Using Game-based Exercise to Improve Balance in Cancer Patients

Baylor College of Medicine35 enrolled

Overview

Cancer patients with chemotherapy-induced peripheral neuropathy (CIPN) have deficits in sensory and motor skills leading to inappropriate proprioceptive feedback, impaired postural control and high fall risk. This study will investigate the acceptability and effect of an interactive motor adaptation balance training program based on wearable sensors for improving balance in older cancer patients with CIPN. Cancer patients with confirmed CIPN will be recruited and will be randomized to either intervention (IG) or control (CG) group and followed for 6 months. The intervention group will take part in a 6-week balance training program twice per week in either their home or in clinic (based on subject preference) under the supervision of a qualified research staff member. This intervention includes interactive game-based balance training including repetitive weight shifting and virtual obstacle crossing tasks. Wearable sensors will provide real-time visual/auditory feedback from foot and ankle position and allowed perception of motor-errors during each motor-action. The control group will be instructed to complete a supervised foot and ankle exercise without using sensor technology. Changes in balance, gait, and physical activity, and number of falls will be compared pre- and post-intervention, as well as 3 and 6 month post intervention. Investigators hypothesize that patients receiving sensor-based exercise training will benefit more compared to group receiving conventional non-technology home-based training in terms of improving functional performance and reducing falls.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

SUPPORTIVE_CARE

Masking

DOUBLE

Enrollment

Conditions

Interventions

sensor-based interactive exercise (game-based exercise)OTHER

This intervention includes interactive game-based balance training including repetitive weight shifting and virtual obstacle crossing tasks. Wearable sensors will provide real-time visual/auditory feedback from foot and ankle position and allowed perception of motor-errors during each motor-action.

Intervention without game-based exerciseOTHER

Subjects are asked to perform non-technology based foot and ankle exercises, which include body weight shifting and obstacle crossing tasks.

Eligibility

Sex: ALLMin age: 55 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Cancer patients * Men or women aged 55 years or older * Patients undergoing neurotoxic chemotherapy (agents including platinums, vinca alkaloids, taxanes, proteasome inhibitors and interferons) * Confirmed peripheral neuropathy (VPT\>25) will be eligible to participate Exclusion Criteria: * Subjects will be excluded if they have undergone surgery in the last 6-8 weeks * Have Parkinson's Disease * Stroke patients * Dementia patients * Have an active foot ulcer * Have an active infection * Lower extremity major amputation * Patient is taking medications unrelated to cancer treatment that may affect balance and gait * Patient has other medical conditions that may affect their balance and gait * Patient is unable to ambulate without assistance.

Outcomes

Primary Outcomes

Gait Speed change from Baseline to 6 weeks, three months and six months

walking ability is quantified by gait speed.

Time frame: Baseline, 6 weeks, three months, six months

Balance change from Baseline to 6 weeks, three months and six months

balance is quantified by body sway

Time frame: Baseline, 6 weeks, three months, six months

Secondary Outcomes

Fear of falling change from Baseline to 6 weeks

Measuring fear of falling using Fall Efficacy Scale International (FES-I) questionnaire

Time frame: Baseline and 6 weeks