Somya Saxena
Background: Instrumented gait analysis is now increasingly used in clinical decision-making scenarios, as a marker of disease progression, as an early indicator of motor dysfunction, as a differentiating feature for diseases with same phenotype presentation and as an outcome measure for effect of interventions. This is particularly relevant for motor dysfunction in rare inherited neurological disorders which often result in gait impairment.
Purpose: Several rare diseases have variable presenting features primarily manifesting as reduced quality of life and impaired function. We aim to investigate the role of gait analysis in the diagnosis of these disorders as it is often difficult and complex.
Methods: This is a retrospective observational analysis of quantitative gait parameters of a 15-year-old male presenting with features of mitochondrial dysfunction, and our analysis of gait-related parameters before exercise, post exercise and in recovery phase.
Results: The results depicted a few significant changes in gait analysis pattern post exercise which improved in recovery phase hinting at the potential use of gait analysis in such disorders particularly metabolic disorders. This study aims to bridge this gap by presenting three-dimensional gait parameters of a case with mitochondrial disorders and to explore its utility.
Conclusions: 3D gait analysis may prove to be an adjunct in the diagnosis, classification and prognosis of rare neuromuscular diseases. It holds potential for diagnosing subtle changes in gait and quantifying the effect of treatment and rehabilitation on gait and hence functional abilities of the patients