This is an ancillary application to the parent project R01AR056973, Magnetic Resonance Imaging and Biomarkers for Muscular Dystrophy. Duchenne muscular dystrophy (DMD) is one of the most devastating genetically linked neuromuscular diseases and affects one in 3,500-6,000 boys. Dystrophic muscle is fragile and experiences repeated cycles of muscle fiber degeneration and regeneration, before they are ultimately replaced by intramuscular fat and fibrosis. Since new experimental therapeutic strategies are targeting the suppression of inflammation and fibrosis, this ancillary study proposes to examine the link between magnetic resonance (MR) markers and genetic modifiers of fibrosis and inflammation, specifically Ltbp4 and osteopontin. A significant challenge for MR has been the quantification of fibrosis, characterized by short T2 values, which may not be visualized by standard MRI. In this ancillary study, we will add novel MR acquisitions that are sensitive to short T2 to monitor fibrosis in the large cohort of boys with DMD enrolled in the parent study. The central hypothesis of this ancillary study is that MR markers of muscle fibrosis and inflammation are linked to LTBP4 and osteopontin genetic variants and disease progression in DMD. To test this hypothesis we propose the following three aims.
In Aim 1 additional MR scans will be added to the parent study to capture and quantify MRI signals with extremely short T2 values to monitor fibrosis. Scans will be performed at baseline for cross-sectional analysis in year 1 of the ancillary study and correlated with latent transforming growth factor TGF? binding protein-4 (LTBP4) polymorphisms derived from patient fibroblast collected as part of the parent project.
In Aim 2, we will perform additional quantitative measures of muscle water relaxation and water content (edema) and relate these to differences in serum profiles of inflammatory markers and polymorphisms in the osteopontin gene. Finally in Aim 3 we will take advantage of the longitudinal functional and MR data collection in the parent project to study the relationship between the 1-year change in MR markers of fibrosis, lipid deposition, and loss in functional performance and its association with LTBP4/Osteopontin genotype. This is a time-sensitive application to leverage the investment in infrastructure, access to enrolled boys with DMD, and extensive data collection in the parent natural history project. The proposed ancillary study is in response to RFA-AR-13-010 and is important for the development for future clinical trials in boys with DMD.
Duchenne muscular dystrophy (DMD) is one of the most devastating genetically linked neuromuscular diseases and affects one in 3,500-6,000 boys. Dystrophic muscle is fragile and experiences repeated cycles of muscle fiber degeneration and regeneration, before they are ultimately replaced by intramuscular fat and fibrosis. Since new experimental therapeutic strategies are targeting the suppression of inflammation and fibrosis, this ancillary study proposes to examine the link between magnetic resonance (MR) markers and genetic modifiers of fibrosis and inflammation.
Willcocks, R J; Triplett, W T; Forbes, S C et al. (2017) Magnetic resonance imaging of the proximal upper extremity musculature in boys with Duchenne muscular dystrophy. J Neurol 264:64-71 |
Forbes, Sean C; Willcocks, Rebecca J; Rooney, William D et al. (2016) MRI quantifies neuromuscular disease progression. Lancet Neurol 15:26-8 |
Willcocks, Rebecca J; Rooney, William D; Triplett, William T et al. (2016) Multicenter prospective longitudinal study of magnetic resonance biomarkers in a large duchenne muscular dystrophy cohort. Ann Neurol 79:535-47 |
Forbes, Sean C; Willcocks, Rebecca J; Triplett, William T et al. (2014) Magnetic resonance imaging and spectroscopy assessment of lower extremity skeletal muscles in boys with Duchenne muscular dystrophy: a multicenter cross sectional study. PLoS One 9:e106435 |
Arpan, Ishu; Willcocks, Rebecca J; Forbes, Sean C et al. (2014) Examination of effects of corticosteroids on skeletal muscles of boys with DMD using MRI and MRS. Neurology 83:974-80 |