7 Clinical Trials for Various Conditions
Many patients with traumatic brain injuries (including strokes, blood clots, or other brain injuries) are given concentrated salt water solutions (hypertonic saline) in order to treat brain swelling (cerebral edema). Current therapies consist of a mixture of sodium and chloride, which can lead to high levels of serum chloride and increased total body water. High levels of chloride can cause acidosis, which can cause the body to function sub-optimally. Therefore, the investigators are proposing to use two concentrated solutions in these patients at the same time that will allow for a lower total volume of solution administration and reduce the rise in chloride to prevent acidosis. The main outcome will therefore be the patients sodium level, chloride level and serum pH.
The purpose of this study is to determine whether nebulized 3% hypertonic saline (HS) improves respiratory distress in children 2-23 months presenting to the emergency department (ED) with acute bronchiolitis with persistent respiratory distress after initial therapy with a trial of nebulized albuterol.
Subarachnoid hemorrhage (SAH) occurs after rupture of cerebral aneurysms. Treatment of SAH focuses on avoiding medical complications including cerebral vasospasm, which may result in limited circulation to the brain. Cerebral vasospasm, or thinning of the arteries of the brain, is a feared complication that could potentially cause stroke and worst outcomes after SAH. Hypertonic saline (HTS) is a compound that may be used to prevent vasospasm following SAH by enhancing the circulation in the brain. This study will evaluate if a protocol of volume expansion with HTS is safe and effective in patients with subarachnoid hemorrhage for the prevention of cerebral vasospasm.
The purpose of this study is to compare high dose furosemide in combination with low volume hypertonic saline solution (2.4%) with intermittent pulse dose furosemide in patients with pre treatment kidney function impairment. The hypothesis is that it will provide effective diuretic response and have a beneficial effect on preservation of renal function as compared to pulse furosemide in patients with pre-treatment renal impairment (GFR \< 60 mL/min).
At present the standard management of fluid overload in patients with congestive heart failure (CHF) involves limiting the intake of salt and water while administering high dose diuretics, often at the cost of deteriorating kidney function. However, another group of researchers has previously shown that intravenously infusing small volumes of concentrated saline during diuretic dosing and liberalizing dietary salt intake while continuing to limit water consumption resulted in improved fluid removal in CHF patients. Furthermore, less deterioration in kidney function, shorter hospitalizations, reduced readmission rates, and even reduced mortality were observed. The present study will examine this novel therapy in a population of 60 patients with underlying severe CHF and kidney dysfunction hospitalized for the management of fluid overload. Half of these patients will receive investigational treatment with concentrated salt infusions and liberalized salt consumption during diuretic therapy. All patients will otherwise receive the standard therapies for heart failure, including restrictions on water consumption. This study will attempt to verify the improvements in clinical endpoints previously described and define the mechanisms of enhanced fluid removal.
The purpose of this study is to find out if 3% hypertonic saline (salt-water solution) given in a vein improves the headache that may be caused by a concussion. 3% hypertonic saline may also improve some of the other symptoms that may be caused by concussion (for example: confusion, nausea, vomiting). This research is being done because there have been previous experience which suggests that 3% hypertonic saline has been beneficial in the treatment of children with more severe brain injury.
This is a clinical study comparing the physiologic effects of two hypertonic solutions (mannitol, hypertonic saline) with a particular emphasis on changes in cerebral blood flow in patients with intracranial hypertension following serious traumatic brain injury (TBI).