View clinical trials related to Critical Illness.
Filter by:The aim of this study is to measure plasma levels of essential vitamins, trace elements and amino acids in critically ill patients with severe AKI. In patients who are treated with continuous renal replacement therapy, we plan to evaluate whether there are any additional losses of nutrients into the filtrate.
This study is developed for assessing the pharmacodynamic and pharmacokinetic properties of intravenous (IV) clonidine in critically ill patients on the ICU, and to estimate the optimal dosing strategy for IV clonidine.
The main objective of this project is to asses for safety, feasibility and effectiveness of an aggressive feeding protocol, PEP uP (Enhanced Protein-Energy Provision via the Enteral Route Feeding Protocol) in increasing protein and energy delivery to critically ill surgical patients. Our hypothesis is that an aggressive feeding protocol, PEP uP will be safe, acceptable, and effectively increase protein and energy delivery to critically ill surgical patients.
The objective of this pilot trial is to assess the feasibility of forced fluid removal in patients admitted to the intensive care unit (ICU) with high-risk AKI and severe fluid overload. The intervention will use furosemide infusion and/or continuous renal replacement therapy (CRRT) to achieve and maintain a neutral cumulative fluid balance. The intervention will be compared to standard of care as reflected in the kidney disease improving global outcome (KDIGO) guidelines.
The purpose of this study is to determine the pharmacokinetic properties of two different dosage regimens of intravenous vitamin C in patients admitted to the Intensive Care Unit with life-threatening illness.
Sepsis, a systemic host response to the invasion of a pathogenic microorganism, may progress to severe sepsis, wherein the patient experiences acute dysfunction in at least one organ system, and further develop into septic shock if the patient cannot regain adequate systemic blood pressure and perfusion after adequate and appropriate fluid resuscitation. Further prospective study of the potential mortality benefit with combination norepinephrine and vasopressin in critically ill patients with septic shock needs to be performed. Our research will resolve this essential question and improve the scientific knowledge surrounding vasoactive medications in patients with septic shock.
The aim of the proposed study is to better understand the epidemiology of, risk factors for and consequences of critical illness leading to improvements in the risk models used to underpin national clinical audits for adult general critical care, cardiothoracic critical care and in-hospital cardiac arrest using data linkage with other routinely collected data sources.
The patients with severe hypernatremia who received conventional treatment are often undertreated. Continuous venovenous hemofiltration (CVVH) can effectively remove solute or water from circulation system. Several case reports demonstrated that CVVH could effectively decrease serum sodium concentration of the patients with severe hypernatremia. The use of CVVH for acute severe hypernatremia in critically ill patients could improve patient survival by effectively decreasing the serum sodium concentration to a normal level.
For adult patients with acute respiratory failure requiring invasive mechanical ventilation, does a ventilation strategy using proportional assist ventilation with load-adjustable gain factors (PAV+) result in a shorter duration of time spent on mechanical ventilation than a ventilation strategy using pressure support ventilation (PSV)?
The administration of intravenous fluids is ubiquitous in the care of the critically ill. Commonly available isotonic crystalloid solutions contain a broad spectrum electrolyte compositions including a range chloride concentrations. Recent studies have associated solutions with supraphysiologic chloride content with hyperchloremia, metabolic acidosis and renal vasoconstriction, acute kidney injury and renal replacement therapy, and increased mortality but no large, randomized-controlled trials have been conducted. SMART-MED will be a large, cluster-randomized, multiple-crossover trial enrolling critically ill patients from the Medical ICU at Vanderbilt University from June 2015 until April 2017. The primary endpoint will be the incidence of Major Adverse Kidney Events in 30 days after enrollment (MAKE30 is the composite of death, new renal replacement, or persistent renal dysfunction at discharge).