5 Clinical Trials for Various Conditions
The purpose of this study is to assess the suitability of the ear and forehead as a better site for measure of fluid responsiveness.
Buoy is an all-natural, organic, FDA compliant dietary electrolyte supplement that can be dissolved in 8-12oz water (or other liquid) and provide electrolytes in servings of 1/3 teaspoon. This study will evaluate Buoy in hydrating active adults.
Burn injury is marked by a large release of inflammatory mediators which disrupt the normal capillary barrier and cause a rapid shift of intravascular fluid into interstitial spaces, ultimately leading to shock and death. As such, adequate fluid management and resuscitation is critical for burn patients to prevent further cellular injury. Technologies and medical options such as cardiac output monitoring along with early tube feeding and vitamin C administration have developed slowly over the years. Effective management of the Systemic Inflammatory Response Syndrome response and metabolic derangement is crucial for the survival of burn patients. In particular, vitamin C administration has shown to significantly decreases early post-burn lipid peroxidation, reduce microvascular leak of fluid by preventing endothelial dysfunction, and decreases edema formation in burned tissue. Vitamin C is a cheap and widely available antioxidant which has been shown to significantly effective in positively impacting clinical outcomes in burn resuscitation. We aim to evaluate the efficacy of vitamin C in burns greater than 20% total body surface area on clinical outcomes such as length of hospital stay, total fluid requirements, and mortality.
Intravenous fluids (IVF) are used in hospitalized patients to replenish the fluid and electrolyte losses of patients who cannot take adequate hydration by mouth or through their gut. Inappropriate use of IVF may cause serious problems, including abnormalities in blood electrolytes such as sodium, which can lead to serious but rare neurologic harm; pain and discomfort from multiple IV insertions and subsequent complications (e.g., IV infiltration); and inadequate monitoring for adverse effects. Investigators currently don't know what the most commonly used IVF in hospitalized pediatric patients are, and there are no national benchmark data for IVF use. The American Academy of Pediatrics published a Guideline on maintenance IVF in November 2018, which contains one major recommendation: to use isotonic (having a similar electrolyte concentration to blood plasma) maintenance IVF in medical and surgical patients 28 days to 18 years old without pre-existing serious illnesses. This project aims to better describe and standardize the use of IVF in inpatient pediatric settings across the U.S. and evaluate the impact of an intervention bundle on maintenance IVF use. This project aims to improve health care value by reducing the number of routine laboratory draws. In Quality Improvement research, there are three different types of measures - outcome measures, process measures and balancing measures. In this project, the following will be used as a process measure: The proportion of daily weight measurements for patients on maintenance IVF. The following will be used as balancing measures: 1. There will be no increase in the number of floor-to-PICU transfers during hospitalization from baseline. 2. There will be no increase in the number of serum sodium lab results obtained from baseline. 3. There will be no increase in adverse events prompting a change in clinical management from baseline: hypertension or edema requiring a diuretic, hypertension requiring anti-hypertensive medication, and acute kidney injury (AKI) requiring renal replacement therapy (RRT)/dialysis.
This primary aim of this study was to critically assess whether or not sweat water content and sodium concentration were acutely regulated by dynamic changes in antidiuretic hormone (arginine vasopressin or AVP) acting on the Vasopressin 2 receptor (V2R) during exercise. Secondary aims were to evaluate running performance and core temperature to further characterize the role of AVP in the coordinated balance of fluid and temperature homeostasis during exercise. The primary hypothesis was that activation of the V2R in sweat glands would result in water reabsorption and fluid conservation during endurance exercise.