxic exercise. Hypohydration less than -2% induces greater physiological strain during hypoxic exercise and may cause rise in symptoms such as, fatigue, headache, nausea and lightheadedness.
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PMID:The effect of hypohydration severity on the physiological, psychological and renal hormonal responses to hypoxic exercise. 1919 72

We report a rare case of Bartter's syndrome in a 35-year-old woman with type 2 diabetes mellitus. The patient presented with leg weakness, fatigue, polyuria and polydipsia. Hypokalemia, metabolic alkalosis, and high renin and aldosterone concentrations were present, but the patient was normotensive. Gitelman's syndrome was excluded because of the presence of hypercalciuria, secondary hyperparathyroidism and bilateral nephrocalcinosis. The patients condition improved upon administration of a prostaglandin synthetase inhibitor (acemetacin), oral potassium chloride and potassium-sparing diuretics. Five months later, the patient discontinued acemetacin because of epigastric discomfort; at the same time, severe hypokalemia and hyperglycemia developed. Glucagon stimulation and water deprivation tests were performed. Type 2 diabetes mellitus with nephrogenic diabetes insipidus was diagnosed. To avoid further gastrointestinal complications, the patient was treated with celecoxib, a selective cyclooxygenase 2 inhibitor. This case serves as a reminder that Bartter's syndrome is associated with various metabolic derangements including nephrogenic diabetes insipidus, nephrocalcinosis and diabetes mellitus. When treating Bartter's syndrome, it is also prudent to remember that the long-term use of nonsteroidal anti-inflammatory drugs and potassium-sparing diuretics may result in serious adverse reactions.
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PMID:Bartter's syndrome with type 2 diabetes mellitus. 1925 37


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