Magnetic Resonance Imaging and Ultrasound Comparison With Load Evaluation

NCT ID: NCT06227182

Last Updated: 2025-01-13

Basic Information

• Recruitment Status: RECRUITING
• Total Enrollment: 100 participants
• Study Classification: OBSERVATIONAL
• Study Start Date: 2024-04-10
• Study Completion Date: 2027-01-31

Brief Summary

Facioscapulohumeral dystrophy (FSHD) is one of the most common hereditary neuromuscular disorders (NMD), with an estimated prevalence of 2000 patients in the Netherlands. Magnetic resonance imaging (MRI) and muscle ultrasound have contributed to an enhanced understanding of the pathophysiology of Facioscapulohumeral Muscular Dystrophy (FSHD). Previously, our group demonstrated the potential presence of an intermediate factor between muscle fiber loss and clinical weakness in FSHD. The influence of disrupted muscle architecture in FSHD on muscle contractile efficiency is a likely candidate for this factor, and remains relatively unexplored. In this study, we aim to assess the use of ultrasound-defined contractile performance, in comparison with current measures including structural MRI, for monitoring disease progression in FSHD.

Detailed Description

Rationale: Facioscapulohumeral dystrophy (FSHD) is a slowly progressive hereditary muscle dystrophy characterized by initial asymmetrical weakness of the facial and shoulder girdle muscles, frequently followed by weakness in the trunk and leg muscles.

Previously, our research group showed the potential presence of an intermediate factor between muscle fiber loss and clinical weakness in FSHD. The influence of disrupted muscle architecture in FSHD on muscle contractile efficiency is a likely candidate for this factor. However, there is currently still a lack of studies on how the disrupted muscle architecture in muscle dystrophies influences the contractile efficiency. We might establish a baseline for muscle contractile performance with muscle ultrasound, determined by muscle strain and displacement.

Muscle imaging has previously contributed to a better understanding of the pathophysiology of various neuromuscular disorders. Both MRI and ultrasound have proven their clinical relevance in neuromuscular dystrophy. With the current development of FSHD clinical trials, the extensive need for biomarkers to follow disease progression is growing. To investigate whether muscle contractile performance can help explain the loss in strength and thereby also has the potential to act as a future biomarker, will be explored in this project.

Objective(s): We aim to assess the use of ultrasound-defined contractile performance as a biomarker for monitoring disease progression and treatment effects in patients with FSHD.

Stage I:

To establish the feasibility, optimal protocol, and repeatability of quantifying ultrasound-defined muscle contractile performance in the upper and lower limb muscles in healthy volunteers and patients with FSHD.

Stage II:

1. To determine the differences in ultrasound-defined contractile performance between healthy individuals and patients with FSHD, and compare to conventional clinical measures, ultrasound measures and MRI measures.

2. To determine the responsiveness of ultrasound-defined contractile performance to disease progression in FSHD patients after 1 year, and compare to MRI measures and other ultrasound measures.

Study design: This prospective cohort study consists of two different stages. In Stage I, the feasibility and repeatability of quantifying ultrasound-defined muscle contractile performance will be assessed in 15 healthy volunteers and 10 patients with FSHD type 1 or 2. Each participant in stage I has to visit the hospital only once. In Stage II, the ultrasound-defined contractile performance, and other ultrasound and MRI outcome measures of healthy volunteers and FSHD patients (type 1 or 2) are compared. In addition, the responsiveness of the different measurements to disease progression after 1 year will be analyzed only in FSHD patients. 50 patients with FSHD will perform these measurements of stage II during the two scheduled visits at baseline (T0) and the two scheduled visits 1-year after the first visit. In stage II, 25 Healthy volunteers will be recruited and will undergo the muscle ultrasound assessment. Only 10 out of 25 healthy volunteers will also undergo the MRI measurements. None of the healthy volunteers will perform follow-up measurements after 1 year. Therefore, 15 healthy volunteers will perform the ultrasound assessment of stage II during 1 visit and 10 healthy volunteers will perform ultrasound measurements during visit 1 and MRI measurements during visit 2 at baseline. A total of 100 individuals will participate in this study.

Conditions

Muscular Dystrophy, Facioscapulohumeral

Study Design

• Observational Model Type: COHORT
• Study Time Perspective: PROSPECTIVE

Study Groups

Healthy individuals

Healthy individuals between 18 and 70 years old.

Muscle ultrasound with surface electromyography and dynamometry

Intervention Type: DIAGNOSTIC_TEST

The three procedures are conducted simultaneously for upper and lower extremity muscles. A standard muscle ultrasound preset with a fixed depth of 4 cm or 6 cm will be used, depending on which muscle is visualized in accordance with our routine clinical protocols. During the dynamic approach, the transducer will be placed in a longitudinal fixed position on the muscle using a ProbeFix. All measured contractions in the different muscles will be recorded as short ultrasound videos.

MRI scan

Intervention Type: DIAGNOSTIC_TEST

In Stage II, all patients and 10 healthy participants will undergo MRI. During the MRI procedure, we evaluate muscle fat fraction, muscle contractile volume, muscle inflammation and edema.

Patients with FSHD

Individuals with clinically and genetically proven FSHD type 1 or type 2.

Muscle ultrasound with surface electromyography and dynamometry

Intervention Type: DIAGNOSTIC_TEST

The three procedures are conducted simultaneously for upper and lower extremity muscles. A standard muscle ultrasound preset with a fixed depth of 4 cm or 6 cm will be used, depending on which muscle is visualized in accordance with our routine clinical protocols. During the dynamic approach, the transducer will be placed in a longitudinal fixed position on the muscle using a ProbeFix. All measured contractions in the different muscles will be recorded as short ultrasound videos.

MRI scan

Intervention Type: DIAGNOSTIC_TEST

In Stage II, all patients and 10 healthy participants will undergo MRI. During the MRI procedure, we evaluate muscle fat fraction, muscle contractile volume, muscle inflammation and edema.

Interventions

Muscle ultrasound with surface electromyography and dynamometry

The three procedures are conducted simultaneously for upper and lower extremity muscles. A standard muscle ultrasound preset with a fixed depth of 4 cm or 6 cm will be used, depending on which muscle is visualized in accordance with our routine clinical protocols. During the dynamic approach, the transducer will be placed in a longitudinal fixed position on the muscle using a ProbeFix. All measured contractions in the different muscles will be recorded as short ultrasound videos.

Intervention Type: DIAGNOSTIC_TEST

MRI scan

In Stage II, all patients and 10 healthy participants will undergo MRI. During the MRI procedure, we evaluate muscle fat fraction, muscle contractile volume, muscle inflammation and edema.

Intervention Type: DIAGNOSTIC_TEST

Eligibility Criteria

Inclusion Criteria

• Age between 18 and 70 years.
• Informed consent is given by the participant.
• Ability to read and understand written and spoken instruction in Dutch.
• Willingness and ability to understand nature and content of the study

Exclusion Criteria

• BMI ≥ 35
• Other diseases that could diffusely affect muscle integrity or disturb the imaging appearance beyond that what can be extrapolated.
• Wheelchair dependence
• Pregnancy
• Stage II: Any contra-indications for MRI, including:

• Claustrophobia
• Pacemakers and defibrillators
• Nerve stimulators
• Intracranial clips
• Intraorbital or intraocular metallic fragments
• Cochlear implants and ferromagnetic implants (e.g. implant for scoliosis)
• Inability to lie supine for 60 minutes
• Necessity of (continuous) daytime ventilation
• Scoliosis surgery

• Minimum Eligible Age: 18 Years
• Maximum Eligible Age: 70 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

Solve FSHD

UNKNOWN

Sponsor Role: collaborator

Radboud University Medical Center

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Nens Van Alfen, MD. PhD.

Role: PRINCIPAL_INVESTIGATOR

Radboud University Medical Center

Locations

Radboud university medical center

Nijmegen, Gelderland, Netherlands

Site Status: RECRUITING

Countries

Netherlands

Central Contacts

Odette Van Iersel, MSc

Role: CONTACT

Odette.vaniersel@radboudumc.nl

0243611111

Jonne Doorduin, PhD

Role: CONTACT

Jonne.Doorduin@radboudumc.nl

0243611111

Facility Contacts

Odette Van Iersel, MSc

Role: primary

Odette.vaniersel@radboudumc.nl

0243611111

Jonne Doorduin, PhD

Role: backup

Jonne.Doorduin@radboudumc.nl

0243611111

Other Identifiers

NL84168.091.23

Identifier Type: -

Identifier Source: org_study_id