View clinical trials related to Critical Illness.
Filter by:Type 2 myocardial infarction (MI) is defined as myocardial necrosis that results from an imbalance of myocardial oxygen supply and demand. Although type 2 MI is highly prevalent in patients with critical illness and strongly associated with mortality, the pathophysiology remains poorly understood. Inflammation is central to the development of atherosclerosis, plaque rupture, and other subtypes of MI, but the role of inflammation in type 2 MI and myocardial necrosis has not been defined. The investigators aim to to delineate the mechanistic role of inflammation in myocardial necrosis and type 2 MI complicating critical medical illness.
Continuous pulse oximetry monitoring is the standard of care in critically ill patients in emergency departments, operating rooms and intensive care units. In patients with poor peripheral perfusion (low blood flow) due to peripheral vascular disease, low body temperature, or shock and the use of medications to raise the blood pressure, clinicians have difficulty obtaining an accurate measurement. This study compares the accuracy of forehead oximetry sensors to nasal alar sensors to lab oximetry measures and on the rate of device related pressure ulcers with both.
Acute lower gastrointestinal dysfunction is a kind of much common complication which occurred in critically ill patients. Once it developed, enteral nutrition would be disturbed. In this study, investigators suppose that early application of a sufficient amount of pectin ahead of enteral nutrition, may promote recovery of acute lower gastrointestinal dysfunction in critically ill patients, and exert its good effect on early EN support. Investigators designed this prospective randomized controlled trial to test and evaluates the effect whether EN feeding with or without a pectin start would be safe or with advanced clinical outcomes.
The purposes of this study were to investigate the caloric requirement and clinical outcomes in mechanically ventilated critically ill elderly patients and identify those at high nutritional risk who require high protein formula intervention.
The purpose of this prospective, non-interventional clinical study is to assess the clinical validity of a number of markers (including Heparin Binding Protein (HBP), Procalcitonin (PCT), C-reactive protein (CRP), White cell count (WCC) and lactate) for indicating the presence of organ dysfunction, or outcome, of patients with organ dysfunctions following emergency department admission or hospitalization. Secondary objectives are to identify novel putative biomarkers and to identify risk factors for negative long-term effects of acute critical illness The HBP assay is an enzyme-linked immunosorbent assay (ELISA) for the quantitative determination of Heparin Binding Protein in human plasma.
PARME study had 3 objectives: - To identify the specific number of incarcerated individuals with terminal illness in need of palliative care. - To describe the health and penal situation of these prisoners. - To analyse the situation of these ill prisoners especially in the context of suspended sentence for medical ground In order to answer these questions, the investigators used a mixed method research.
To evaluate the feasibility of conducting a randomized controlled trial (RCT) evaluating the efficacy of early in-bed cycling in addition to usual care physiotherapy, compared to usual care physiotherapy, on functional recovery in critically ill children.
An observational, point-prevalence cohort study of nutrition therapies in critically ill children in PICUs across the world. Baseline information will be collected including PICU and hospital demographics and characteristics (e.g. age, diagnostic category, PRISM score, weight, height) of critically ill children requiring mechanical ventilation in the PICU. Nutrition practices such as route of nutrition, kilocalorie and protein levels prescribed and received, interruptions, etc., will be collected on a daily basis from PICU admission onwards, for a maximum of 10 days. Data on clinical outcomes (e.g. duration of mechanical ventilation, PICU stay, hospital stay, acquired infections) will be collected up to 60 days after admission to the PICU. The main objective of the study is to examine the association between energy and protein intake adequacy (in relation to the prescribed goals for these nutrients) and 60-day mortality in mechanically ventilated children.
Purpose of the Study Critical illness requiring life support affects over 150 000 people in Ontario every year. With aggressive support, the number of people who die from critical illness is decreasing. However, people who survive often have neurological problems. These neurological problems often include difficulties with memory, concentration, and attention. These problems are associated with poor quality of life among survivors of critical illness. The aim of this study is to identify the factors that contribute to these neurological deficits. Specifically, the investigators are testing whether changes in oxygen delivery to the brain during critical illness are related to both short- and long-term neurological complications. Procedures involved in the Research When patients are diagnosed with a critical illness such as shock or respiratory failure, they are treated with intravenous fluids, medications to raise their blood pressure, and can be placed on a ventilator to assist with their breathing. They are observed in an intensive care unit (ICU). This research protocol does NOT interfere with the normal treatment of patients with critical illness. The procedure involved in this research protocol requires the placement of two stickers to either side of the patient's forehead, and information about oxygen delivery to the brain will be recorded. When the patient has recovered from the critical illness, they will be asked to perform several neurological tests. Some of these tests will be done with a pencil and paper, while others will use a robotic device to test arm movements, reaction time, and concentration. Potential Harms, Risks or Discomforts: This research study involves the placement of a sticker sensor to either side of the forehead. Rarely, patients may develop a rash to these electrodes. The investigators monitor patients very carefully for rashes, and if a rash is to occur, the sticker sensor will be removed. With regards to the neurological testing, rarely patients can have some mild muscle stiffness after moving their arms in the robot. The investigators do not expect any other further harms, risks, or discomforts.
To compare the nutritional effect on blood glucose of two commercially available enteral diets in overweight or obese patients in the Intensive Care Unit.