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Gitelman Syndrome (gitelman + syndrome)

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Medical Sciences100%

Selected Abstracts

Inactivation of the Na-Cl Co-Transporter (NCC) Gene Is Associated With High BMD Through Both Renal and Bone Mechanisms: Analysis of Patients With Gitelman Syndrome and Ncc Null Mice,

JOURNAL OF BONE AND MINERAL RESEARCH, Issue 5 2005
Laurence Nicolet-Barousse
Abstract Chronic thiazide treatment is associated with high BMD. We report that patients and mice with null mutations in the thiazide-sensitive NaCl cotransporter (NCC) have higher renal tubular Ca reabsorption, higher BMD, and lower bone remodeling than controls, as well as abnormalities in Ca metabolism, mainly caused by Mg depletion. Introduction: Chronic thiazide treatment decreases urinary Ca excretion (UVCa) and increases BMD. To understand the underlying mechanisms, Ca and bone metabolism were studied in two models of genetic inactivation of the thiazide-sensitive NaCl cotransporter (NCC): patients with Gitelman syndrome (GS) and Ncc knockout (Ncc,/,) mice. Materials and Methods: Ca metabolism was analyzed in GS patients and Ncc,/, mice under conditions of low dietary Ca. BMD was measured by DXA in patients and mice, and bone histomorphometry was analyzed in mice. Results: GS patients had low plasma Mg. They exhibited reduced UVCa, but similar serum Ca and GFR as control subjects, suggesting increased renal Ca reabsorption. Blood PTH was lower despite lower serum ionized Ca, and Mg repletion almost corrected both relative hypoparathyroidism and low UVCa. BMD was significantly increased in GS patients at both lumbar (+7%) and femoral (+16%) sites, and osteocalcin was reduced. In Ncc,/, mice, serum Ca and GFR were unchanged, but UVCa was reduced and PTH was elevated; Mg repletion largely corrected both abnormalities. Trabecular and cortical BMD were higher than in Ncc+/+ mice (+4% and +5%, respectively), and despite elevated PTH, were associated with higher cortical thickness and lower endosteal osteoclastic surface. Conclusions: Higher BMD is observed in GS patients and Ncc,/, mice. Relative hypoparathyroidism (human) and bone resistance to PTH (mice), mainly caused by Mg depletion, can explain the low bone remodeling and normal/low serum Ca despite increased renal Ca reabsorption. [source]

Hypokalaemia and failure to thrive: report of a misleading onset

JOURNAL OF PAEDIATRICS AND CHILD HEALTH, Issue 5 2010
Giovanni Conti
Aim: We report a case of Gitelman Syndrome (GS) in a 9-year-old girl, previously diagnosed as a Bartter syndrome at one year of life. Methods: She had been treated with potassium, for over 8 years and was admitted because of fatigue, numbness and weakness of both legs. The patient has typical laboratory findings, including hypokalemia, metabolic alkalosis, hypomagnesemia, and hypocalciuria, thus GS was suspected. Results: Genetic analysis was performed two mutations IVS9(+1)G>T were detected in the thiazide-sensitive Na-Cl cotransporter (TSC) gene (SLC12A3), thus she was diagnosed as having GS. She was treated with oral potassium and magnesium supplements with resolution of the symptoms. Conclusion: This case reminded us that doctors should be alert to the initial presentation of renal tubular diseases. Detailed electrolyte analysis, hormone evaluations and clinic follow-up are mandatory for their correct differential diagnosis. [source]

Inactivation of the Na-Cl Co-Transporter (NCC) Gene Is Associated With High BMD Through Both Renal and Bone Mechanisms: Analysis of Patients With Gitelman Syndrome and Ncc Null Mice,

JOURNAL OF BONE AND MINERAL RESEARCH, Issue 5 2005
Laurence Nicolet-Barousse
Abstract Chronic thiazide treatment is associated with high BMD. We report that patients and mice with null mutations in the thiazide-sensitive NaCl cotransporter (NCC) have higher renal tubular Ca reabsorption, higher BMD, and lower bone remodeling than controls, as well as abnormalities in Ca metabolism, mainly caused by Mg depletion. Introduction: Chronic thiazide treatment decreases urinary Ca excretion (UVCa) and increases BMD. To understand the underlying mechanisms, Ca and bone metabolism were studied in two models of genetic inactivation of the thiazide-sensitive NaCl cotransporter (NCC): patients with Gitelman syndrome (GS) and Ncc knockout (Ncc,/,) mice. Materials and Methods: Ca metabolism was analyzed in GS patients and Ncc,/, mice under conditions of low dietary Ca. BMD was measured by DXA in patients and mice, and bone histomorphometry was analyzed in mice. Results: GS patients had low plasma Mg. They exhibited reduced UVCa, but similar serum Ca and GFR as control subjects, suggesting increased renal Ca reabsorption. Blood PTH was lower despite lower serum ionized Ca, and Mg repletion almost corrected both relative hypoparathyroidism and low UVCa. BMD was significantly increased in GS patients at both lumbar (+7%) and femoral (+16%) sites, and osteocalcin was reduced. In Ncc,/, mice, serum Ca and GFR were unchanged, but UVCa was reduced and PTH was elevated; Mg repletion largely corrected both abnormalities. Trabecular and cortical BMD were higher than in Ncc+/+ mice (+4% and +5%, respectively), and despite elevated PTH, were associated with higher cortical thickness and lower endosteal osteoclastic surface. Conclusions: Higher BMD is observed in GS patients and Ncc,/, mice. Relative hypoparathyroidism (human) and bone resistance to PTH (mice), mainly caused by Mg depletion, can explain the low bone remodeling and normal/low serum Ca despite increased renal Ca reabsorption. [source]

Identification of five novel variants in the thiazide-sensitive NaCl co-transporter gene in Chinese patients with Gitelman syndrome

NEPHROLOGY, Issue 1 2009
LING QIN
SUMMARY Aim: Gitelman syndrome (GS) is an autosomal recessive renal tubulopathy characterized by hypokalaemic metabolic alkalosis, significant hypomagnesemia, low urinary calcium, secondary aldosteronism and normal blood pressure. GS is caused by inactivating variants in the SLC12A3 gene, which encodes the thiazide-sensitive NaCl co-transporter. So far, more than 100 variants have been described in the SLC12A3 gene in Gitelman syndrome. Methods: Biochemical parameters in blood and urine were measured and documented. Genomic DNA was extracted from peripheral blood of all patients. Variants were screened for the SLC12A3 and CLCNKB gene by sequencing directly. Reverse-transcription polymerase chain reaction and complementary DNA sequence analysis were performed to confirm deletion or splicing variants. Results: We identified 13 variants in the SLC12A3 gene in 13 Chinese patients, including 10 missense substitutions, two splicing variants, and one deletion/insertion variant. Five novel variants were identified for the first time in patients with Gitelman syndrome. We did not find any variants in the CLCNKB gene. A homozygous Thr60Met carrier suffered from hypothyroidism and received thyroxine replacement therapy. Conclusion: We have identified 13 variants, including five novel variants in the SLC12A3 gene in 13 patients with Gitelman syndrome. T60M is the most frequent variant in our patients. There was no significant correlation between genotype and phenotype in our patients. [source]

Myocardial perfusion defects in Bartter and Gitelman syndromes

EUROPEAN JOURNAL OF CLINICAL INVESTIGATION, Issue 12 2008
R. Scognamiglio
ABSTRACT Background, Normotensive hypokalaemic tubulopathies (Bartter and Gitelman syndromes (BS/GS)) are genetic diseases that are considered benign. However, QT prolongation, left ventricular dysfunction and reduction of cardiac index upon exercise leading to arrhythmias and sudden cardiac death have been reported in these patients. Hence, we aimed to verifying whether an isometric exercise could represent a useful tool for the identification of patients at risk for future cardiac events. Patients and methods, Myocardial function (MF) and perfusion, evaluated as myocardial blood flow (MBF) of 10 BS/GS patients and 10 healthy controls, were investigated at rest and during isometric exercise. MF and MBF were evaluated using quantitative two-dimensional and myocardial contrast echocardiography. Results, BS/GS patients had normal baseline MF and MBF. During exercise in BS/GS patients, corrected QT (QTc) was prolonged to peak value of 494 ± 9·1 ms (P < 0·001). In controls, MF increased from resting to peak exercise (left ventricular ejection fraction: 65 ± 4% to 78 ± 5%, P < 0·003) while in seven BS/GS patients (Group 1) it declined (64 ± 5% to 43 ± 9%, P < 0·001). Myocardial perfusion increased upon exercise in controls as shown by changes of its markers: , (a measure of myocardial flow velocity; 0·89 ± 0·12 vs. 0·99 ± 0·12, P < 0·001) and myocardial blood volume (14·4 ± 2 vs. 20·2 ± 0·25, P < 0·001), while in Group 1 BS/GS it decreased (0·87 ± 0·15 vs. 0·67 ± 0·15, P < 0·001; and 14·5 ± 1·9 vs. 8·3 ± 0·22, P < 0·001, respectively). Conclusions, Our results document for the first time that exercise induce coronary microvascular and myocardial defects in BS/GS patients. Therefore, this may challenge the idea that BS/GS are benign diseases. In addition, the diagnostic approach to these syndromes should include an in-depth cardiac assessment in order to identify patients at higher risk. [source]

Eplerenone in the treatment of Gitelman's syndrome

INTERNAL MEDICINE JOURNAL, Issue 5 2008
A. Morton
No abstract is available for this article. [source]