| scholarly article | Q13442814 |
| P2093 | author name string | Judith E Deutsch | |
| Karen Huhn | |||
| Phyllis Guarrera-Bowlby | |||
| Jenny Filler | |||
| Megan Borbely | |||
| P433 | issue | 10 | |
| P921 | main subject | teenager | Q1492760 |
| P304 | page(s) | 1196-1207 | |
| P577 | publication date | 2008-08-08 | |
| P1433 | published in | Physical Therapy | Q15763171 |
| P1476 | title | Use of a low-cost, commercially available gaming console (Wii) for rehabilitation of an adolescent with cerebral palsy | |
| P478 | volume | 88 |
| Q34440511 | "Kinect-ing" with clinicians: a knowledge translation resource to support decision making about video game use in rehabilitation |
| Q92543844 | A Scoping Review of The Efficacy of Virtual Reality and Exergaming on Patients of Musculoskeletal System Disorder |
| Q84991501 | A Wii problem |
| Q36003741 | A comparison of motor adaptations to robotically facilitated upper extremity task practice demonstrated by children with cerebral palsy and adults with stroke |
| Q27309258 | A prospective pilot study to evaluate an animated home-based physical exercise program as a treatment option for patients with rheumatoid arthritis |
| Q47179775 | Active exercise interventions improve gross motor function of ambulant/semi-ambulant children with cerebral palsy: a systematic review. |
| Q31120093 | Active video games and health indicators in children and youth: a systematic review. |
| Q43500437 | Active video-gaming effects on balance and mobility in individuals with chronic stroke: a randomized controlled trial |
| Q34902686 | An impact study of the design of exergaming parameters on body intensity from objective and gameplay-based player experience perspectives, based on balance training exergame |
| Q47152667 | An interactive sports video game as an intervention for rehabilitation of community-living patients with schizophrenia: A controlled, single-blind, crossover study |
| Q45108806 | An investigation of the impact of regular use of the Wii Fit to improve motor and psychosocial outcomes in children with movement difficulties: a pilot study |
| Q40744961 | Associations of exercise, sedentary time and insomnia with metabolic syndrome in Taiwanese older adults: A 1-year follow-up study |
| Q55389161 | Balance and mobility training at home using Wii Fit in children with cerebral palsy: a feasibility study. |
| Q39120946 | Balance evaluation in haemophilic preadolescent patients using Nintendo Wii Balance Board®. |
| Q36863077 | Barriers and perceived limitations to early treatment of hemophilia |
| Q41016883 | Change in functional balance after an exercise program with Nintendo Wii in Latino patients with cerebral palsy: a case series |
| Q46145416 | Comparison between Nintendo Wii Fit and conventional rehabilitation on functional performance outcomes after hamstring anterior cruciate ligament reconstruction: prospective, randomized, controlled, double-blind clinical trial |
| Q48610080 | Comparison of virtual reality exergaming and home exercise programs in patients with subacromial impingement syndrome and scapular dyskinesis: Short term effect. |
| Q37780537 | Conceptual and methodological advances in child-reported outcomes measurement |
| Q35837362 | Design and Kinematic Evaluation of a Novel Joint-Specific Play Controller: Application for Wrist and Forearm Therapy. |
| Q50651832 | Design and evaluation of a computerized test for hand motor skills. |
| Q46045795 | Designing informed game-based rehabilitation tasks leveraging advances in virtual reality |
| Q36148044 | Digital Posturography Games Correlate with Gross Motor Function in Children with Cerebral Palsy |
| Q58500968 | Do people with intellectual disability use Nintendo Wii when placed in their home as part of a physiotherapy program? An observational study |
| Q37070696 | Does use of a virtual environment change reaching while standing in patients with traumatic brain injury? |
| Q35013668 | Effect of transcranial direct current stimulation combined with gait and mobility training on functionality in children with cerebral palsy: study protocol for a double-blind randomized controlled clinical trial |
| Q41870157 | Effectiveness and safety of Nintendo Wii Fit Plus™ training in children with migraine without aura: a preliminary study |
| Q34546319 | Effectiveness of Exercise on Functional Mobility in Adults with Cerebral Palsy: A Systematic Review |
| Q30501501 | Effectiveness of a Wii balance board-based system (eBaViR) for balance rehabilitation: a pilot randomized clinical trial in patients with acquired brain injury |
| Q46463223 | Effects of Wii balance board exercises on balance after posterior cruciate ligament reconstruction |
| Q35968391 | Effects of conventional neurological treatment and a virtual reality training program on eye-hand coordination in children with cerebral palsy |
| Q41335490 | Effects of interactive games on motor performance in children with spastic cerebral palsy |
| Q37246669 | Effects of training using video games on the muscle strength, muscle tone, and activities of daily living of chronic stroke patients |
| Q42357474 | Effects of virtual reality training using Nintendo Wii and treadmill walking exercise on balance and walking for stroke patients |
| Q36829341 | Efficacy of neurodevelopmental treatment combined with the Nintendo(®) Wii in patients with cerebral palsy |
| Q47206878 | Electroencephalographic changes using virtual reality program: technical note condensed title: a study using a mobile EEG device |
| Q38248417 | Emergence of virtual reality as a tool for upper limb rehabilitation: incorporation of motor control and motor learning principles |
| Q52545684 | Evaluating the Nintendo Wii for assessing return to activity readiness in youth with mild traumatic brain injury. |
| Q36699024 | Evaluation of limb load asymmetry using two new mathematical models |
| Q37066617 | Exercise intensity levels in children with cerebral palsy while playing with an active video game console |
| Q89746334 | Exercising with Baxter: preliminary support for assistive social-physical human-robot interaction |
| Q30413372 | Exergaming and static postural control in individuals with a history of lower limb injury |
| Q37853572 | Facilitating clinical decision-making about the use of virtual reality within paediatric motor rehabilitation: describing and classifying virtual reality systems |
| Q37324316 | Feasibility of Computer-Based Videogame Therapy for Children with Cerebral Palsy |
| Q36975099 | Feasibility of Wii Fit training to improve clinical measures of balance in older adults |
| Q47987207 | Gaming supports youth with acquired brain injury? A pilot study |
| Q44148634 | How a diverse research ecosystem has generated new rehabilitation technologies: Review of NIDILRR's Rehabilitation Engineering Research Centers. |
| Q35031275 | Impact of a virtual reality-based intervention on motor performance and balance of a child with cerebral palsy: a case study |
| Q59101162 | Improving vision-based motor rehabilitation interactive systems for users with disabilities using mirror feedback |
| Q35203336 | Increasing patient engagement in rehabilitation exercises using computer-based citizen science |
| Q33842868 | Individualized, home-based interactive training of cerebral palsy children delivered through the Internet |
| Q22299219 | Initial usability assessment of off-the-shelf video game consoles for clinical game-based motor rehabilitation |
| Q46605291 | Integrating virtual reality video games into practice: clinicians' experiences |
| Q37382417 | Joint-Specific Play Controller for Upper Extremity Therapy: Feasibility Study in Children With Wrist Impairment |
| Q36319946 | Learning better by repetition or variation? Is transfer at odds with task specific training? |
| Q39774471 | Maintained hand function and forearm bone health 14 months after an in-home virtual-reality videogame hand telerehabilitation intervention in an adolescent with hemiplegic cerebral palsy. |
| Q40627320 | Measurements of Weight Bearing Asymmetry Using the Nintendo Wii Fit Balance Board Are Not Reliable for Older Adults and Individuals With Stroke |
| Q88569652 | Mobile Phone-Supported Physiotherapy for Frozen Shoulder: Feasibility Assessment Based on a Usability Study |
| Q39689213 | Motion interactive video games in home training for children with cerebral palsy: parents' perceptions. |
| Q48001095 | Nintendo wii sports and wii fit game analysis, validation, and application to stroke rehabilitation |
| Q56900020 | Observing the use of an input device for rehabilitation purposes |
| Q57232549 | Parents’ and children’s views on whether active video games are a substitute for the ‘real thing’ |
| Q48517388 | Participant and caregiver experience of the Nintendo Wii Sports™ after stroke: qualitative study of the trial of Wii™ in stroke (TWIST). |
| Q36755162 | Perspectives on Active Video Gaming as a New Frontier in Accessible Physical Activity for Youth With Physical Disabilities |
| Q37597286 | Pilot study of younger and older HIV-infected adults using traditional and novel functional assessments |
| Q37244778 | Preprocessing the Nintendo Wii Board Signal to Derive More Accurate Descriptors of Statokinesigrams |
| Q51620674 | Representation of virtual arm movements in precuneus. |
| Q30578157 | Retraining function in people with Parkinson's disease using the Microsoft kinect: game design and pilot testing |
| Q38209623 | Role of virtual reality for cerebral palsy management |
| Q39651870 | Stroke patients' experiences with Wii Sports® during inpatient rehabilitation |
| Q35910829 | Test-retest reliability of Kinect's measurements for the evaluation of upper body recovery of stroke patients |
| Q33639572 | Testing the feasibility and acceptability of using the Nintendo Wii in the home to increase activity levels, vitality and well-being in people with multiple sclerosis (Mii-vitaliSe): protocol for a pilot randomised controlled study. |
| Q37412646 | Testing the feasibility and safety of the Nintendo Wii gaming console in orthopedic rehabilitation: a pilot randomized controlled study |
| Q53487819 | The MyHealthService approach for chronic disease management based on free open source software and low cost components. |
| Q37432610 | The New Jersey Institute of Technology Robot-Assisted Virtual Rehabilitation (NJIT-RAVR) system for children with cerebral palsy: a feasibility study |
| Q38672173 | The Present and Future of Robotic Technology in Rehabilitation |
| Q28607038 | The WOMED model of benign thyroid disease: Acquired magnesium deficiency due to physical and psychological stressors relates to dysfunction of oxidative phosphorylation |
| Q46754396 | The effect of the Nintendo Wii Fit on balance control and gross motor function of children with spastic hemiplegic cerebral palsy |
| Q48689897 | The effect of virtual reality interventions on physical activity in children and adolescents with early brain injuries including cerebral palsy |
| Q36037059 | The effectiveness of racket-sport intervention on visual perception and executive functions in children with mild intellectual disabilities and borderline intellectual functioning |
| Q38159830 | The effectiveness of virtual reality interventions in improving balance in adults with impaired balance compared with standard or no treatment: a systematic review and meta-analysis. |
| Q35595186 | The effects of exergaming on balance, gait, technology acceptance and flow experience in people with multiple sclerosis: a randomized controlled trial. |
| Q41540465 | The effects of the Nintendo™ Wii Fit on gait, balance, and quality of life in individuals with incomplete spinal cord injury |
| Q33634811 | The efficacy of balance training with video game-based therapy in subacute stroke patients: a randomized controlled trial. |
| Q37699751 | The role of exergaming in Parkinson's disease rehabilitation: a systematic review of the evidence |
| Q39700002 | The utilization of Nintendo® Wii™ during burn rehabilitation: a pilot study |
| Q36396724 | Therapeutic Uses of Active Videogames: A Systematic Review |
| Q46464875 | Training of goal directed arm movements with motion interactive video games in children with cerebral palsy - a kinematic evaluation |
| Q35625534 | Twenty weeks of home-based interactive training of children with cerebral palsy improves functional abilities |
| Q38372123 | User Perspectives on Exergames Designed to Explore the Hemineglected Space for Stroke Patients With Visuospatial Neglect: Usability Study. |
| Q37260085 | Using a virtual game system to innovate pulmonary rehabilitation: safety, adherence and enjoyment in severe chronic obstructive pulmonary disease |
| Q48159226 | Using motion interactive games to promote physical activity and enhance motor performance in children with cerebral palsy |
| Q37580061 | Using the Wii Fit as a tool for balance assessment and neurorehabilitation: the first half decade of "Wii-search" |
| Q48109299 | Usual and virtual reality video game-based physiotherapy for children and youth with acquired brain injuries |
| Q36143196 | Validity and reliability of Kinect skeleton for measuring shoulder joint angles: a feasibility study |
| Q42229515 | Validity and reliability of Nintendo Wii Fit balance scores. |
| Q22337332 | Validity and reliability of the Nintendo Wii Balance Board for assessment of standing balance |
| Q51743574 | Vestibular rehabilitation using video gaming in adults with dizziness: a pilot study. |
| Q47334627 | Virtual Reality and Serious Games in Neurorehabilitation of Children and Adults: Prevention, Plasticity, and Participation |
| Q28743114 | Virtual reality and interactive digital game technology: new tools to address obesity and diabetes |
| Q33539963 | Virtual reality as a therapeutic modality for children with cerebral palsy |
| Q24188155 | Virtual reality for stroke rehabilitation |
| Q24234275 | Virtual reality for stroke rehabilitation |
| Q24240194 | Virtual reality for stroke rehabilitation |
| Q30477112 | Virtual reality games for movement rehabilitation in neurological conditions: how do we meet the needs and expectations of the users? |
| Q35613637 | Wii Fit balance training or progressive balance training in patients with chronic stroke: a randomised controlled trial |
| Q36798645 | Wii, Kinect, and Move. Heart Rate, Oxygen Consumption, Energy Expenditure, and Ventilation due to Different Physically Active Video Game Systems in College Students |
| Q37283237 | Wii-based Balance Therapy to Improve Balance Function of Children with Cerebral Palsy: A Pilot Study |
| Q35952115 | Wrist range of motion and motion frequency during toy and game play with a joint-specific controller specially designed to provide neuromuscular therapy: A proof of concept study in typically developing children |
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