Novel MRI Biomarkers for Monitoring Disease Progression in ALS

Overview

Routine MRI is normal in motor neuron diseases such as ALS. However, advanced MRI techniques can provide an objective measure of degeneration (a "biomarker") by examining brain structure, wiring, chemistry, and function. We will develop and evaluate novel MRI techniques that could improve our understanding of ALS and provide a means to diagnose it sooner and monitor its progression. Importantly, we expect these techniques to improve how new drugs are tested, which may lead to the more rapid discovery of a treatment for ALS. Each participant will have 3 MRI scans over a period of 8 months, along with neurological and cognitive evaluations. Study visits will take 2 - 3 hours. MRI is a safe technique that does not involve radiation.

Current clinical measures of disease burden have suboptimal sensitivity to disease progression in ALS. A biomarker would play an essential role in the evaluation of novel therapeutics, leading to the realization of effective treatments faster. Magnetic resonance imaging (MRI) holds promise as a non-invasive source of biomarkers in ALS. In this study data is collected from a national imaging platform (the Canadian ALS Neuroimaging Consortium \[CALSNIC\]) using standardized MRI and clinical protocols. CALSNIC was founded with the objective to validate MRI biomarkers on a standardized multi-centre platform. CALSNIC is a multidisciplinary group of scientists at 7 centres across Canada. The first CALSNIC study entitled "MRI Biomarkers in ALS" (CALSNIC-1) is ongoing and slated to finish recruitment in 2017. This study ("Novel MRI Biomarkers for Monitoring Disease Progression in ALS", CALSNIC-2) is a new project that will evaluate novel MRI biomarkers using advanced imaging acquisition and processing methods. The specific aims of CALSNIC-2 are 1) to establish a standardized MRI and clinical protocol across the 7 centres, and 2) to validate MRI measures with clinical measures of disease burden and progression. It is anticipated that the project will lead to the discovery of MR-based biomarkers of cerebral degeneration that can be applied across different centres and hence, can assist with drug development. Secondly, this project will expand CALSNIC to include more centres and provide opportunities for collaborative and multidisciplinary translational research on a national scale.