High-tech Rehabilitation Impact on Muscle MRI

• Conditions: Movement Disorders; Treatment

• Registration Number: NCT06884956
• Lead Sponsor: IRCCS Eugenio Medea

Brief Summary

The use of high-tech techniques is becoming increasingly popular in the rehabilitation field, where the use of exoskeletons, robots, virtual reality, etc. allow for customized rehabilitation protocols. Moreover, their combination with virtual reality systems improves the patient's involvement increasing the effectiveness of the treatment, especially in the pediatric context.

Several literature studies confirmed the effectiveness of rehabilitation treatments in the pediatric field in terms of functional and physiologic scores (e.g. GMFM).

This study aims to use MRI to identify biomarkers for the morpho-functional characterization of skeletal muscle and for the evaluation of the effect of high-tech rehabilitation treatment on it.

Detailed Description

The use of high-tech techniques is becoming increasingly popular in the rehabilitation field, where the use of exoskeletons, robots, virtual reality, etc. allow for very refined control of the rehabilitation process, making it more repeatable and, at the same time, more customization on the needs of the individual patient. Furthermore, the use of virtual reality and applications with video game-style scenarios increase the patient's involvement and active participation, one of the crucial factors for maximizing the effectiveness of rehabilitation treatment, especially in the pediatric field. Studies also conducted at our institute have widely demonstrated the effectiveness of rehabilitation treatments in the pediatric field. In a study conducted at the Bosisio Parini center on 23 patients with acquired brain injuries, rehabilitation treatment with RAGT (Robotic-Aided Gait Training) and physiotherapy led to a general improvement in walking patterns and functional activities. The rehabilitation protocol included an intensive 4-week program with 20 sessions of RAGT and 20 sessions of traditional physiotherapy. The improvement in functionality was evaluated through the administration of the Gross Motor Function Measures GMFM scale, scales D and E) and the "6 Minutes Walk test", while the gait pattern was evaluated through gait analysis, highlighting an improvement regarding cadence, speed and stride length. Another study also conducted at the Bosisio Parini center demonstrated the effectiveness of the RAGT treatment also in a population of patients suffering from infantile cerebral palsy. In this second study, the effect of the rehabilitation process on the plasticity of the central nervous system was also evaluated using Magnetic Resonance Imaging (MRI). The analysis of Diffusion Tensor Imaging (DTI) and brain volumetric data on a group of 16 patients reported no significant effects at the group level; however, by stratifying the patients on the basis of the degree of clinical improvement achieved it was possible to observe an increase in the Fractional Anisotropy (FA) value at the level of some brain bundles, including the corticospinal tracts. To date, few studies have been carried out to study the effect of high-tech rehabilitation treatments directly on the patient's muscle tissue and, consequently, to better identify the categories of patients who respond better to rehabilitation treatment with the same initial clinical condition. In this context, MRI is a very promising tool, as it allows a completely non-invasive in-vivo measurement of the state of muscle tissue, which can be repeated several times even in a short time without risks for the patient. In another study conducted at the Bosisio Parini centre, muscle MRI was used to characterize patients suffering from two different types of limb-girdle muscular dystrophy (2A, 2B). In a subsequent study, muscle MRI was used to study the effect of Duchenne muscular dystrophy on respiratory muscles. A multicenter study which also involved our institute demonstrated that the use of a standardized acquisition and processing protocol for muscle MRI leads both to a high degree of repeatability of the measurements calculated from the MRI images and to their temporal stability, a an indispensable feature for any longitudinal studies. In this sense, the collaboration between our institute and the Institute of Biomedical Technologies (ITB) of the CNR has led to the development of a multimodal muscle MR image registration algorithm to improve data analysis in longitudinal studies. This study therefore aims to use MRI to identify biomarkers for the morpho-functional characterization of skeletal muscle and for the evaluation of the effect of high-tech rehabilitation treatment on it. For this purpose, it is planned to recruit a heterogeneous population of patients undergoing high-tech rehabilitation treatment in a clinical setting who will be asked to undergo a multimodal muscle MRI before and after the rehabilitation process. These measures can provide a useful tool both to better characterize the chain of events that lead to an improvement in the patient's functionality and to identify which patients can benefit most from this treatment.

Study Timeline

• Study Start: 2023-06-13
• Status Verified: 2025-03
• Study First Submitted: 2025-03-13
• Study First Submitted QC: 2025-03-13
• Last Update Submitted: 2025-03-13
• Study First Posted: 2025-03-19
• Last Update Posted: 2025-03-19
• Primary Completion: 2025-09
• Study Completion: 2025-12

Recruitment & Eligibility

• Status: ENROLLING_BY_INVITATION
• Sex: All
• Target Recruitment: 30

Inclusion Criteria

• patients undergoing high-tech rehabilitation treatment of the lower limb
• able to remain in a supine position for 30 minutes without moving
• able to follow instructions and communicate effectively with operators (e.g communicating fear and/or pain)

Exclusion Criteria

• any contraindication to MRI examination
• presence of metal nails/protheses or objects near the thighs which will disrupt and/or induce distortion on the MR images

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Volume	Evaluated before and after the (2-3 weeks) rehabilitation treatment. The MRI data were acquired within 3 days before the beginning of the treatment and the within one week after the end of the treatment.	Muscular fibre volume derived from T1W MR images
Fat Fraction	Evaluated before and after the (2-3 weeks) rehabilitation treatment. The MRI data were acquired within 3 days before the beginning of the treatment and the within one week after the end of the treatment.	Measure of fat infiltration in the muscular tissue derived from DIXON MR images and quantified in the different fiber bundles
GMFM	Evaluated before and after the (2-3 weeks) rehabilitation treatment. The GMFM scales will be administered close to the MRI scan sessions.	Gross Motor Function Scale

Secondary Outcome Measures

Name	Time	Method
Fractional Anisotropy	Evaluated before and after the (2-3 weeks) rehabilitation treatment. The MRI data were acquired within 3 days before the beginning of the treatment and the within one week after the end of the treatment.	Measure of structural integrity derived from Diffusion Weighted MR images (DWI)

Trial Locations

Locations (1)

IRCCS Eugenio Medea - La Nostra Famiglia; 🇮🇹 Bosisio Parini, LC, Italy