The purpose of this study is to investigate whether neuromuscular electrostimulation (NMES) will decrease ICU-associated weakness. The investigators believe that 60 minutes of daily NMES will improve strength and function in those who have had extended ICU stays, as well as decrease critical illness myopathy as an etiology of weakness in the critically ill.
Survivors of critical illness frequently have significant, debilitating and persistent weakness after discharge from the intensive care unit (ICU). This weakness can persist for up to 4 years after ICU discharge. There are few interventions that have been successful in reducing or preventing weakness. Neuromuscular electrostimulation (NMES) therapy is beneficial in other populations of weak and functionally limited patients, such as those with chronic respiratory failure requiring mechanical ventilation, severe chronic obstructive pulmonary disease and end-stage congestive heart failure. We propose a randomized clinical trial to evaluate the efficacy of 60 minutes of NMES versus sham therapy, applied to the bilateral lower extremities, to reduce ICU-associated weakness in patients with acute respiratory failure. Our specific aims are to determine if NMES therapy will: 1) increase strength of the 3 treated lower extremity muscle groups (i.e., pretibial, triceps surae, and quadriceps), 2) improve important clinical outcomes (i.e., functional status, duration of mechanical ventilation, length of ICU and hospital stay, in-hospital mortality, and total hospital charges), 3) reduce critical illness myopathy as an etiology of weakness in clinically weak ICU patients. The investigators hypothesize that NMES therapy will reduce ICU-associated weakness, and improve clinical and functional outcomes. Additionally, the rates of critical illness myopathy as an etiology of weakness in clinically weak ICU patients will be lower in those receiving NMES versus sham therapy. Since there is no single test that is optimal for measuring muscle strength in the critically ill, the investigators will employ four non-invasive measures: manual muscle testing (MMT), hand held dynamometry (HHD), handgrip dynamometry (HGD), and maximal inspiratory pressure (MIP). With no existing therapeutic options available, our study explores the potential of NMES as a feasible intervention to reduce ICU-associated weakness.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
SINGLE
Enrollment
36
60 minute NMES sessions will be applied to three muscle groups of the lower extremities (quadriceps, pretibial, and triceps surae). Sessions start at study entry, and will occur every day for the duration of subject's ICU stay.
60 minute NMES sessions will be applied to three muscle groups of the lower extremities (quadriceps, pretibial, and triceps surae). Sessions start at study entry, and will occur every day for the duration of subject's ICU stay. Sham groups will NOT have voltage applied.
Johns Hopkins Hospital
Baltimore, Maryland, United States
Lower Extremity Strength, at Hospital Discharge, of 3 Bilateral Muscle Groups (Pretibial, Triceps Surae, and Quadriceps) Measured Via MMT Using a Composite Medical Research Council (MRC) Score
Range 0 to 30 with higher score better. The composite score is a simple sum of the individual scores from the 3 bilateral muscle groups
Time frame: At hospital discharge
Individual Muscle Strength Using Handheld Dynamometry: Tibialis Anterior, Gastrocnemius, and Quadriceps Muscle Strength
Strength (in pounds) - measured via handheld dynamometry of tibialis anterior, gastrocnemius, and quadriceps
Time frame: ICU and hospital discharge
Overall Body Strength
Measuring strength of 6 muscle groups in arms and legs using Medical Research Council composite score (each muscle group scored from scale of 0 \[no visible or noticeable contraction\] to 5 \[maximum strength\] and the sum of the scores for the 6 muscle groups equate to a composite score ranging from 0 to 60, higher score is better).
Time frame: ICU and hospital discharge
Hand Grip Strength
Hand grip strength measured using a dynamometer (measured in kilograms, then compared to age- and sex-matched population norms to yield % predicted)
Time frame: ICU and hospital discharge
Respiratory Muscle Strength
Measured using maximal inspiratory pressure (MIP) measurements that is then compared to predicted values for each participant (i.e., % predicted)
Time frame: ICU and hospital discharge
Functional Status Measured Using Functional Status Score for the Intensive Care Unit
Evaluates a patient's physical function in the ICU setting. Each task is scored, ranging from 0 (unable to perform) to 7 (complete independence).The total score ranges from 0-35, with higher scores indicating better physical functioning.
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Time frame: ICU and hospital discharge
Duration of Mechanical Ventilation
The number of days the patient was on mechanical ventilation.
Time frame: Until hospital discharge
ICU and Hospital Length of Stay
The number of days that the patient was in the ICU and hospital, respectively.
Time frame: ICU and Hospital discharge
ICU and In-hospital Mortality
The number of patients who died in the ICU and those who died by hospital discharge.
Time frame: ICU discharge and Hospital discharge
Total Hospital Charges
The total dollar amount of charges from hospital stay
Time frame: Hospital discharge
Hospital Discharge Destination (e.g., Home, Rehab Facility)
Discharge location after hospital stay.
Time frame: Hospital discharge
Lower Extremity Strength, at Hospital Discharge, of 3 Bilateral Muscle Groups (Pretibial, Triceps Surae, and Quadriceps)
Measured via manual muscle strength test using a composite Medical Research Council (MRC) score with each muscle group rated with score ranging from 0 (no visible or noticeable contraction of the muscle) to 5 (maximum strength). The sum of the scores for the lower limb muscle groups can range from 0 to 30 (higher score is better)
Time frame: At hospital discharge
Mean Change in Subject's Lower Extremity Muscle Strength Composite Score From Baseline
The mean change of the sum of the lower limb strength scores between awakening and ICU discharge and between ICU discharge and hospital discharge. Three lower limb muscle groups are assessed bilaterally (each muscle group scored from scale of 0 \[no visible or noticeable contraction\] to 5 \[maximum strength\]). The scores are then summed for each patient at each time point (range 0 -30, higher score is better).
Time frame: At ICU and Hospital discharge
ICU Delirium
Proportion of ICU days the patient had delirium
Time frame: During ICU stay - on days with study (NMES/Sham) session
Subgroup Analysis
For patients with \>= 7 days of mechanical ventilation, we will compare the 2 groups for the following outcomes: Lower extremity muscle strength, mean change in whole body muscle strength score from baseline to ICU discharge, mean change in whole body muscle strength score from baseline to hospital discharge, and whole body muscle strength score at ICU discharge and at hospital discharge. Each muscle group is assessed bilaterally (scale of 0 \[no visible or noticeable contraction\] to 5 \[maximum strength\]). There are three muscle groups assessed bilaterally for lower extremity (hip flexion, knee extension, and ankle dorsiflexion) (score range 0-30, higher score is better i.e. stronger); while for whole body strength assessment (score range 0-360, higher score is better), the following additional muscles are assessed: shoulder abduction, elbow flexion and wrist extension. The scores are then summed for each patient at each time point.
Time frame: ICU and hospital discharge and change over time