View clinical trials related to ICU Acquired Weakness.
Filter by:Every patient admitted to the Intensive Care Unit (ICU) is at risk of developing "Intensive Care Unit Acquired Weakness" (ICUAW). ICUAW is associated with increased rate of mortality, prolonged duration of mechanical ventilation, ICU and hospital stay, rehabilitation time, and reduced quality of life. Currently, there is no effective treatment for ICUAW. Health Discovery Labs is conducting a research study to evaluate the safety of using an innovative experimental medical device in ICU settings that could mitigate ICUAW. This study is meant to demonstrate whether this new device interferes with standard ICU monitors.
In a study published in 2018 the research team had collected the Medical Research Council score (MRCs) at Intensive Care Unit (ICU) discharge. The investigators would like to be able to examine, if the preliminary results obtained by in 2020 by Van Aerde's team are confirmed in their cohort. The investigators hypothesize that patients with an MRCs less than or equal to 55 at discharge from the ICU, have a higher mortality rate than those with a score greater than 55. The investigators would also like to examine whether or not an MRCs score ≤ 55 is associated with a difference in quality of life and autonomy, after 5 and more years post ICU.
This study prospectively observed the complications intended as diarrhea or sti-sis that critically ill patients developed within 7 days after ICU admission. In addition, secondary aims investigated through bioimpedenziometry the loss of lean body mass and changes in phase angle during the same period of ICU stay.
Intensive Care Unit-Acquired Weakness (ICU-AW) is a clinical entity frequently encountered in critically ill patients that have both short term and long-term implications. The current gold standard of diagnosis is by assessment of manual muscle strength, using the 6-grade Medical Research Council (MRC) sum score. However, not all Intensive Care Unit (ICU) admitted patients are conscious or cooperative enough to use MRC sum score for the diagnosis of ICU-AW. Ultrasound imaging of muscles has emerged as a valid and reliable tool for providing qualitative and quantitative details about muscle disease and has been suggested as an alternative to assess ICU-AW in critically ill patients in whom the MRC cannot be assessed. This study will be a prospective observational study to evaluate the relationship between the trend of changes in muscle thickness, echogenicity and fasciculations during the first 7 days of ICU stay as measured by ultrasound and ICU-AW among critically ill patients. The study will be performed in the ICU of TU Teaching Hospital, Kathmandu, Nepal for 1 year. All newly admitted adult patients ≥ 16 years of age, expected to stay in ICU / critical care areas for at least 7 days, barring the exclusion criteria, will be included in the study and evaluated for MRC sum score and skeletal muscle thickness, echogenicity and fasciculations using ultrasound on day 1, day 4 and day 7. The measurements will then be statistically analyzed to see if there is any relationship between trend of changes in muscle thickness, echogenicity and fasciculations and ICU-AW
Critical illness myopathy and neuropathy are associated with prolonged mechanical ventilation, resulting in increased morbidity and mortality in intensive care units, .the investigators aimed to determine the decrease in muscle mass and risk factors that are important causes for the development of myopathy in COVID-19 (+) patients followed in intensive care unit. The study will also evaluate the relationships of patients withthe investigators intensive care-associated muscle weakness (ICU-AW) with other intensive care patient weight scores (SOFA, APACHE II, q SOFA). Sensitivity of anthropometric measurements and ultrasonographic measurements will be compared in the evaluation of sarcopenia. The length of hospital stay, mechanical ventilation time, patient outcomes (mortality/morbidity) information of patients with COVID-19 pneumonia followed in the intensive care unit will be evaluated.
Recently, intensive care unit acquired weakness (ICUAW) has become a hotspot issue in the patients with critical illness. The symptoms of ICUAW, including sensory impairment and muscle atrophy, may lead to poor quality of life even though the patients discharged from the ICU for a long time. Therefore, an ounce of prevention is worth a pound of cure. At the same time, early evaluation is necessary to keep critically ill patients away from ICUAW. Medical Research Council (MRC) scale is the most common approach for diagnosis clinically. Regarding the interrater variation of MRC, handgrip strength (HGS) has been thought to be a simple and accurate alternative. However, HGS does not belong to antigravity or respiratory muscle which are the first to be affected by immobilization. It is still unknown whether HGS can represent the general muscle condition in ICU or not. Additionally, previous studies have proved that patients with critical illness in the ICU would have better prognosis and less complications, if they undergo physical therapy as soon as possible. In addition to early ventilator weaning and reduced mortality rate, physical therapy could enhance quality of life (QoL) after patient discharges from hospital. However, early mobility in the ICU mainly emphasizes cardiopulmonary patients due to the traditional concept in Taiwan. Hence, the duration of mechanical ventilation in the critical patients will affect the timing to receive physical therapy, even impact the improvement of QoL. Because of these reasons, this study will investigate the relationship between HGS and muscle mass among patients with critical illness and find the predictors of the short-term and long-term goals in the ICU, including ventilator weaning and QoL after hospital discharge.
This study is aimed at providing an translation and cross-cultural adaptation of Chelsea Critical Care Physical Assesment Tool (CPAx) and tested its reliability and validity.
traumatic brain injury (TBI) is a major public health concern worldwide. Patients with moderate-severe TBI have high rates of disability at the acute phase and frequently require protracted rehabilitation with prolonged periods of recovery. Recently, it has been found that the use of progressive early mobilization (EM) protocols for critical trauma patients may minimize the functional declines during intensive care unit (ICU) stays. However, prior early mobilization studies have found that the survivors of moderate-severe TBI often experience a greater incidence of neurological injuries with other organ injury than other critical care patients. No randomized controlled trials thus far have utilized measure the influence or effect of early progressive EM protocols on the functional recovery of moderate-severe TBI patients.
ICU-Aw is highly prevalent (50%) among critically ill patients. Its diagnosis is usually delayed as it requires patients' awakening and collaboration to provide accurate measurement. This study aims to investigate the accuracy of an early ultrasound measurement of quadriceps shortening during neuromuscular electrical stimulation to diagnose future ICU-Aw in critically ill patients.
Rationale: Beside Candida and Aspergillus, emerging invasive fungal infections (EIFIs) are increasing in intensive care setting and are associated with high morbidity and mortality. However, data are scarce, particularly in ICU settings and for EIFIs other than mucormycosis. Objectives: to describe epidemiological trends and clinical features of EIFIs in intensive care units (ICU) and to assess their outcome. Methods: All records of adult patients diagnosed with an EIFI in a medical ICU between 2006 and 2019 were analyzed retrospectively. In-ICU mortality was assessed, then factors associated with mortality were identified. Survival at day-90 was calculated by the Kaplan-Meier method.