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Entrenamiento antigravitatorio e inmersivo de realidad virtual para la rehabilitación de la marcha en la enfermedad de Parkinson: estudio piloto y de viabilidad

N. Brandín de la Cruz, Nicolás Secorro, Sandra Calvo, Yacine Benyoucef, Pablo Herrero Gallego, Pablo Bellosta‐López

2020Revista de Neurología16 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: Treadmill training is considered an effective intervention to improve gait ability in patients with Parkinson's disease (PD). In parallel, virtual reality shows promising intervention with several applications in the inpatient medical setting. AIM: To evaluate the feasibility and preliminary efficacy of mechanical gait assistance combined with immersive virtual reality in patients with PD. PATIENTS AND METHODS: This pilot and feasibility study followed a pre-post study design. The intervention consisted of 12 sessions of 30 minutes, distributed regularly over four consecutive weeks. Participants walked on a treadmill with a body-weight support system set at approximately 20% of body weight and equipped with a virtual reality helmet controlled by a two-handed joystick. Feasibility and intervention outcomes were collected at baseline and after four weeks of intervention. RESULTS: Twelve participants of 60 patients were finally enrolled. Nine of them (75%) completed the treatment intervention with an adherence rate of 97%. Two participants left the study, one of them due to sickness associated with virtual reality and another because of a lack of motivation. There were significant differences associated with small-medium effect sizes when comparing the pre and post values for walk distance, walk speed, balance, and quality of life. CONCLUSIONS: The present study provided preliminary evidence supporting the feasibility of the combination of antigravity treadmill and immersive virtual reality system for the rehabilitation of patients with PD.

Topics & Concepts

HumanitiesPsychologyPhilosophyBalance, Gait, and Falls PreventionStroke Rehabilitation and RecoverySpaceflight effects on biology