View clinical trials related to Hyponatremia.
Filter by:To evaluate the overall safety and continued efficacy of oral lixivaptan capsules in subjects with euvolemic and hypervolemic hyponatremia
Primary hypothesis: osmolality changes influence the sensitivity of the respiratory center to carbon dioxide, hyponatraemia causing hyperventilation, and hypernatraemia depressing ventilation. Secondary hypothesis: There are gender differences in the sensitivity to osmolality changes. 10 women and 10 men will on different occasions drink water or receive hypertonic saline intravenously, in order to lower or increase plasma osmolality. The women will participate during both faces of the menstruation cycle. On each occasion the subject´s sensitivity to carbon dioxide will be tested, and blood samples will be drawn for analysis of blood gases,electrolyte and osmolality.Subjects who interrupt participation before completion of all planned occasions, will be substituted, so that 10 subjects of either sex will have participated as planned. All results from all participants will be analyzed.
A study to compare a conivaptan PK in subjects with mild or moderate kidney function impairment to subjects with normal kidney function after a 48-hour continuous infusion of conivaptan.
Twenty adult volunteers will be administered Pico-Salax in the usual fashion for colonoscopy with intense monitoring of serum and urine chemistry and hemodynamics.
To demonstrate that after 12 weeks of open-label lixivaptan treatment, serum sodium is maintained in hyponatremic patients continuing to receive lixivaptan compared to placebo during the 4 week double blind treatment period.
The purpose of this study is to evaluate the safety and tolerability of oral lixivaptan capsules in subjects with Euvolemic Hyponatremia.
A study to compare a 48-hour continuous infusion of conivaptan in subjects with mild and moderate liver impairment versus subjects with normal liver function
This study will evaluate the safety and effectiveness of Conivaptan, a vasopressin antagonist, in the treatment of hyponatremic subjects having symptomatic acute decompensated heart failure (ADHF).
The aim of this study is to evaluate the effect of prolonged administration of albumin and midodrine on the prevention of complications (renal failure, sepsis, hemorrhage, hepatic encephalopathy and hyponatremia) in patients with cirrhosis in the waiting list for liver transplantation. One hundred and ninety four patients with cirrhosis and awaiting a liver transplantation will include in the study. Patients will be randomized to receive albumin and midodrine (treatment group) or administration of placebo (saline for albumine) and tablets with excipients without midodrine (control group). Patients will be followed-up during 12th months. In the treatment group albumin will be given at a dose of 40g every 15 days and midodrine 5mg tid, in addition with lactitol (conventional doses) and the specific treatment that patients require by cirrhosis. The group control will receive placebo in the same way than the treatment group in addition with lactitol and the specific treatment that they require by their disease. In all the patients liver and renal function test, hormones determination (renin, aldosterone, noradrenaline), and cytokines will be determined in basal conditions. All these determinations will be repeated at month 1st,3rd, 6th and 12th months. Before the inclusion in the study neuropsychological test and critical flicker test will be performed to diagnose minimum EH. These tests will be repeated at 3rd, 6th and 12th months. All the determinations will be repeated at any time that the patients develop any complication considered as an end point. In baseline conditions and at 3rd and 6th months a questionnaire of quality of life (SF36) will be performed. During a year of follow-up the number of paracentesis that patients require, the incidence of renal failure and EH and their relationship with hormonal activity and cytokine levels, free transplant survival and quality of life will be recorded.
Children who are undergoing surgery need intravenous fluids to prevent dehydration and maintain their electrolyte balance. The current standard of care in these children is to use a fluid which is low in sodium (hypotonic fluid). The safety of this practice has never been tested. There is ongoing concern from the medical community that this type of fluid increases the child's risk of developing low sodium levels, and hence may not be safe for all children. Low sodium can lead to significant complications such as seizures, coma and even death, risks of which are often underestimated and not anticipated by their caregivers. Experts in the field suggest that giving a solution with a similar sodium content to that of blood (isotonic fluid) reduces the risk of these problems in these children. This study will compare these two types of intravenous fluids (hypotonic versus isotonic), in a blinded fashion (i.e. neither the patient nor caregivers or investigators will be aware which type of fluid the patient is receiving), in children following surgery. The investigators goal is to see which type of fluid is safer, and leads to more stable sodium levels. This would in turn lead to a lower risk of complications as described above. This is the first time such a study is preformed in pediatrics. There are unnecessary number of complications and potential deaths from this disorder, and hence the safety of everyday fluid practice in children needs to be scientifically tested. The results of this study will enable the investigators to propose scientifically based guidelines on how to minimize risks associated with intravenous infusions in children.