Use of Interactive Gaming for Enhanced Function After Spinal Cord Injury
|ClinicalTrials.gov Identifier: NCT01537978|
Recruitment Status : Completed
First Posted : February 23, 2012
Last Update Posted : December 10, 2014
|Condition or disease||Intervention/treatment||Phase|
|Paraplegia and Tetraplegia||Other: Video gaming for enhanced function after spinal cord injury.||Phase 1|
Today, Nintendo's Wii has become integrated into our popular culture replete with its own vocabulary and marketed promise of achieving fitness through video gaming. Recently the term "Wii-habilitation" has gained popularity to represent application of interactive gaming into the therapeutic setting as a form of rehabilitation. However, this technology remains largely untested in the rehabilitation field despite seemingly widespread use.
Interactive gaming may indeed contribute to an important problem in rehabilitation, especially for persons with spinal cord injury (SCI) who use manual wheelchairs for primary mobility and depend on their upper extremity for independence. Individuals with SCI will benefit tremendously by maximization of early rehabilitation post-injury and effective ongoing conditioning focused on the upper extremity through a continuum of care model that supports life-long health habits. Further, traditional exercise therapy targets components of function such as range of motion and strength, but often relies on isolated movements and repetitions which might not be the most effective method. Alternately, video interactive gaming can provide an engaging, variable, challenging, and fun activity-based approach that could enhance both adherence to exercise and functional outcomes.
A video gaming system can be readily implemented in a clinical setting and affordably deployed for home use with minimal instruction, is easy to use for continuation of therapy, and is well-suited to the SCI population for whom exercise options are limited. A wide variety of activities and games are available that utilize upper extremity movements "playing" real world sports such as golf, tennis, and bowling; multiple options for play are available which add variety and contribute to a comprehensive work-out. Players must grade whole upper limb forces to play the various games paralleling a traditional exercise regimen; visual and auditory feedback add interest and fun to the sessions. Interactive gaming allows for single and multiple player options and thus lends itself readily to promotion of social engagement. Real-life scenarios may contribute to self-motivation.
|Study Type :||Interventional (Clinical Trial)|
|Actual Enrollment :||21 participants|
|Intervention Model:||Single Group Assignment|
|Masking:||None (Open Label)|
|Official Title:||Use of Interactive Gaming After Spinal Cord Injury|
|Study Start Date :||February 2012|
|Actual Primary Completion Date :||October 2012|
|Actual Study Completion Date :||October 2012|
Experimental: Video game play
Changes in upper limb; strength, active range of motion, electromyographic activity as well as heart rate response.
Other: Video gaming for enhanced function after spinal cord injury.
Spinal cord injured indviduals will play Nintendo Wii sports games for an 8 week period.
Other Name: Nintendo Wii Video gaming
- Increased Electromyographic actvity of upper the upper arm with video gaming. [ Time Frame: Testing session 1 - at the start of the study ("week 0"). This is called the baseline testing session. ]EMG will be measured at baseline testing for video game play and post testing after the videogaming is completed.
- Increased heart rate with Video gaming [ Time Frame: Testing session 1 - at the start of the study ("week 0"). This is called the baseline testing session. ]Baseline heart rate will be measured across all video games to see whcih elicit elevated hear rates consistent with appropriate exercise response.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT01537978
|United States, California|
|Va Palo Alto Health Care System|
|Palo Alto, California, United States, 94304|
|Principal Investigator:||Beatrice J Kiratli, PhD||VA Office of Research and Development|