Clinical Trial: Brain Structure and Clinical Endpoints in Myotonic Dystrophy Type 2
Study Status: RECRUITING
Recruit Status: RECRUITING
Study Type: OBSERVATIONAL
Official Title: Brain Structure and Clinical Endpoints in Myotonic Dystrophy Type 2 (BraCE-DM2)
Brief Summary: Nearly two-third of patients with myotonic dystrophy type 2 (DM2) report that impaired cognition is among the most disabling symptoms and deeply affects their quality of life.
Yet, relatively little is known about how DM2 affects brain structure and cognitive function as brain imaging studies in DM2 are extremely limited.
This is a prospective, cross-sectional study of brain structure and function on cognitive and motor performance in patients with DM2 compared to healthy controls.
All participants will undergo magnetic resonance imaging (MRI) to evaluate brain structure and white matter integrity, a comprehensive battery of cognitive and motor measures, self-reported questionnaires, and blood collection for brain-based biomarker analysis.
A subset of participants will undergo lumbar puncture for cerebrospinal fluid (CSF) collection for additional biomarker analysis and validation.
This work is critical to inform the development of rigorous clinical trial designs and plan for a longitudinal study to evaluate MRI measures as imaging biomarkers of disease progression and therapeutic response in DM2.
Detailed Summary:
Myotonic dystrophy type 2 (DM2), autosomal dominant muscular dystrophy, is characterized by late-onset proximal muscle weakness, myotonia, and multisystem features.
Although muscle weakness is the key symptom, almost 70% of patients with DM2 report that impaired cognition is among the most disabling symptoms and affects their quality of life.
Small literature describes cognitive deficits and cerebral white matter involvement in those with DM2, compared to controls.
However, the mechanisms that lead to cognitive dysfunction are poorly understood.
As the momentum of therapeutic development is outpacing our understanding of the central nervous system (CNS) manifestations in myotonic dystrophy, there is an urgent need to identify measures of brain imaging, cognitive function, and biomarkers of CNS pathology that are disease-specific and clinically relevant, and establish relationships of these measures to inform future clinical trial designs in DM2.
In this study, we will carry out a comprehensive baseline characterization of 50 adults with DM2 and 50 age and gender-matched controls identified from clinical populations across the US and through the national myotonic dystrophy registry.
All participants will undergo 3 Tesla (3T)-brain MRI to obtain voxel-based morphometry and diffusion tensor imaging (DTI) sequences, a comprehensive Clinical Assessment Battery (CAB) of cognitive and motor measures, patient-reported outcomes, and blood collection for analysis of CNS biomarkers at their baseline visits.
A subset of 20 participants will undergo lumbar punctures to collect cerebrospinal fluid (CSF) specimens for additional biomarker analysis and validation.
Measures of MRI, CAB, and fluid biomarkers will be compared between DM2 and controls.
Relationships between MRI measures, cognitive and motor endpoints, and biofluid (plasma and CSF) biomarkers will be analyzed within the DM2 group.
Validation of plasma and CSF biomarkers will also be determined.
Sponsor: Wake Forest University Health Sciences
Current Primary Outcome: Measures of brain volume will be expressed as a ratio (0 to 1) to intracranial volume to create proportional values of brain volume.
Original Primary Outcome: Measures of brain volume will be expressed as a ratio (0 to 1) to intracranial volume to create proportional values of brain volume.
Current Secondary Outcome:
Original Secondary Outcome:
Information By: Wake Forest University Health Sciences
Dates:
Date Received: April 21, 2023
Date Started: April 26, 2023
Date Completion: April 26, 2023
Last Updated: May 02, 2023
Last Verified: April 01, 2023
