Association between antidepressant drug use and hyponatraemia: a case-control study. (49/614)

AIMS: To estimate the risk of, and risk factors for, hyponatraemia associated with the use of selective serotonin reuptake inhibitors (SSRIs) compared with the use of other antidepressant drugs. METHODS: A case-control study of psychiatric in- and out-patients on antidepressant drugs performed in the mid-southern part of The Netherlands over a 2 year period. Cases (n=29) were all using antidepressant drugs with a serum sodium concentration of < or = 130 mmol l(-1) while controls (n=78) were patients on antidepressants with a normal sodium concentration (136-144 mmol l(-1)). Information on blood sodium concentrations was obtained from clinical chemistry data while information on drug use was obtained from community and hospital pharmacy databases. Medical records were used to ascertain possible risk and confounding factors. Unconditional multivariate logistic regression was used to estimate odds ratios for hyponatraemia in patients on SSRIs compared with patients on other antidepressant drugs. RESULTS: SSRIs were associated with an increased risk of hyponatraemia (OR 3.3; 95% CI 1.3, 8.6) compared with other classes of antidepressant drugs. Stratified and interaction analyses revealed that elderly patients using diuretics concomitantly with SSRIs were at the highest risk of experiencing hyponatraemia (OR 13.5; 95% CI 1.8, 101). CONCLUSIONS: SSRIs are more frequently associated with hyponatraemia than other classes of antidepressant drugs. This adverse drug reaction was more common in older patients (> or = 65 years) and in those using diuretics.  (+info)

Hyponatraemia and hyperglycaemia during laproscopic surgery. (50/614)

The aim of this masterclass is to develop a rational plan of therapy to deal with a severe degree of hyponatraemia (90 mmol/l) and hyperglycaemia (100 mmol/l) that occurred 100 min after the start of laproscopic surgery in a young woman. The lavage fluid used in this procedure was 10% dextrose.H(2)O in water (505 mmol glucose/l). To focus attention on specific issues, three questions are posed to the reader, as they were to a panel of 59 modern-day experts. Two imaginary consultants from the past were asked the same (and additional) questions. Their responses were restricted to knowledge available before the molecular era, to show the power of integrative physiology at the bedside. An analysis of intracellular events was helpful in answering the first question: 'Is an infusion of hypertonic saline required to treat her acute hyponatremia?' Similarly, a quantitative analysis of changes in the composition of the extracellular fluid compartment was helpful in answering the second question: 'Is an infusion of isotonic saline required to treat her hypotension?' A metabolic analysis was used to answer the third question, 'Should insulin be administered?'  (+info)

Preoperative hyponatremia as a clinical characteristic in elderly patients with large pituitary tumor. (51/614)

This study investigated the pathophysiology of preoperative hyponatremia in elderly patients with a large pituitary tumor. The tumor size, initial symptoms, and preoperative pituitary hormonal function were analyzed in 96 patients, consisting of 82 younger than 70 years old (mean age 49.7 years) and 14 older than 70 years old (mean age 72.0 years). There was no difference in tumor size between the two age groups. The initial symptom of all younger patients was visual disturbance. Preoperative hormonal evaluations revealed subclinical panhypopituitarism in four patients (4.9%). Five of the 14 older patients had severe hyponatremia (107-117 mEq/l) based on panhypopituitarism, and four of these five patients showed consciousness disturbance as the initial symptom, initiated by physical and/or psychological stress, or occurrence of intratumoral hemorrhage. Preoperative subclinical panhypopituitarism was found in another patient. The overall occurrence rate of preoperative panhypopituitarism in the older patients was 42.9%. The difference in the frequency of preoperative panhypopituitarism was statistically significant between the two groups. Preoperative severe hyponatremia associated with a large pituitary tumor is characteristic of elderly patients. The number of receptors for adrenocorticotropic hormone in the adrenal cortex decreases during the aging process. Additional physical and/or psychological stress prompts pituitary dysfunction in such patients, causing the manifestation of acute symptoms of adrenal insufficiency based on panhypopituitarism. Primary care using high dose hydrocortisone and electrolyte fluid is critical.  (+info)

The hyponatremic patient: a systematic approach to laboratory diagnosis. (52/614)

Hyponatremia (serum sodium level less than 134 mmol/L) is a common electrolyte disturbance. Its high prevalence and potential neurologic sequelae make a logical and rigorous differential diagnosis mandatory before any therapeutic intervention. A history of concurrent illness and medication use as well as the assessment of extracellular volume status on physical examination may provide useful clues as to the pathogenesis of hyponatremia. Measurement of the effective serum tonicity (serum osmolality less serum urea level) is the first step in the laboratory evaluation. In patients with normal or elevated effective serum osmolality (280 mOsm/kg or greater), pseudohyponatremia should be excluded. In the hypo-osmolar state (serum osmolality less than 280 mOsm/kg), urine osmolality is used to determine whether water excretion is normal or impaired. A urine osmolality value of less than 100 mOsm/kg indicates complete and appropriate suppression of antidiuretic hormone secretion. A urine sodium level less than 20 mmol/L is indicative of hypovolemia, whereas a level greater than 40 mmol/L is suggestive of the syndrome of inappropriate antidiuretic hormone secretion. Levels of hormones (thyroid-stimulating hormone and cortisol) and arterial blood gases should be determined in difficult cases of hyponatremia.  (+info)

Rapid (24-hour) reaccumulation of brain organic osmolytes (particularly myo-inositol) in azotemic rats after correction of chronic hyponatremia. (53/614)

It was recently demonstrated that renal failure and exogenous urea prevent myelinolysis induced by rapid correction of experimental hyponatremia. To determine why elevated blood urea levels favorably affect brain tolerance to osmotic stress, the changes in brain solute composition that occur when chronic hyponatremia is rapidly corrected were studied in rats with or without mercuric chloride-induced renal failure. After 48 h of hyponatremia, the brains of azotemic and nonazotemic animals became depleted of sodium, potassium, and organic osmolytes. Twenty-four hours after rapid correction of hyponatremia, the brains of animals without azotemia remained depleted of organic osmolytes, with little increase in myo-inositol or taurine contents above those observed in animals with uncorrected hyponatremia; brain electrolytes were rapidly reaccumulated, increasing the brain sodium content to a level 17% higher than values for normonatremic control animals. In contrast, within 2 h after correction of hyponatremia, brain myo-inositol contents in azotemic rats returned to control levels and brain taurine levels were significantly higher than those in azotemic animals with uncorrected hyponatremia (16.5 versus 9 micromol/g dry weight). There was no "overshooting" of brain sodium and water contents after rapid correction in the azotemic animals. Rapid reaccumulation of brain organic osmolytes after correction of hyponatremia could explain why azotemia protects against myelinolysis.  (+info)

An autopsy case of amyotrophic lateral sclerosis accompanied by syndrome of inappropriate secretion of antidiuretic hormone. (54/614)

We report an autopsy-confirmed case of amyotrophic lateral sclerosis (ALS) accompanied by syndrome of inappropriate secretion of antidiuretic hormone (SIADH). A 67-year-old man was admitted to our hospital with muscle weakness, dysarthria and dysphagia. During hospitalization, respiratory insufficiency was ingravescent, and hyponatremia, hypo-osmolarity, elevated osmotic pressure of urine, and elevated urinary sodium excretion were noted. Based on these findings we diagnosed ALS with SIADH, and treatment with infusion of concentrated NaCl was started. However, the patient died of respiratory failure on day 50. We assumed that severely restrictive ventilatory impairment was the cause of SIADH in this case.  (+info)

Hyponatraemic states following 3,4-methylenedioxymethamphetamine (MDMA, 'ecstasy') ingestion. (55/614)

BACKGROUND: Life-threatening and fatal hyponatraemic complications following ecstasy use have previously been documented. AIM: To define clinical features of hyponatraemia following the ingestion of 3,4-methylenedioxymethamphetamine (MDMA, 'ecstasy'). DESIGN: Retrospective case series. METHODS: All enquiries to the London centre of the National Poisons Information Service (NPIS) between December 1993 and March 1996 were screened for cases of MDMA use associated with hyponatraemia (serum sodium <130 mmol/l). History of fluid consumption, presenting features and subsequent clinical course were recorded. RESULTS: Seventeen patients, aged 15-26 years, were identified. Serum sodium levels ranged between 107 mmol/l and 128 mmol/l. In six patients, biochemical results were consistent with inappropriate secretion of antidiuretic hormone (SIADH). Analytical confirmation of MDMA ingestion was obtained in 10 patients. Ten patients were known to have ingested a large amount of non-alcoholic or alcoholic fluid. The clinical pattern was remarkably uniform, with initial vomiting and disturbed behaviour, followed in 11 patients by seizures. Drowsiness, a mute state and disorientation were observed for up to 3 days. Two patients died; 14 made a complete recovery. DISCUSSION: MDMA can cause life-threatening hyponatraemic encephalopathy when accompanied by excessive fluid ingestion. The mechanism involves inappropriate secretion of antidiuretic hormone.  (+info)

Acute hyponatraemia and 'ecstasy': insights from a quantitative and integrative analysis. (56/614)

A 20-year-old woman attended a 'rave party' where she took the drug 3,4-methylenedioxymethamphetamine (MDMA, 'ecstasy'). She had used this drug previously without serious adverse effects. On this occasion, while both she and her friends drank a large quantity of water, only she became seriously ill. The initial manifestation was an altered sensorium; several hours later she had a grand mal seizure. In the Emergency Department, the most striking features were the severe degree of hyponatraemia (112 mmol/l) and cerebral oedema. To explain the basis for this life-threatening clinical presentation, an imaginary consultation was sought with Professor McCance. Using both a deductive and a quantitative analysis that involved several medical subspecialties, he illustrated that a simple story of water ingestion and vasopressin release was not sufficient to explain her hyponatraemia. It was only after events in her gastrointestinal tract were analysed that a plausible hypothesis could be constructed.  (+info)