Abstract
BACKGROUND: There is an unmet need for the clinically relevant ALS biomarkers to facilitate an accurate diagnosis in suspected cases, monitor disease progression and evaluate response to therapy in clinical trials. While the MND/ALS literature is dominated by innovative brain studies, motor disability in ALS is primarily driven by neurogenic muscle change impacting mobility, dexterity, respiratory and bulbar function. METHODS: With the intention of raising awareness of muscle-derived imaging markers in ALS, a systematic review has been conducted. Study designs, imaging methods, data interpretation frameworks, and cohort characteristics were systematically evaluated to identify innovative approaches and barriers to clinical implementation. RESULTS: A total of 219 studies were screened and 73 original studies selected for systematic review; 37 muscle MRI studies and 36 studies using ultrasound, PET or CT. All of the selected studies successfully captured ALS-associated muscle degeneration and their methods included the evaluation of muscle dimensions (thickness/volumes n = 34), 'acute' denervation (water content, n = 15), fasciculation counts (n = 14), 'chronic' neurogenic change (fat content, n = 21), metabolic changes (n = 4), diffusion alterations (n = 8) and echo intensity changes (n = 13). CONCLUSIONS: Despite the huge impact of lower motor neuron dysfunction on the patients' independence, survival and quality of life, muscle imaging is a glaringly overlooked frontier of MND/ALS research. This is a missed opportunity, as a variety of non-invasive quantitative muscle imaging techniques have been successfully used in other neurological conditions; these protocols are easy to implement on commercial MRI and ultrasound platforms and recent studies have demonstrated their ease of use and potential clinical utility.