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NCT05279547
Up to 60% of patients admitted to the Intensive Care Unit (ICU) with a prolonged stay in the ICU develop complications such as intensive care unit acquired weakness (ICUAW) characterized by limb and respiratory muscle weakness. ICUAW is associated with worse prognosis, longer ICU stay and increased morbidity and mortality. Physical therapy (PT) interventions in the intensive care unit (ICU), can improve patients' outcomes. However, improvements in muscle function achieved with standard physical activity interventions aiming at early mobilization are highly variable due to lack of consistency in definition of the interventions, lack of consideration for the complexity of exercise dose and/or insufficient stimulation of muscles during interventions. It has been suggested that modifying early mobilization and exercise protocols towards shorter intervals consisting of higher intensity exercises might result in more optimal stimulation of muscles. In the present study the researchers therefore aim to simultaneously assess (by non-invasive technologies) locomotor muscle oxygenation and activation along with the measurements of the load imposed on respiration and circulation during two different training modalities i.e., moderate intensity continuous bed-cycling (endurance training) vs high-intensity alternated by lower intensity periods of bed-cycling (interval training).
NCT07191743
This longitudinal, prospective observational study aims to evaluate functional status in critically ill adult patients in the Intensive Care Unit using the Chelsea Critical Care Physical Assessment Tool (CPAx). The primary objective is to analyze CPAx score variation as a potential predictor of clinical outcomes, including mortality and duration of mechanical ventilation. Functional assessments will be performed at intensive care unit (ICU) admission and discharge to monitor changes in physical function and to predict adverse clinical outcomes.
NCT06409611
To prevent the development of ICUAW, both early mobilization and neuromuscular electrical stimulation (NMES) have been shown to prevent muscle atrophy in critically ill patients by preserving muscle mass. Furthermore, it is of great value that muscle assessment using kinesiological ultrasound becomes routine to monitor this patient's profile with regard to strength, muscle quality and muscle mass. Our objective is to evaluate the muscular changes promoted by NMES in patients under mechanical ventilation. This is a randomized clinical trial study, which will perform NMES sessions for at least 10 days in mechanically ventilated patients. They will also undergo ultrasound assessments of the quadriceps. Patients will be divided into a control group and an NMES group. In addition, general information recorded in the medical record will be collected, such as basic characteristics, laboratory tests and general assessments.
NCT05918757
Critically ill patients are known to develop serious nutritional deterioration during the course of their disease. They develop, from the beginning, a multifactorial protein malnutrition that relates to a poor clinical course and the development of weakness. Due to the increased protein catabolism in this type of patient, there is a rapid degradation of muscle mass and loss of functional proteins, and therefore nutritional support is mandatory. Indeed, achieving a high protein intake may promote a better evolution of the critically ill patient, i.e., maintenance of muscle protein, less deterioration of muscle strength, lower Intensive care unit-acquired weakness (ICUAW), lower mortality, decrease in the number of infections, decrease in days on mechanical ventilation, and days of hospital stay and in ICU. The goal of this clinical trial is to compare the appearance and degree of ICUAW in critically ill patients receiving invasive mechanical ventilation treated with two different doses of protein (1.5 g/kg/day vs.1.0 g/kg/day).
NCT06440265
The Activity Measure for Post Acute Care (AM-PAC) inpatient short form (low function) evaluates the level of assistance a patient requires another person to provide for distinct functional mobility and daily activities. The objective of the study was to translate and cross-culturally adapt the AM-PAC (low function) into Korean version and assess its reliability and validity . Independent raters assessed 38 patients from ICU using the Korean version of AM-PAC, respectively. Intra-class correlation coefficients (ICCs) and Bland-Altman's plots were used to evaluate reliability, and Cronbach's alpha for internal consistency. Validity was evaluated using Spearman's correlation analysis with other physical function assessment tools (functional status score for the ICU(FSS-ICU), Medical Research Council-sum score(MRC-SS), hand grip strength) and other unrelated factors (body mass index, glucose level).
NCT03471247
Patients who survive critical illness usually experience long-lasting physical and psychological impairments, which are often debilitating. Rehabilitation interventions started in the ICU may reduce this morbidity. In-bed cycling, which uses a special bicycle that attaches to the hospital bed, allows critically ill patients who are mechanically ventilated (MV) to gently exercise their legs while in the ICU. The main goal of this study is to determine whether critically ill MV adults recover faster if they receive early in-bed cycling than if they do not. Another objective is to determine whether in-bed cycling is a cost-effective intervention. 360 patients admitted to the ICU and receiving MV will be enrolled in the study. Following informed consent, patients will be randomized to either (1) early in-bed cycling and routine physiotherapy or (2) routine physiotherapy alone. Patients' strength and physical function will be measured throughout the study. If early in-bed cycling during critical illness improves short-term physical and functional outcomes, it could accelerate recovery and reduce long-term disability in ICU survivors.
NCT04633421
Rapid skeletal muscle wasting during critical illness had a detrimental impact on both short and long term outcomes following ICU admission. Increased dietary protein delivery might attenuate skeletal muscle wasting and its subsequent effects on post-ICU function. The investigators will conduct a 935 patient, randomised controlled, quadruple blinded parallel group trial to determine whether enteral nutrition with increased protein content in mechanically ventilated, critically ill patients is able to improve functional recovery.
NCT05868070
Intensive care unit (ICU)-acquired weakness (ICU-AW) is one of the most common complications of post-ICU syndrome. It is the leading cause of gait disturbance, decreased activities of daily living, and poor health-related quality of life. The early rehabilitation of critically ill patients can reduce the ICU-AW. We designed a protocol to investigate the feasibility and safety of conventional rehabilitation with additional in-bed cycling/stepping in critically ill patients. The study is designed as a single-center, open-label, pilot, randomized, parallel-group study. After the screening, participants are randomly allocated to two groups, stratified by mechanical ventilation status. The intervention group will be provided with exercises of in-bed cycling/stepping according to the level of consciousness, motor power, and function in addition to conventional rehabilitation. In contrast, the control group will be provided with only conventional rehabilitation. The length of the intervention is from ICU admission to discharge, and interventions will be conducted for 20 minutes, a maximum of three times per session. The primary outcome is the number and percentage of completed in-bed cycling/stepping sessions, the duration and percentage of in-bed cycling/stepping sessions, and the number of cessations of in-bed cycling/stepping sessions. The secondary outcomes are the interval from ICU admission to the first session of in-bed cycling/stepping, the number and percentage of completed conventional rehabilitation sessions, the duration and percentage of conventional rehabilitation sessions, the number of cessations of conventional rehabilitation sessions, the number of adverse events, level of consciousness, functional mobility, muscle strength, activities of daily living, and quality of life. This study is a pilot clinical trial to investigate the feasibility and safety of conventional rehabilitation with additional in-bed cycling/stepping in critically ill patients. If the expected results are achieved in this study, the methods of ICU rehabilitation will be enriched.
NCT05591248
Feasibility study of the use of an interactive Virtual Reality device in rehabilitation of critically ill patients on the Intensive Care Unit. Patients will use the upper limb muscles and memory playing the 2 games in our "MotiVeeR UZeLf"-app. This will be the case 3x/week as part of the conventional rehabilitation program.
NCT05074862
Background: Patients with critical illness in the intensive care unit (ICU) experience marked skeletal muscle weakness, muscle atrophy and disability in physical function, commonly termed ICU-acquired weakness (ICU-AW). The pathophysiology of ICU-AW is complex, but a key feature of skeletal muscle wasting is disturbed protein metabolism reflected in both increased rate of muscle protein degradation and reduced synthesis. Treatment with 3-OHB seems a promising new anticatabolic treatment in patients with critical illness, preventing ICU-AW. To date, no data exist on the clinical and functional effects of ketone body modulation in patients with critical illness. Objective: The aim to investigate the effect of exogenous 3-OHB administration on muscle protein kinetics and lipolysis in patients with critical illness, aiming towards preventing ICU-AW. Design: A randomized double-blind isocaloric placebo-controlled cross-over study in 10 mechanically ventilated patients with critical illness in the ICU. Methods: Evaluation of whole-body and focal leg protein kinetics using labeled phenylalanine and tyrosine tracers. Assessment of free fatty acid (FFA) turnover using a labeled palmitate tracer. Femoral arterial blood flow (assessed with pulsed-wave Doppler ultrasound) is evaluated once per study period. Blood- and urinary samples are collected routinely throughout the study day. Whenever feasible, muscle and fat biopsies will be taken for analysis of protein and adipocyte metabolic signaling and mitochondrial function. Perspectives: This investigation may grant essential knowledge on ketosis in critical illness. This may lead to larger clinical trials, and hopefully a new and better treatment strategy aimed at preserving muscle mass and function during and improving recovery after critical illness.
NCT05128552
This study was conducted to investigate the effect of the LVR technique on cough ineffectiveness, to determine its benefit as a simple, safe, and inexpensive cough augmentation technique, and to determine how much the LVR method, for augmenting CPF, is useful in enhancing the success of extubation and reducing the rate of reintubation.
NCT05053724
Background: ICU hospitalization is associated with loss of strength, functionality and delirium. The "Start to Move protocol" demonstrated efficacy in improving and minimizing such effects. Aim: To evaluate the effectiveness of the "Start to move protocol" compared with conventional treatment in ICU subjects on functionality, weakness acquired in the Intensive Care Unit (ICU-AW), incidence of delirium, days of invasive mechanical ventilation (IMV), ICU stay and 28-day mortality. Methods: Randomized controlled clinical trial. Including adults ≥15 years with IMV \>48 hours, randomized into Start to move and conventional treatment groups.Functionality, ICU-AW incidence, delirium incidence, IMV days, ICU stay and mortality-28 days were analyzed.
NCT04833621
Background: Sarcopenia (muscle weakness) characterized by a decrease in muscle mass, strength and performance is a condition that increases with old age. Sarcopenia can be seen in 5-13% of patients hospitalized in ICU where various treatment methods are used to prevent this weakness, the rate increases in patients with sepsis/ septic shock. Muscle treatment methods are used to prevent sarcopenia in similar patients hospitalized in ICU. It is predicted that "neuromuscular electrical stimulator-NMES" treatment may increase muscle mass and strength in patients who's can not be exercised actively. In this study, the contribution of NMES treatment to prevent the development of muscle weakness in patients with a diagnosis of sepsis/ septic shock followed in intensive care units (ICU) was evaluated.
NCT04459533
This is a retrospective case-controlled study of the effect of the use of a neuromuscular blockade (NMB) monitor on the consumption of NMB agents in patients under mechanical ventilation in the context of COVID-19. The use of NMB agents during mechanical ventilation in patients with acute respiratory distress syndrome (ARDS) improves respiratory support conditions and reduces mortality. In the context of COVID-19 pandemic, patients with severe forms of the disease hospitalized in intensive care units (ICU) benefit from prolonged mechanical ventilation with frequent use of NMB agents. Large amount of such patient admitted in a short time has led to a shortage of NMB agents, particularly cisatracurium. The use of NMB monitors (for example - Train of Four (TOF)) is a well-established practice in general anesthesia. There is no recommendation for the use of NMB monitor in ICU patients available up to date. However, in the attempt to reduce the consumption of NMB agents a NMB monitoring was used in ICU patients during the COVID-19 pandemic at university hospitals of Hospices Civil de Lyon, with the endorsement of the local College of Anesthetists. The aim of our study is to evaluate if the use of a NMB monitor decreases the consumption of NMB agents in patients under mechanical ventilation in the context of COVID-19.
NCT01885442
Background: Patients in the intensive care unit (ICU) are the sickest in hospital, and need advanced life-support. Survivors of critical illness are very vulnerable to weakness and disability. Up to 1 in 4 have severe leg weakness impairing their quality of life for as long as 5 years after ICU discharge. In-bed cycling employs special equipment that attaches to a patient's hospital bed, allowing them gentle leg exercise while in the ICU. The investigators will offer patients in-bed cycling while they are needing a breathing machine, to help them recover from weakness as fast as possible. Before doing a larger trial testing if in-bed cycling reduces disability, data on safety (Is it safe?) and feasibility (Can the investigators do it?) are needed. Objectives: To study the safety and feasibility of in-bed leg cycling in critically ill patients who need breathing machines. Methods: Adult patients admitted to the ICU who need a breathing machine and are expected to survive their ICU stay are eligible. Specially trained physiotherapists will provide patients with 30 minutes of in-bed cycling each day while they are in the ICU. Outcomes: The investigators will study (1) Safety: the heart rate and breathing patterns of patients doing in-bed cycling, while carefully monitoring for safety. (2) Feasibility: whether patients can cycle on most days of their ICU stay, whether patients and their families agree to be a part of the study, and whether the investigators can assess patients' strength in the ICU and at hospital discharge. Relevance: As the Canadian population ages, the demand for breathing machines during acute illness will increase dramatically. Effective methods of physiotherapy are needed for critically ill patients to minimize muscle weakness, speed recovery, and improve quality of life. This pilot study is the first of several future larger studies about in-bed cycling in the ICU. This program of research will help patients needing life support to regain their strength and recover as fast as possible from critical illness.