High-definition Surface Electromyography Markers for the Diagnosis and Monitoring of Sarcopenia
- Conditions
- Sarcopenia
- Registration Number
- NCT06963359
- Lead Sponsor
- Assistance Publique - Hôpitaux de Paris
- Brief Summary
Sarcopenia is a progressive and generalised skeletal muscle disorder involving the accelerated loss of muscle mass and function that is associated with increased adverse outcomes including falls, functional decline, frailty, and mortality. In this project, the high-definition surface electromyography technology (HD-sEMG) signals will be analysed to extract features/ markers for the diagnosis of sarcopenia. This is a multicentric, descriptive, cross-sectional, parallel group study to develop a new diagnostic method.
It is planned to include 846 people aged 75 years and over hospitalized in the acute geriatric or rehabilitation wards and suspected of sarcopenia (Score ≥4 on the SARC-F screening questionnaire). The inclusion duration will be 18 months and adding a 3-month patient follow-up. The total study duration will be 21 months. Patients will have their body composition using bioimpedancemetry and if possible by dual X-ray absorptiometry (DEXA). Muscular strength will be assessed by handgrip strength. Physical performance will be assessed. Additional data will be collected from their medical records.
- Detailed Description
The aging of the population is a major public health problem with its multifactorial impact on quality of life and maintenance of autonomy. Unfortunately, one consequence of aging is sarcopenia, which affects the intrinsic and functional properties of muscle. It is a risk factor for loss of autonomy, falls, frailty and is associated with increased mortality. Sarcopenia is defined as a progressive loss of muscle mass, strength and physical performance. Classically, sarcopenia is assessed by imaging techniques (MRI, DEXA) or bioelectrical impedancemetry for aspects related to the assessment of muscle mass loss. MRI or DEXA are not widely available and/or access is limited. For functional aspects, grip strength measurements are often used. Currently sarcopenia cannot be diagnosed and evaluated by a single examination, including both the morphological (muscle mass) and functional aspects. Furthermore, several biological markers are associated with muscle mass, strength, and function, but these biomarkers are not specific to skeletal muscle and are weakly associated with clinical goals. Finally, despite the important interest in assessing the qualitative/functional and quantitative aspect of skeletal muscle in neuromuscular impairment, there is currently no tool that routinely assesses these aspects. In this context, developing new approaches for non-invasive assessment of sarcopenia, is a major issue. In this project, the investigators aim to develop an automatic procedure derived from high-definition surface electromyography (HD-sEMG) technology, non-invasive and portable, for the diagnosis of sarcopenia.
Recruitment & Eligibility
- Status
- NOT_YET_RECRUITING
- Sex
- All
- Target Recruitment
- 846
- Patient aged 75 years and over
- Score ≥4 on the SARC-F screening questionnaire
- Enrolled in a social security plan (no AME)
- Informed and consenting patient
- BMI ≥30 kg/m2
- Severe psychiatric pathology or severe cognitive disorders that do not allow the performance of examinations
- Patients who are dependent for all acts of daily life
- Patients with a very short life expectancy <3months
- Pace maker
- Recent fracture or trauma of the preventing dynamic measurement of HD-sEMG recording
- Bilateral hip prosthesis
- Skin problem that may interfere with the recording of surface EMG activity
- Skin allergies to plasters
- Allergies to electrode materials (acrylate)
- Patient under legal protection
- Patient on state medical aid (AME : Aide Médicale d'Etat)
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- SINGLE_GROUP
- Primary Outcome Measures
Name Time Method Diagnostic score of electromyographic signals from the rectus femoris collected by the HD-sEMG technique, differentiating sarcopenic from non-sarcopenic elderly subjects Day 1- Day 7
- Secondary Outcome Measures
Name Time Method HD-sEMG signals associated with functional recovery Day 90+/-7 days Identify HD-sEMG parameters associated with good functional recovery of autonomy at D21 and M3 of hospitalization (muscle resilience)
HD-sEMG signals associated with Muscle Mass Index Day 7 Correlation between electromyographic signals from the rectus femoris collected using the HD-sEMG technique and the Muscle Mass Index measured by DEXA or Bioimpedancemetry
HD-sEMG signals associated with grip strength Day 7 Correlation between electromyographic signals from the rectus femoris collected using the HD-sEMG technique and grip strength measured using manual hydraulic dynamometer
HD-sEMG signals associated with physical performance Day 7 Correlation between electromyographic signals from the rectus femoris collected using the HD-sEMG technique and the physical performance measured using Short Physical Performance Battery score (bad physical performance if score ≤ 8).
HD-sEMG signals associated with quadriceps muscle and subcutaneous fat thickness Day 7 Correlation between electromyographic signals from the rectus femoris collected using the HD-sEMG technique and quadriceps muscle and subcutaneous fat thickness measured using portable ultrasound).
Progress in muscle parameters Day 21 +/-3 days Changes in muscle parameters mentioned above, between the D0 and D21.
Correlation between muscle parameters and in-hospital complications Day 21 +/-3 days Study the relationship between muscle parameters and in-hospital complications. (cardiovascular, pulmonary and thromboembolic diseases)
Correlation between muscle parameters and quality of life Day 90+/-7 days Study the relationship between muscle parameters and quality of life measured using EQD5 scale (EuroQol-5D; 0-20: higher scores mean a worse outcome).
Trial Locations
- Locations (1)
Unité d'Explorations fonctionnelles du sujet âgé - Hôpital Charles Foix
🇫🇷Ivry sur Seine, France