Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Over the past 20 years it has become increasingly apparent that hyponatremic encephalopathy is a major cause of inhospital morbidity and mortality, particularly in postoperative patients. The factors that may lead to death or permanent brain damage and the susceptible patient groups have been gradually elucidated. Hyponatremic encephalopathy most commonly leads to brain damage in young women and in prepubescent children. The causes of brain damage include brain edema, cerebral hypoxemia, decreased brain blood flow, increased intracranial pressure, and improper therapy. Cerebral hypoxia occurs through a combination of impaired brain adaptation and cerebral vasoconstriction. Brain adaptation consists largely of brain cell loss of sodium and potassium by means of the Na-K adenosine triphosphatase (ATPase) system. There is also loss of organic osmolytes. The brain Na-K ATPase system is impaired by a combination of vasopressin plus estrogen and is stimulated by testosterone. Similarly, vasopressin plus estrogen leads to cerebral vasoconstriction, resulting in a decrement of brain oxygen utilization and cerebral blood flow. Vasopressin also directly decreases brain production of ATP. The combination leads to hypoxic brain damage, which appears to be the major cause of brain damage associated with hyponatremic encephalopathy. Measurement of arterial PO2 in patients with symptomatic hyponatremia usually demonstrates a PO2 <50 mm Hg. Improper therapy is another possible cause of brain damage in patients with hyponatremic encephalopathy. The type and distribution of such lesions are similar to those found in patients with hyponatremic encephalopathy who have severe hypoxia. Current scientific knowledge indicates that patient survival can be improved through aggressive treatment of hypoxia associated with hyponatremic encephalopathy, particularly in young women.
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PMID:Influence of hypoxia and sex on hyponatremic encephalopathy. 1684 87

Exercise-associated hyponatremia (EAH) has emerged in recent years as a life-threatening complication of endurance sports that may lead to fatal cerebral and pulmonary edema. Defined as a serum sodium concentration <135 mEq/L (1 mEq/L = 1 mmol/L), symptomatic EAH is a dilutional hyponatremia with abnormal fluid retention mediated by decreased urine production, which is a variant of the syndrome of inappropriate antidiuretic hormone secretion. Strategies for prevention and treatment must take into account the pathophysiology underlying this dominant clinical paradigm. Beyond educating runners to drink moderately, monitoring changes in body weight during endurance sports may facilitate the early detection of positive fluid balance characteristic of symptomatic cases. Rapid diagnosis by point-of-care testing indicates the need for fluid restriction in mild cases and emergent treatment with hypertonic (3%) NaCl to reverse acute hypotonic encephalopathy. The efficacy of arginine vasopressin V(2) receptor antagonists warrants study as an alternative treatment to loop diuretics for volume overload in these patients. Nonosmotic stimulation of arginine vasopressin secretion may be mediated in part by enhanced release of muscle-derived interleukin-6 during glycogen depletion, linking exertional rhabdomyolysis to the pathogenesis of EAH.
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PMID:Exercise-associated hyponatremia: role of cytokines. 1684 89

Exercise-associated hyponatraemia (EAH) is an acute-onset imbalance in the tonicity of extracellular fluids during or after endurance exercise which results in a blood sodium concentration <135 mmol/L. Both excessive fluid intake and a concurrent decrease in urine formation contribute to this rapid-onset, predominantly dilutional, decrease in serum sodium, which can result in life-threatening pulmonary and cerebral oedema. Marathon runners with hypotonic encephalopathy related to EAH, including two cases with fatal cerebral oedema, demonstrated non-osmotic secretion of arginine vasopressin and fulfilled the essential diagnostic criteria for the syndrome of inappropriate antidiuretic hormone secretion (SIADH). The pathophysiology of SIADH as the proximate cause of EAH accounts for otherwise puzzling clinical observations such as cases occurring after only moderate fluid intake or presenting hours after races. This formulation provides a framework for enhancing prevention by monitoring weight changes during races to detect positive fluid balance before the onset of mental status changes. Most importantly, SIADH supports a strategy for use of oral and intravenous hypertonic solutions, including 3% sodium chloride, for the emergent treatment of moderate and life-threatening symptoms of hypotonic encephalopathy, respectively.
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PMID:Hypertonic (3%) sodium chloride for emergent treatment of exercise-associated hypotonic encephalopathy. 1746 35

Hyponatremia is the most common electrolyte abnormality in hospitalized patients. When symptomatic (hyponatremic encephalopathy), the overall morbidity is 34%. Individuals most susceptible to death or permanent brain damage are prepubescent children and menstruant women. Failure of the brain to adapt to the hyponatremia leads to brain damage. Major factors that can impair brain adaptation include hypoxia and peptide hormones. In children, physical factors--discrepancy between skull size and brain size--are important in the genesis of brain damage. In adults, certain hormones--estrogen and vasopressin (usually elevated in cases of hyponatremia)--have been shown to impair brain adaptation, decreasing both cerebral blood flow and oxygen utilization. Initially, hyponatremia leads to an influx of water into the brain, primarily through glial cells and largely via the water channel aquaporin (AQP)4. Water is thus shunted into astrocytes, which swell, largely preserving neuronal cell volume. The initial brain response to swelling is adaptation, utilizing the Na(+)-K(+)-ATPase system to extrude cellular Na(+). In menstruant women, estrogen + vasopressin inhibits the Na(+)-K(+)-ATPase system and decreases cerebral oxygen utilization, impairing brain adaptation. Cerebral edema compresses the respiratory centers and also forces blood out of the brain, both lowering arterial Po(2) and decreasing oxygen utilization. The hypoxemia further impairs brain adaptation. Hyponatremic encephalopathy leads to brain damage when brain adaptation is impaired and is a consequence of both cerebral hypoxia and peptide hormones.
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PMID:Brain cell volume regulation in hyponatremia: role of sex, age, vasopressin, and hypoxia. 1844 91

Exercise-associated hyponatremia (EAH) is a potentially fatal fluid imbalance largely resulting from sustained fluid intake beyond the capacity for fluid excretion during endurance exercise. Common symptoms include vomiting, confusion, altered mental status, and seizures; however, these symptoms can also be seen with hypernatremic encephalopathy, making measurement of plasma sodium concentration imperative when athletes present with these symptoms. Recent evidence supports the inappropriate secretion of the antidiuretic hormone, arginine vasopressin (AVP), as the primary pathophysiological mechanism underlying the development of dilutional EAH. It appears that AVP is stimulated normally during prolonged endurance running by non-osmotic factors such as an exercise-induced plasma volume decrease; therefore, any excess fluid intake will likely be retained, and sodium will likely be excreted. The capacity for a small concentrated bolus of a hypertonic saline solution to rapidly reverse cerebral edema and remove any decreased plasma volume stimulus to AVP secretion is the most efficacious treatment for acute EAH encephalopathy to date. The prompt administration of an intravenous (IV) bolus of hypertonic saline in the field or hospital setting can be lifesaving once EAH is documented. Conversely, oral sodium supplementation will not prevent the development of EAH encephalopathy if exuberant fluid intake combined with non-osmotic secretion of AVP occurs during prolonged physical activity. As a result, the seemingly paradoxical use of sodium supplementation as the most effective practical management therapy (IV bolus) and ineffective preventive strategy can be reconciled through a more complete understanding of the pathophysiological mechanisms underlying EAH.
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PMID:Practical management of exercise-associated hyponatremic encephalopathy: the sodium paradox of non-osmotic vasopressin secretion. 1861 87

Type 1 diabetes (T1D) is linked to an 'encephalopathy' explained by some features common to the aging process, degenerative and functional disorders of the central nervous system. In the present study we describe a manifest hyperactivity of the hypothalamic-pituitary-adrenal (HPA) axis in two different experimental mouse models of T1D including the pharmacological one induced by streptozotocin and the spontaneous NOD (nonobese diabetic mice). The high expression of hypothalamic hormones like oxytocin and vasopressin were part to this alteration, together with elevated adrenal glucocorticoids and prominent susceptibility to stress. In the hippocampus of diabetic animals a marked astrogliosis, often associated with neural damage, was present. Dentate gyrus neurogenesis was also affected by the disease: proliferation and differentiation measured by bromodeoxyuridine immunodetection were significantly reduced in both experimental models used. Several facts, including changes associated with chronic hyperglycemia, hyperstimulation of the HPA axis, increased levels of circulating glucocorticoids in combination with brain inflammation and low production of new neurons, contribute to emphasize the impact of diabetes on the central nervous system.
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PMID:Brain alterations in autoimmune and pharmacological models of diabetes mellitus: focus on hypothalamic-pituitary-adrenocortical axis disturbances. 1866 1

The case histories are presented of four athletes taking part in a 95-mile ultra-endurance foot race in Scotland who were hospitalised after developing exercise-associated hyponatraemia and rhabdomyolysis. Exercise-associated hyponatraemia is relatively uncommon in temperate climates. Risk factors disposing to this disorder are discussed. Exercise-associated hyponatraemia is thought to be due to overconsumption of hypotonic fluid with other associated pathophysiology including an inability to suppress fully antidiuretic hormone during exercise or to mobilise adequate sodium from osmotically inactive internal stores. Non-specific symptoms make this disorder difficult to diagnose on site without the assistance of serum sodium measurement, but any delay in treatment of patients with encephalopathy can prove fatal. Mainstays of treatment include fluid restriction, hypertonic saline, loop diuretics and mannitol.
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PMID:Hazards of ultra-marathon running in the Scottish Highlands: exercise-associated hyponatraemia. 1993 47

Central nervous system (CNS) complications during treatment of childhood acute lymphoblastic leukemia (ALL) remain a challenging clinical problem. Outcome improvement with more intensive chemotherapy has significantly increased the incidence and severity of adverse events. This study analyzed the incidence of neurological complications during ALL treatment in a single pediatric institution, focusing on clinical, radiological, and electrophysiological findings. Exclusion criteria included CNS leukemic infiltration at diagnosis, therapy-related peripheral neuropathy, late-onset encephalopathy, or long-term neurocognitive defects. During a 9-year period, we retrospectively collected 27 neurological events (11%) in as many patients, from 253 children enrolled in the ALL front-line protocol. CNS complications included posterior reversible leukoencephalopathy syndrome (n = 10), stroke (n = 5), temporal lobe epilepsy (n = 2), high-dose methotrexate toxicity (n = 2), syndrome of inappropriate antidiuretic hormone secretion (n = 1), and other unclassified events (n = 7). In conclusion, CNS complications are frequent events during ALL therapy, and require rapid detection and prompt treatment to limit permanent damage.
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PMID:Central nervous system complications during treatment of acute lymphoblastic leukemia in a single pediatric institution. 2047 Feb 18

The electrolyte imbalance in advanced cancer patients, including hyperkalemia, hypercalcemia and hyponatremia, can be induced by various factors. Hyperkalemia is occasionally induced by chemotherapy for very large malignant tumors, due to tumor lysis syndrome. Hypercalcemia and hyponatremia are often observed in patients with breast cancer, renal cancer, prostate cancer, and the like, as a paraneoplastic syndrome. Some part of hypercalcemia results from osteolysis, but the majority is induced by hormonal factors, such as parathyroid hormone-related protein. One of the paraneoplastic causes of hyponatremia is antidiuretic hormone-producing tumor. These disorders could be morbid or even motile, resulting from encephalopathy or arrhythmia in some cases. However, it should be kept in mind that they could be improved or cured by prompt treatment. Recently, after approval of the molecular targeted drugs for epidermal growth factor receptors, such as cetuximab and panitumumab, the incidence of hypomagnesia with use of these monoclonal antibodies, is relatively frequent. In addition, small molecular targeted drugs, such as m-TORinhibitors and ABL kinase inhibitors, also exert adverse reactions including hypomagnesia and hypophosphatemia. Careful monitoring of the serum concentration of magnesium and phosphate ions, to which little attention was paid previously, is a key issue in these cases.
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PMID:[Cancer and electrolytes imbalance]. 2056 1

Severe sepsis provokes significant abnormalities in host neuroendocrine system, and they are hallmarked by the glucocorticoid and growth hormone resistance, vasopressin deficiency, and compromised vagal activity. As a consequence, the increased stress hormones result in a hyperdynamic circulation, hypermetabolic state, and the hyperglycemia/insulin resistance in sepsis. The cardiac autonomic dysfunction also occurs as a consequence of depressed vagal activity. Current therapeutic strategies include insulin therapy to control hyperglycemia, physiologic doses of corticosteroids to improve immunity, growth hormone to reverse negative nitrogen balance, and vasopressin to raise blood pressure. Non-specific beta-adrenergic blockade has also been attempted to either attenuate the hypermetabolism or to reduce the inflammatory response. Future therapy may be directed at both central and peripheral immune system so as to alleviate the hyperdynamic inflammatory state and possibly encephalopathy in severe sepsis.
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PMID:[Neuroendocrine dysfunction in sepsis and its therapeutic strategy]. 2072 4


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