Improved Muscle Metabolism by Combination of Muscle Activation and Protein Substitution ( IMEMPRO )

Not Applicable

Recruiting

• Conditions: Morphological and Microscopic Findings; Energy Malnutrition Protein; Metabolic Disturbance; ICU Acquired Weakness; Quality of Life; Muscle Atrophy
• Interventions: Device: Neuromuscular electrical stimulation; Other: Early Mobilization

• Registration Number: NCT05919940
• Lead Sponsor: Technical University of Munich

Brief Summary

Intensive Care Unit Acquired Weakness (ICUAW) describes muscle weakness that occurs in around 40% of patients during an intensive care stay. The morbidity and mortality of these patients is significantly increased over a 5-year period. The aim of this study is to investigate the combined effect of early enteral high-protein nutrition and early muscle activation on muscle atrophy in critically ill patients.

The study will include 40 patients (20 intervention, 20 observation) with requirement for enteral nutrition at time of inclusion. In the intervention group the maximum possible level of mobilization is carried out and muscles are activated twice a day using neuromuscular electrical stimulation (NMES). The nutrition plan of the intervention group is based on the applicable guidelines for intensive care medicine with exception of increased protein intake. The control group receives therapy without deviating from the standard according of the DGEM guideline.

The study aims to show that the decrease in muscle mass is significantly less than in the control group (primary hypothesis) via ultrasound of the rectus femoris muscle and in case of given consent muscle biopsy. As secondary hypothesis it is examined whether the combination of early high protein intake and muscle activation improves muscle strength and endurance.

Detailed Description

Intensive Care Unit Acquired Weakness (ICUAW) describes the clinically diagnosed manifestation of a neuromuscular organ dysfunction. It develops in approximately 40% of all intensive care unit patients amounting to at least 1.2 million patients annually in Germany. All these patients face a broad range of sequeleae and an increased mortality up to 5 years after ICU discharge. A characteristic pathophysiological phenomenon is an early severe muscle atrophy reaching 10% during the first days after ICU admission.

The current preventative and therapeutic approach for ICUAW is a combination of targeted risk factor management as well as early activation of muscles, i.e. neuromuscular electrical stimulation (NMES) and early mobilization as they have been shown to counteract the muscle atrophy and mediate different outcome benefits such as shorter ICU stay.

Nutrition is a key element of our daily life. Protein intake has been shown to affect lean mass and muscle mass. Research into specific nutritional strategies to treat or prevent ICUAW are scarce and the combination with early muscle activation has not been adequately explored.

The study will include 40 patients (20 intervention, 20 observation) who were admitted to an intensive care unit within the last 48 hours. A basic requirement for inclusion is an indication for enteral (via the gastrointestinal tract) nutrition at time of inclusion. In the intervention group, the ability to mobilize is assessed daily and the maximum possible level of mobilization is carried out and additional muscles are activated twice a day using neuromuscular electrical stimulation (NMES). The nutrition plan of the intervention group is based on the applicable guidelines for intensive care medicine. In this study, protein intake is increased in the interventional group. The control group receives therapy without deviating from the standard according to the SOP and DGEM guideline: "Clinical nutrition in intensive care medicine" 2018.

The study aims to show that the decrease in muscle mass is significantly less than in the control group (primary hypothesis) via ultrasound of the rectus femoris muscle and muscle biopsy. As a second hypothesis it is examined whether the combination of early high protein intake and muscle activation improves muscle strength and endurance compared to the control group.

Further exploratory analyses will investigate changes in the skeletal muscle glycogen content, skeletal muscle histology, skeletal muscle gene expression, skeletal muscle protein level, as well as metabolomic changes in blood and urine.

An additional blood sample will be taken after 90 days as part of a follow-up.

Study Timeline

• Study First Submitted: 2023-06-06
• Study First Submitted QC: 2023-06-15
• Study Start: 2023-06-27
• Study First Posted: 2023-06-27
• Status Verified: 2025-04
• Last Update Submitted: 2025-04-28
• Last Update Posted: 2025-05-01
• Primary Completion: 2025-12-31
• Study Completion: 2026-01-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 40

Inclusion Criteria

• critically ill adults (≥ 18 years of age)
• newly admitted to the ICU (<48h)
• mechanically ventilated, expected to remain for at least 72h
• enteral nutrition is feasible

Exclusion Criteria

• a BMI > 30
• expected death or withdrawal of life-sustaining treatments
• prior neuromuscular disease (e.g. paresis, myopathies, neuropathies)
• injury or disease preventing neuromuscular electrical stimulation or early mobilization (e.g., elevated intracranial pressure, unstable spine)
• a pacemaker or other electronic implant
• allergy to components of NMES adhesive
• have been dependent during activities of daily living prior to the hospital admission
• a language barrier

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Intervention	Early Mobilization	High protein substitution plus NMES and EM
Intervention	Neuromuscular electrical stimulation	High protein substitution plus NMES and EM

Primary Outcome Measures

Name	Time	Method
Change in cross sectional area (ΔCSA) of the rectus femoris	day 1 (study inclusion) and 14 days	Change in muscle mass between study inclusion and study day 14; measured as change of the cross sectional area (ΔCSA) of the rectus femoris muscle via ultrasound.

Secondary Outcome Measures

Name	Time	Method
change in echogenicity of the rectus femoris	day 1 (study inclusion) until 90-day Follow-up	change in echogenicity from study inclusion until 90-day follow-up, measured via ultrasound.
change of the pennation angle of the rectus femoris	day 1 (study inclusion) until 90-day Follow-up	change of the pennation angle from study inclusion until 90-day follow-up, measured via ultrasound.
change in physical physical function	up to 90-day follow-up	change in physical physical function, measured by the Short Physical Performance Battery up to 90-day follow-up
change in muscle thickness of the rectus femoris	day 1 (study inclusion) until 90-day Follow-up	change in muscle thickness from study inclusion until 90-day follow-up, measured via ultrasound.
change of the muscle strength, measured by the Medical Research Council score (MRC-score)	day 1 (study inclusion) until 90-day Follow-up	change of the muscle strength, measured by the Medical Research Council score (MRC-score) from study inclusion until 90-day follow-up
change of the muscle strength, measured by handgrip dynamometry	day 1 (study inclusion) until 90-day Follow-up	change of the muscle strength, measured by handgrip dynamometry from study inclusion until 90-day follow-up
change in muscle endurance	up to 90 day follow up	change in muscle endurance, measured by the 6-minute walking test up to 90-day follow-up
development of quality of life	up to 90-day follow-up	development of quality of life, measured by the Short Form-36 up to 90-day follow-up
change in Skeletal muscle mass	day 1 (study inclusion) until 90-day Follow-up	change in Skeletal muscle mass, measured with bioelectrical impedance analysis up to 90-day follow-up.
change in extracellular volume	day 1 (study inclusion) until 90-day Follow-up	change in extracellular volume, measured by the Body impedance analysis
change in the REE (Resting Energy Expenditure)	day 1 (study inclusion) until 90-day Follow-up	change in the REE (Resting Energy Expenditure), measured by indirect calorimetry
Identify possible predictors of muscle wasting in urine metabolomics at ICU admission	day 1 (study inclusion) until 90-day Follow-up	Among the urine metabolomics that will be measured, identify metabolites or combinations of metabolites whose high or low concentration(s) at ICU admission associate(s) with the amount of muscle loss. These metabolites are candidate biomarkers that could be used to identify individuals at risk of large muscle wasting and may give further insights into the mechanisms of muscle wasting.
Identify possible predictors of muscle wasting in the blood metabolome at ICU admission	day 1 (study inclusion) until 90-day Follow-up	Among the blood metabolome that will be measured, identify metabolites or combinations of metabolites whose high or low concentration(s) at ICU admission associate(s) with the amount of muscle loss. These metabolites are candidate biomarkers that could be used to identify individuals at risk of large muscle wasting and may give further insights into the mechanisms of muscle wasting.
urea-to-creatinine ratio	day 1 (study inclusion) until 90-day Follow-up	urea-to-creatinine ratio from blood sample

Trial Locations

Locations (3)

Universitätsklinikum Ulm; 🇩🇪 Ulm, Germany

Klinikum rechts der Isar, School of Medicine, Technical Universtity of Munich; 🇩🇪 Munich, Bavaria, Germany

Charité - Universitätsmedizin Berlin; 🇩🇪 Berlin, Germany