Impaired Balance Clinical Trial
— WIICANOfficial title:
10 Weeks of NIntendo wIi Fit balanCe Training Improved Postural balANce and Muscle Strength in Elderly Individuals: Double Blinded, Randomised Controlled Trial
Verified date | January 2012 |
Source | Aalborg Universitetshospital |
Contact | n/a |
Is FDA regulated | No |
Health authority | Denmark: National Board of Health |
Study type | Interventional |
On a yearly basis roughly 40.000 individuals aged 65+ contact the emergency departments in
Denmark as a result of an accidental fall, and in about 30% of these cases hospitalization
is required. The cost of these admissions vary according to the type of injury with hip
fractures being the most expensive accident {{113 Chrischilles,E. 1994; }}. The total
average cost of a severe hip fracture in the Danish healthcare system resulting in nursing
home placement has been estimated to approximately 365.000 Danish Kroner (Dkk) per year
{{288 Christensen,P.M. 2005;}}. In addition, about 20 % of the elderly individuals who
sustain a hip fracture will die within 6 months {{200 Brot,C. 2006; }}. For the society the
outcome of falling in the elderly population is therefore not only associated with severe
human but also economical consequences. Hence, it is essential to refine, develop and think
"out of the box" when future intervention programs are designed and employed in the elderly
community.
One such "out of the box" intervention could be balance training with a Nintendo Wii Fit
board (Nintendo Wii, Nintendo Co Ltd, Minami-ku Kyoto, Japan). The Nintendo Wii Fit board is
a new generation of computer game which uses 3D tracking of the participants' motion and
gestures. This means that the user interacts in and controls elements of the 3D gaming world
with their own body {{307 LaViola,J.J.,Jr 2008;}}. In the case of the Wii Fit board, it
detects the body sway and center of pressure (COP) of the participant and displays it onto a
TV screen in different balance sceneries. A virtual character on the TV then reacts
according to the user's movement and gesture (ex. skiing down a ski slope passing thru
gates). This enables the user to perform tasks that, they may not be able to execute safely
or at all in real-world situations. Interestingly in this context a study by Sihvonen et al
from 2004 showed a compliance of 97,5% using the same technique as the Wii Fit only in 2D
and with a poor graphical display. Further, the Sihvonen-study showed that 2D "biofeedback"
intervention of only 4 weeks proved successful in terms of improved postural balance,
physical activity and life quality {{297 Sihvonen,S. 2004;}}. Finally, traditional methods
when promoting physical activity in the elderly population has been limited by lack of
motivation or poor compliance (REFS), which possibly has prevented the elderly from reaching
a maximum rehabilitation potential(REFS). Furthermore, in the follow-up period after these
traditional intervention studies, it has been documented how difficult it is for the elderly
to sustain the same training volume on themselves (REFS).
Virtual reality systems like the Nintendo Wii Fit have been developed specifically for
rehabilitation of the upper- {{301 Kuttuva,M. 2006;300 Dvorkin,A.Y. 2006;}} and
lower-extremities and gait training {{298 Deutsch,J.E. 2007;}}. Further virtual reality
platforms have been use for rehabilitation and training of reaching movements {{302 Piron,L.
2001;}}, motor coordination {{303 Broeren,J. 2002;}}, hand strength and range of motion,
speed of hand movement{{304 Jack,D. 2001;305 Merians,A.S. 2002;}}. But so far most of these
systems have not become commercially available possible due to a very high cost {{294
Deutsch,J.E. 2008;}}. Moreover in some cases the virtual rehabilitation environment has to
be constructed from scratch making the hole process and implication very complicated {{306
Weiss,P.L. 2004;}}. Thus, designing an intervention program that utilizes the low-cost
ready-to-use Wii Fit platform could be a possible research direction to explore. At the
moment few studies have been conducted using the Nintendo Wii console. Among the few some
have investigated the energy expenditure in kids (11-17 years of age) playing Wii Sports
(bowling, tennis and boxing) compared to sedentary xbox games and actual bowling, tennis and
boxing {{ 295 Graves,L.E. 2008; 296 Graves,L. 2008; }} while others have explored the
Nintendo Wii console for rehabilitation of an adolescent with cerebral palsy {{294
Deutsch,J.E. 2008; }}.
To the authors knowledge no studies have investigated the effect of 10 weeks of Nintendo Wii
Fit balance training in seniors (+65 years). The main purpose of the study is to investigate
the hypothesis: That 10 weeks of Nintendo Wii Fit balance training in a group of seniors
(+65 years of age) have a significant effect on postural balance and muscle strength.
Status | Completed |
Enrollment | 58 |
Est. completion date | October 2011 |
Est. primary completion date | October 2011 |
Accepts healthy volunteers | No |
Gender | Both |
Age group | 65 Years and older |
Eligibility |
Inclusion Criteria: - Age above 65 years - No physical therapy during the previous month - capable of understanding instructions - not recovering from acute illness - minimal loss of visual acuity - Selfprecived balance (good, average, poor) = average or poor - No orthopaedic Surgery within the last 6 months |
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Investigator, Outcomes Assessor), Primary Purpose: Treatment
Country | Name | City | State |
---|---|---|---|
Denmark | Aalborg Hospital | Aalborg | Nordjylland |
Lead Sponsor | Collaborator |
---|---|
Aalborg Universitetshospital |
Denmark,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Balance | M-L sway velocity, A-P sway velocity and velocity moment on a Metitur, FI " Good Balance" | Baseline=june; Endline=september | No |
Primary | Muscle strength | Maximum muscle strength (MVC) and rate of force development (RFD) bilateral assessed on a Newtest,FI legpress | Baseline=june; Endline=september | No |
Primary | Motivation | At the end of the study 3 questions on the likert scale will be asked in order to evaluate the participants motivation for further nintendo wii training. | Baseline=june; Endline=september | No |
Secondary | Fear of falling | Fear of falling will be assessed using the FES-I (short) | Baseline=june; Endline=september | No |
Secondary | Timed up and go | The TUG test | Baseline=june; Endline=september | No |
Status | Clinical Trial | Phase | |
---|---|---|---|
Terminated |
NCT03206216 -
Feasibility Study of New Method of Diagnostic and Prediction of Painful CIPN
|
N/A |