Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0042963 (vomiting)
31,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypomagnesemia in childhood is relatively frequently noted in the neonatal period due to maternal causes, such as decreased intake due to vomiting, overuse of laxatives, and neonatal causes such as intrauterine growth retardation, birth asphyxia and exchange transfusion. A very rare cause of neonatal magnesium deficiency is called primary hypomagnesemia caused by impaired intestinal absorption of magnesium. Reference values of serum magnesium in cord blood are slightly lowered. Erythrocyte magnesium content is also lowered in cord blood and during the first month after birth. Mononuclear magnesium content shows no differences with age. Renal magnesium loss is diagnosed by the presence of hypomagnesemia with an inappropriately high 24-hour urinary magnesium excretion. In isolated familial hypomagnesemia an autosomal dominant as well as an autosomal recessive mode of inheritance was found. The renal magnesium threshold is lowered in both forms but the tubular maximum is only lowered in the dominant form. In familial hypomagnesemia-hypokalemia (Gitelman syndrome) the renal magnesium threshold is lowered but the tubular maximum is in the normal range. In this syndrome, with probably an autosomal recessive mode of inheritance, the renal defect might be located in the distal nephron after the medullary part of the ascending limb of the loop of Henle. The magnesium content of mononuclear cells and erythrocytes is in the normal and lower normal range, respectively. In the familial hypomagnesemia-hypercalciuria syndrome, hypomagnesemia is always combined with hyperuricemia and nephrocalcinosis. Myopia and horizontal nystagmus are often present.
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PMID:Magnesium metabolism in childhood. 826 18

Bartter's syndrome (BS) is a disease with severe hypokalaemia due to renal potassium wasting. The potassium loss is due to lesions at different sites within the renale tubule. Additional features include metabolic alkalosis, excess renal production of prostaglandins, hyperreninaemia, hyperaldosteronism and impaired pressor responses to exogenous angiotensin II. These secondary features are the result of renal potassium wasting. Symptoms are due to potassium deficiency, but many adult patients feel well despite marked hypokalaemia. The hypocalciuric variant of BS is called Gitelman's syndrome. These patients have a more benign course. The diagnosis of BS is one of exclusion, mainly of surreptitious vomiting, diuretic or laxative abuse. The primary treatment is potassium supplementation often in combination with potassium-sparing diuretics, prostaglandin inhibitors or ACE-inhibitors. With coexisting magnesium deficiency, magnesium supplementation might be effective.
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PMID:[Bartter's syndrome. A condition with chronic hypokalemia]. 896 74

Gitelman's syndrome was diagnosed in five siblings. The parents were relatives in the third remove. Gitelman's syndrome is a rare autosomal recessive hereditary magnesium reabsorption defect in the distal tubule. It is characterized by episodes of muscle weakness, usually accompanied by abdominal pain and vomiting. Tetany may occur during a febrile illness. Patients are of normal height and weight and have normal blood pressures. Sometimes eczematous skin lesions are found. Biochemically there is hypokalaemia, hypomagnesaemia and alkalosis. Urinary excretion rates of potassium and magnesium are elevated, the excretion of calcium is diminished. Treatment consists of oral suppletion of magnesium, sometimes also with oral potassium. A potassium-sparing diuretic may be used. The prognosis appears to be good.
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PMID:[5 children with hypokalemia, hypomagnesemia and hypocalciuria (Gitelman syndrome) in one family]. 954 87

A 29-year-old man, who had been treated with potassium, spironolactone and indomethacin for over 9 years, was admitted because of nausea, vomiting, diarrhea and tetany manifestation. At the age of 20, he had been diagnosed as having Bartter's syndrome according to the criteria of the Japanese Ministry of Health and Welfare. Findings on admission were hypokalemia, hypomagnesemia and hypocalciuria. Renal distal fractional reabsorption rates of sodium, chloride and calcium were markedly decreased by administration of furosemide but there was no obvious change with administration of thiazide. These findings indicate that the patient had Gitelman's syndrome rather than Bartter's syndrome.
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PMID:Gitelman's syndrome first diagnosed as Bartter's syndrome. 1168 24

Bartter's syndrome is characterized by hypochloremia, hypokalemia, metabolic alkalosis associated with renal potassium leakage, and normal blood pressure despite increased plasma renin activity. Although association of empty sella with Gitelman syndrome has been reported, no association has been reported with Bartter's syndrome. Here we report a patient with Bartter's syndrome and empty sella. A 12 month-old male patient presented with a history of nausea, vomiting, abdominal distension, constipation, and edema in the lower extremities that had begun in the early postnatal period. The patient was born at 32 weeks gestation by operative delivery for polyhydramnios. Blood pressure was normal. Serum sodium, potassium, calcium, phosphate, chloride, albumin and alkaline phosphatase levels were 129 mEq/l, 2.5 mEq/l, 9 mg/dl, 3.8 mg/dl, 72 mg/dl, 4.2 g/dl and 1285 IU/l, respectively. Serum magnesium level was normal. Arterial blood gas levels revealed pH 7.55 (normal, 7.35-7.45), PCO2 33.6 mm/Hg (36-46), base excess +7.1 (+/- 2.3), and total CO2 33.6 mmol/l (23-27). Renin and aldosterone levels were elevated. Urine had pH 8.0 and specific gravity 1.010. Urinary calcium excretion was 22.8 kg/day (urine calcium/creatinine ratio 0.46). Urinary potassium and chloride levels were elevated. MRI of the brain was normal except for partially empty sella. We present the first pediatric patient with the association of Bartter's syndrome and empty sella.
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PMID:Association of Bartter's syndrome and empty sella. 1451 87

A 56-year-old mentally retarded Japanese woman (intelligence quotient: 49) was admitted to our hospital with the chief complaints of headache, dizziness, vomiting, and lower limb paralysis. Laboratory tests showed severe hypokalemia, metabolic alkalosis, hypomagnesemia, and hypocalciuria. These findings suggested a diagnosis of Gitelman's syndrome (GS). We examined the thiazide-sensitive Na-Cl cotransporter (TSC) gene for the mutations that can be responsible for Gitelman's syndrome, and confirmed the diagnosis. After potassium and magnesium supplementation, her paralysis improved dramatically. The marriage of her parents was consanguineous. She had nine siblings (all with mental retardation), among whom five had died of unknown causes during childhood. Familial mental retardation has never been detected before in Gitelman's syndrome. Here we report a rare case of Gitelman's syndrome with familial mental retardation.
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PMID:Gitelman's syndrome with mental retardation. 1654 91

Although the diagnosis of Gitelman syndrome (GS) and Bartter syndrome (BS) is now feasible by genetic analysis, implementation of genetic testing for these disorders is still hampered by several difficulties, including large gene dimensions, lack of hot-spot mutations, heavy workup time, and costs. This study evaluated in a cohort of patients with genetically proven GS or BS diagnostic sensibility and specificity of a diuretic test with oral hydrochlorothiazide (HCT test). Forty-one patients with GS (22 adults, aged 25 to 57; 19 children-adolescents, aged 7 to 17) and seven patients with BS (five type I, two type III) were studied; three patients with "pseudo-BS" from surreptitious diuretic intake (two patients) or vomiting (one patient) were also included. HCT test consisted of the administration of 50 mg of HCT orally (1 mg/kg in children-adolescents) and measurement of the maximal diuretic-induced increase over basal in the subsequent 3 h of chloride fractional clearance. All but three patients with GS but no patients with BS and pseudo-BS showed blunted (<2.3%) response to HCT; patients with BS and the two patients with pseudo-BS from diuretic intake had increased response to HCT. No overlap existed between patients with GS and both patients with BS and pseudo-BS. The response to HCT test is blunted in patients with GS but not in patients with BS or nongenetic hypokalemia. In patients with the highly selected phenotype of normotensive hypokalemic alkalosis, abnormal HCT test allows prediction with a very high sensitivity and specificity of the Gitelman genotype and may avoid genotyping.
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PMID:A thiazide test for the diagnosis of renal tubular hypokalemic disorders. 1770 May 53

Gitelman syndrome (GS), also referred to as familial hypokalemia-hypomagnesemia, is characterized by hypokalemic metabolic alkalosis in combination with significant hypomagnesemia and low urinary calcium excretion. The prevalence is estimated at approximately 1:40,000 and accordingly, the prevalence of heterozygotes is approximately 1% in Caucasian populations, making it one of the most frequent inherited renal tubular disorders. In the majority of cases, symptoms do not appear before the age of six years and the disease is usually diagnosed during adolescence or adulthood. Transient periods of muscle weakness and tetany, sometimes accompanied by abdominal pain, vomiting and fever are often seen in GS patients. Paresthesias, especially in the face, frequently occur. Remarkably, some patients are completely asymptomatic except for the appearance at adult age of chondrocalcinosis that causes swelling, local heat, and tenderness over the affected joints. Blood pressure is lower than that in the general population. Sudden cardiac arrest has been reported occasionally. In general, growth is normal but can be delayed in those GS patients with severe hypokalemia and hypomagnesemia.GS is transmitted as an autosomal recessive trait. Mutations in the solute carrier family12, member 3 gene, SLC12A3, which encodes the thiazide-sensitive NaCl cotransporter (NCC), are found in the majority of GS patients. At present, more than 140 different NCC mutations throughout the whole protein have been identified. In a small minority of GS patients, mutations in the CLCNKB gene, encoding the chloride channel ClC-Kb have been identified.Diagnosis is based on the clinical symptoms and biochemical abnormalities (hypokalemia, metabolic alkalosis, hypomagnesemia and hypocalciuria). Bartter syndrome (especially type III) is the most important genetic disorder to consider in the differential diagnosis of GS. Genetic counseling is important. Antenatal diagnosis for GS is technically feasible but not advised because of the good prognosis in the majority of patients.Most asymptomatic patients with GS remain untreated and undergo ambulatory monitoring, once a year, generally by nephrologists. Lifelong supplementation of magnesium (magnesium-oxide and magnesium-sulfate) is recommended. Cardiac work-up should be offered to screen for risk factors of cardiac arrhythmias. All GS patients are encouraged to maintain a high-sodium and high potassium diet. In general, the long-term prognosis of GS is excellent.
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PMID:Gitelman syndrome. 1866 63

In situations where the cause of hypokalemia is not obvious, measurement of urinary potassium excretion and blood pressure and assessment of acid-base balance are often helpful. A random urine potassium-creatinine ratio (K/C) less than 1.5 suggests poor intake, gastrointestinal losses, or a shift of potassium into cells. If hypokalemia is associated with paralysis, we should consider hyperthyroidism, familial or sporadic periodic paralysis. Metabolic acidosis with a urine K/C ratio less than 1.5 suggests lower gastrointestinal losses due to diarrhea or laxative abuse. Metabolic acidosis with K/C ratio of 1.5 higher is often due to diabetic ketoacidosis or type 1 or type 2 distal renal tubular acidosis. Metabolic alkalosis with a K/C ratio less than 1.5 and a normal blood pressure is often due to surreptitious vomiting. Metabolic alkalosis with a higher K/C ratio and a normal blood pressure suggests diuretic use, Bartter syndrome, or Gitelman syndrome. Metabolic alkalosis with a high urine K/C ratio and hypertension suggests primary hyperaldosteronism, Cushing syndrome, congenital adrenal hyperplasia, renal artery stenosis, apparent mineralocorticoid excess, or Liddle syndrome. Hypomagnesemia can lead to increased urinary potassium losses and hypokalemia. The differential rests upon measurement of blood magnesium, aldosterone and renin levels, diuretic screen in urine, response to spironolactone and amiloride, measurement of plasma cortisol level and the urinary cortisol-cortisone ratio, and genetic testing.
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PMID:Diagnosis of hypokalemia: a problem-solving approach to clinical cases. 1937 23

Hypokalemia, defined as a plasma potassium concentration <3.5 mmol/l, is the most common electrolyte abnormality encountered in our clinical practice. Unfortunately, in many cases, the etiologies were unclear and resulted in a wrong treatment. Indeed, the true etiology could be such a 'rare' one and could be found by doing a comprehensive work up. One of this is Gitelman's syndrome, a rare genetic disorder characterized by hypokalemic alkalosis, hypomagnesemia, hypocalciuria, and secondary aldosteronism without hypertension. Since this disorder is found in 1% Caucasian populations, this is one of the most frequently inherited renal tubular disorders. A 27 year old man came to emergency room with weakness and generalised muscle cramps. He was investigated three months before for a similar electrolyte disturbance which was found to be inconclusive. The routine laboratory data in emergency room revealed a potassium concentration of 2.3 mmol/l. He had never used diuretics or hormonal therapy nor had history of vomiting or diarrhea. He had normal blood pressure and the blood gas analysis revealed metabolic alkalosis. On his ECG (electrocardiography), we found the prominent U wave. Despite his low concentration of serum potassium and cloride, the concentration of these electrolytes in urine were extremely high. We also found hipomagnesemia. The calcium concentration in serum was normal with slightly hypocalciuria. Even with aggressive oral and intravenous potassium suplementation, the patient remained hypokalemic. In cases when the etiology of hypokalemia is unclear, we should perform some investigations to confirm the diagnosis and give the proper treatment. In Gitelman's syndrome, where the defect in the distal tubule cannot be corrected, the treatment must be a life-long. Most patients require oral potassium and magnesium supplementation, since drug therapy is usually incompletely effective.
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PMID:Diagnosis and clinical approach in Gitelman's syndrome. 2133 46


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