In March 2020 the World Health Organization declares the Coronavirus disease pandemic 2019. Intensive Care Units deal entirely with patients with pneumonia complicated by Acute Respiratory Distress Syndrome, requiring aggressive respiratory treatments with long periods of connection to mechanical ventilation, sedation and immobilization, contributing to the onset of acquired critical patient muscle weakness (IAPD). IUCD is a frequent complication in intensive care units, with an incidence of 11-67%¹. Of multifactorial cause, immobilization or "bed-rest", the use of corticosteroids and neuromuscular blocking agents have been described as factors directly related to this syndrome. Several studies have shown that mobilization of the patient with acute respiratory distress syndrome, even with extracorporeal membrane oxygenation, is safe, feasible and beneficial for the patient. Bedside cyclo-ergometry has been associated with a reduction in the degree of sarcopenia, contributing to the recovery of the critically ill patient. Several studies document that bed cyclo-ergometry is safe and feasible in critically ill patients within the first week of admission to intensive care, but few clinical trials exist.
In March 2020 the World Health Organization declares the Coronavirus disease pandemic 2019. Intensive Care Units deal entirely with patients with pneumonia complicated by Acute Respiratory Distress Syndrome, requiring aggressive respiratory treatments with long periods of connection to mechanical ventilation, sedation and immobilization, contributing to the onset of acquired critical patient muscle weakness (IAPD). IUCD is a frequent complication in intensive care units, with an incidence of 11-67%¹. Of multifactorial cause, immobilization or "bed-rest", the use of corticosteroids and neuromuscular blocking agents have been described as factors directly related to this syndrome. Each additional day of bed rest is associated with a 3 to 11% decrease in the strength of both peripheral and respiratory muscles, which translates into difficulty in weaning from mechanical ventilation, longer stay in the Intensive Care Unit and in the hospital in general, as well as an increase in morbidity and mortality. Similarly, in the first 24 hours after initiation of mechanical ventilation, diaphragmatic atrophy or dysfunction occurs, predisposing to prolonged mechanical ventilation. The need for ventilatory support for more than 48 hours has been associated with greater morbidity and mortality at hospital discharge, and survivors present greater disability and deterioration in their quality of life. Several studies have shown that mobilization of the patient with acute respiratory distress syndrome, even with extracorporeal membrane oxygenation, is safe, feasible and beneficial for the patient. Most of the programs described in the literature include patients requiring extracorporeal membrane oxygenation, mainly in the pre-transplantation situation, and to a lesser extent patients with acute respiratory distress syndrome. They are characterized by the individual and progressive performance of functional activities of lesser to greater difficulty, starting with passive exercises of joint range, active and active-resisted exercises while the patients are in decubitus, progressing in some cases to sitting at the edge of the bed and less frequently to standing. Bedside cyclo-ergometry has been associated with a reduction in the degree of sarcopenia, contributing to the recovery of the critically ill patient. Several studies document that bed cyclo-ergometry is safe and feasible in critically ill patients within the first week of admission to intensive care, but few clinical trials exist.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
NONE
Enrollment
35
The MotoMed Letto 2 device will be used, with a progressive pattern, starting at 5 minutes and lasting up to 30 minutes. It will be performed once a day, during weekdays (Monday to Friday) until discharge from the intensive care unit, and at a modified Borg intensity of 2-3 (Light).
Bed mobility activities (turning, pelvic elevation and sitting), standing, transfers and walking.
Performing isometric exercises, strengthening with multi-resistance elastic bands or multi-weight dumbbells.
Asociación Instituto Biogipuzkoa
Donostia / San Sebastian, Guipuzcoa, Spain
CLINICAL ENDPOINT Age: Years completed at the time of inclusion in the study.
Continuous quantitative variable.
Time frame: Until discharge from the intensive care unit
CLINICAL ENDPOINT Sex: Dichotomous qualitative variable
. Categories: Female/Male.
Time frame: Until discharge from the intensive care unit
CLINICAL ENDPOINT Length of stay in the Intensive Care Unit: Number of days elapsed between admission and discharge from Intensive Care.
Continuous quantitative variable.
Time frame: Until discharge from the intensive care unit
CLINICAL ENDPOINT Overall length of stay in hospital: Number of days between admission and discharge.
Continuous quantitative variable.
Time frame: Until discharge from the intensive care unit
CLINICAL ENDPOINT Mechanical ventilation time:Number of days between intubation and successful weaning (defined as 48 hours of spontaneous breathing).
Continuous quantitative variable.
Time frame: Until discharge from the intensive care unit
CLINICAL ENDPOINT Adverse events: Defined as the presence during or within 10 minutes of cyclo-ergometry of any of the following.
Discrete qualitative variable. Loss of airway or venous/arterial lines. Increased vasoactive drug dosage: more than 5 mcg/min Increase in blood pressure: above 200 mmHg for more than 2 minutes. Drop in mean arterial blood pressure: below 60 mmHg for more than 2 minutes. Heart rate: below 50 bpm or above 140 bpm for more than 2 minutes. Drop in arterial oxygen saturation: below 88% for more than one minute requiring increasing the inspired oxygen fraction by more than 1% for more than 5 minutes.
Time frame: Until discharge from the intensive care unit
FUNCTIONAL ENDPOINT Gait capacity: Measured by the 6-minute walk test at the time of discharge from hospital. A simple and inexpensive physical capacity test.
It reflects the level of physical activity in daily activities. It consists of walking as far as possible in 6 minutes, at a brisk pace without running, over a distance of about 30 metres. The main result is the distance covered and is recorded in metres. Arterial oxygen saturation and heart rate are monitored during the test. Available evidence suggests a minimum significant difference of 30 metres (25-33 metres) for adult patients with chronic respiratory disease.
Time frame: Until discharge from the intensive care unit
FUNCTIONAL ENDPOINT Functional capacity: Measured at discharge from the Intensive Care Unit and at hospital discharge.
By performing the Short Physical Performance Battery (SPPB)³, a test consisting of 3 items: balance, gait speed and getting up and sitting in a chair 5 times. It assesses balance, gait ability and lower limb strength. The total score ranges from 0 (worst) to 12 points (best). The SSPB has been shown to be a valid instrument for detecting frailty and predicting disability, institutionalisation and mortality. A total score of less than 10 indicates frailty and a high risk of disability and falls. A 1-point change in score has clinical relevance.
Time frame: Until discharge from the intensive care unit
FUNCTIONAL ENDPOINT Peripheral muscle strength on admission-discharge from ICU and hospital discharge.
Measurement of muscle strength using the Medical Research Council manual scale and using a dynamometer on admission and discharge from Intensive Care, as well as on discharge from hospital.
Time frame: Until discharge from the intensive care unit
FUNCTIONAL ENDPOINT ICU MOBILITY SCALE (Spanish adaptation)
A valid and reliable scale that assesses the mobility of critically ill patients and helps to plan individualised activity programmes to prevent acquired muscle weakness in the critically ill patient.
Time frame: Until discharge from the intensive care unit
FUNCTIONAL ENDPOINT Modified Borg Scale
Subjective assessment of perceived dyspnoea and fatigue during the training session.
Time frame: Until discharge from the intensive care unit
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