INTRODUCTION: The 6-minute walk test (6MWT) is frequently used as an outcome measure for clinical trials in neuromuscular disease. Because this submaximal endurance test is not feasible for nonambulatory patients, the motor-assisted 6-minute cycling test (A6MCT) was developed. METHODS: Nineteen children with neuromuscular disorders and children with OXPHOS-dysfunction performed the a6MCT and the 6MWT to explore feasibility and construct validity. Test-retest reproducibility was evaluated within 3 weeks. RESULTS: The assisted 6-minute cycling test was feasible in 90% and 78% of the patients with a neuromuscular disorder and OXPHOS-dysfunction, respectively. The A6MCT for legs correlated with the 6MWT in both patient groups. The assisted 6-minute cycling showed good reproducibility for both legs and arms. CONCLUSIONS: This exploratory study indicates that the assisted 6-minute cycling test is a promising outcome measure for patients with a neuromuscular disorder and patients with OXPHOS-dysfunction. Muscle Nerve, 2015. Muscle Nerve 54: 232-238, 2016.
INTRODUCTION: The 6-minute walk test (6MWT) is frequently used as an outcome measure for clinical trials in neuromuscular disease. Because this submaximal endurance test is not feasible for nonambulatory patients, the motor-assisted 6-minute cycling test (A6MCT) was developed. METHODS: Nineteen children with neuromuscular disorders and children with OXPHOS-dysfunction performed the a6MCT and the 6MWT to explore feasibility and construct validity. Test-retest reproducibility was evaluated within 3 weeks. RESULTS: The assisted 6-minute cycling test was feasible in 90% and 78% of the patients with a neuromuscular disorder and OXPHOS-dysfunction, respectively. The A6MCT for legs correlated with the 6MWT in both patient groups. The assisted 6-minute cycling showed good reproducibility for both legs and arms. CONCLUSIONS: This exploratory study indicates that the assisted 6-minute cycling test is a promising outcome measure for patients with a neuromuscular disorder and patients with OXPHOS-dysfunction. Muscle Nerve, 2015. Muscle Nerve 54: 232-238, 2016.
Authors: Christopher I Morse; Emma L Bostock; Harriet M Twiss; Laura H Kapp; Paul Orme; Matthew F Jacques Journal: Muscle Nerve Date: 2018-05-17 Impact factor: 3.217
Authors: Werner Jh Koopman; Julien Beyrath; Cheuk-Wing Fung; Saskia Koene; Richard J Rodenburg; Peter Hgm Willems; Jan Am Smeitink Journal: EMBO Mol Med Date: 2016-04-01 Impact factor: 12.137