Abstract
Cerebral arteriovenous malformations (AVMs) are congenital vascular abnormalities that can lead to neurological impairments following rupture. This proof-of-concept case report examines the integration of the Monitored Augmented Rehabilitation System (MARS), an immersive virtual gaming platform, into a multidisciplinary rehabilitation program for a 12-year-old female recovering from a ruptured AVM. MARS was used as an adjunct modality alongside conventional interventions over a 4-week period to target functional outcomes as assessed by the Neurocom Balance Manager(®). Quantitative results demonstrated targeted functional gains: Directional Control during the Limits of Stability test increased from 66% to 73%, toes-up Adaptation Test scores improved from 104.2 to 116.2, and toes-down scores from 115.6 to 119.0. Clinically observed increases in engagement, motivation, and adherence were noted during therapy sessions. This report underscores the feasibility and clinical potential of MARS as a complementary tool for enhancing motor learning and functional outcomes in pediatric neurorehabilitation. Future research should focus on larger sample sizes and extended intervention periods to validate the efficacy of MARS in improving long-term recovery outcomes.