Morbidity Associated with Chronic Hyponatremia.

This article will discuss the consequences of chronic hyponatremia. In conditions such as cancer, heart failure, liver cirrhosis, or chronic kidney disease, the presence and magnitude of hypotonic hyponatremia are considered to reflect the severity of the underlying disease and are associated with increased morbidity as well as mortality. Hyponatremia can be acute (<48 h) or chronic (>2-3 days). Chronic hyponatremia is associated with attention deficit, dizziness, tiredness, gait disturbance, falls, sarcopenia, bone fractures, osteoporosis, hypercalciuria (in the syndrome of inappropriate antidiuresis-SIADH), and kidney stones. In vitro studies have shown that cells grown in a low concentration of extracellular sodium have a greater proliferation rate and motility. Patients with chronic hyponatremia are more likely to develop cancer. We will not review the clinical consequences of respiratory arrest and osmotic demyelination syndrome (ODS) of the too-late or excessive treatment of hyponatremia.

Actual Therapeutic Indication of an Old Drug: Urea for Treatment of Severely Symptomatic and Mild Chronic Hyponatremia Related to SIADH.

Oral urea has been used in the past to treat various diseases like gastric ulcers, liver metastases, sickle cell disease, heart failure, brain oedema, glaucoma, Meniere disease, etc. We have demonstrated for years, the efficacy of urea to treat euvolemic (SIADH) or hypervolemic hyponatremia. We briefly describe the indications of urea use in symptomatic and paucisymptomatic hyponatremic patients. Urea is a non-toxic, cheap product, and protects against osmotic demyelinating syndrome (ODS) in experimental studies. Prospective studies showing the benefit to treat mild chronic hyponatremia due to SIADH and comparing water restriction, urea, high ceiling diuretics, and antivasopressin antagonist antagonist should be done.

Phagocyte-specific S100A8/A9 protein levels during disease exacerbations and infections in systemic lupus erythematosus.

OBJECTIVE: S100A8 and S100A9 are calcium binding proteins of the S100 family highly expressed in neutrophils and monocytes. S100 proteins are novel ligands of TLR4 important in modulating inflammation. High levels of S100A8/A9 found in human inflammatory diseases are a marker of disease activity in rheumatoid arthritis (RA) and juvenile rheumatoid arthritis (JRA). We determined levels of S100A8/A9 in sera of patients with systemic lupus erythematosus (SLE) and analyzed their relation to clinical variables of disease activity. METHODS: A group of 93 patients with SLE were studied over a period of 3 years, and 143 serum samples were analyzed. S100A8/A9 serum concentrations were determined by a sandwich ELISA. Sera from 10 primary Sjögren's syndrome (pSS) patients and 50 healthy volunteers were used as controls. Correlations to SLEDAI, ANA, anti-dsDNA, WBC, CH50, C4, and CRP were made. In addition, infections were recorded in all SLE patients. RESULTS: Serum levels of S100A8/A9 were significantly (p = 0.04) higher in SLE patients (1412 +/- 664 ng/ml) versus healthy controls (339 +/- 35 ng/ml) and pSS patients (400 +/- 85 ng/ml). The only significant correlation (r = 0.219; p = 0.015) was found was between S100A8/A9 and SLEDAI. Further, SLE patients with concomitant infections had higher serum levels of S100A8/A9 (39300 +/- 13375 ng/ml) than those without infections (1150 +/- 422 ng/ml). CONCLUSION: Serum levels of S100A8/A9 are significantly raised in SLE versus pSS patients and healthy controls and can be correlated to a disease activity index. S100A8/A9 is a more relevant marker of infection in SLE patients.

Treatment of hyponatraemia by urea decreases risks of brain complications in rats. Brain osmolyte contents analysis.

BACKGROUND: Brain damage (myelinolysis) develops in hyponatraemia after a large increase in serum sodium regardless of the currently available methods of correction. However, a preliminary study suggests that treatment of hyponatraemia with urea limits the risks of brain lesions in rats. Benefits of sustained high blood levels of urea and mechanisms of protection remain hypothetical. METHODS: In the first part of the study, hyponatraemic rats received repeated (i.p.) doses of urea (2 g/kg b.w./6 h) leading to sustained blood levels (urea+/-230 mg/dl). Neurologic outcome was compared to correction of hyponatraemia by water diuresis. In the second part of the study, we analysed the adaptative response of the brain to correction of hyponatraemia with either urea or water diuresis, by measurement of cerebral osmolyte contents. RESULTS: Despite a large correction of the serum sodium (mean Delta SNa=32 mEq/l/24 h), mortality rate (13%) and neurological symptoms were low in the urea-treated group contrary to control groups treated by water diuresis (mortality: 87%). This shows with stronger evidence the protective effect of urea against brain myelinolysis. In the second part, analysis of brain composition shows that, in the urea groups, 24 h after correction, intracerebral hyperionization (NaCl) was avoided and brain water contents remained normal. No significant changes of the major brain organic osmolyte composition were observed after urea administration except reaccumulation of betaine. No difference in brain composition was noted regarding concomitant plasma urea levels (>or<150 mg/dl). In rats treated by water diuresis, the brain remained also significantly depleted in organic osmolytes 24 h after correction, but contrary to administration of urea, this treatment was associated with a high mortality rate. CONCLUSIONS: These comparative results suggest a specific brain-protective effect of urea itself against myelinolysis.

Periostitis and hypertrophic osteoarthropathy: etiologies and bone scan patterns in 115 cases.

BACKGROUND: Periostitis, usually seen on X-ray, may be diagnosed on bone scan as non-nodular cortical bone hyperactivity. Both the complete form (including clubbing, arthritis and periostitis) and the incomplete form have been described in association with chronic pulmonary disease, neoplasm, hepatopathy and inflammatory bowel disease. It is not known whether the bone scan pattern of non-nodular cortical bone hyperactivity varies with the etiology. METHODS: We conducted a retrospective study to analyze the etiologies and bone scan patterns of 115 cases of non-nodular cortical bone hyperactivity. RESULTS: Eighty percent of our patients were asymptomatic. Thirty-four percent of all cases of periostitis (all bilateral) were associated with cancer. The rate of cancer in cases of periostitis involving both lower limbs was 28.5%; it was 61.3% when both lower and upper limbs were involved. The duration of the disease was not correlated with either the distribution of periostitis or the intensity of uptake. Moreover, the intensity of uptake was not correlated with the importance of the symptomatology. Bone scan pattern (regular versus heterogenous uptake, localized versus diffuse uptake) was not correlated with the etiology. CONCLUSIONS: Bilateral upper and lower uptake should alert the clinician to the risk of association with neoplasm. Bone scan pattern and intensity of uptake are not necessarily correlated with etiology.

Low sodium excretion in SIADH patients with low diuresis.

UNLABELLED: It is well known that during low diuresis or low effective circulating volume, salt excretion is low. The aim of this study was to find out whether salt excretion, expressed as either urinary sodium concentration (UNa) or fractional sodium excretion (FENa), and the combined use of FENa and fractional urea excretion (FEurea) still differentiate between hyponatremic SIADH and hyponatremic salt depletion (SD) patients when diuresis is low. The relationships between UNa, FENa and diuresis, indirectly estimated by the urinary to plasma creatinine ratio (U/P creat), were studied in 42 hyponatremic SIADH patients, 21 hyponatremic SD patients and 66 normonatremic controls (CO) of similar age and sex ratio. There was no significant relationship between UNa and U/P creat either in SIADH or in SD or CO patients. FENa and U/P creat were inversely correlated, both in CO (r = -0.72; p < 0.001) and in SIADH (r = -0.68; p < 0.001). SIADH and SD patients can be fairly well differentiated from one another using FENa and U/P creat. Even with high U/P creat values, SIADH patients, despite a sharp decrease in their FENa values, presented still higher FENa values than SD patients did (mean FENa = 0.3 +/- 0.2% in SIADH and 0.1 +/- 0.04% in SD; p < 0.05). However, FENa values of SIADH patients with low diuresis (mean FENa = 0.3 +/- 0.2% for a mean U/P creat = 191 +/- 40) are indistinguishable from those of SD patients with normal urine volumes (mean FENa = 0.2 +/- 0.2% for a mean U/P creat = 92 +/- 30). The combined use of FENa and FEurea remains a reliable way to discriminate SD patients and SIADH patients, as far as the differential limit value for FENa is narrowed to a value of 0.15%, for hyponatremic patients with U/P creat >140. CONCLUSION: In SIADH, FENa values are lower than 0.5%, as soon as U/P creat exceeds a value of 180. In SD patients with U/P creat values exceeding 140, FENa is lower than 0.15% and FEurea lower than 45%.