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Peer-Reviewed Articles of
Relevance to Neuro-Rehabilitation
Britton, E, Harris, N and Turton, A.
An exploratory randomized
controlled trial of assisted practie for improving sit-to-stand in stroke
patients in the hospital setting.
Clinical Rehabilitation 2008; 22: 458-468.
Sullivan, KJ, Brown, DA, Klassen, T et al.
Effects of Task-Specific Locomotor and
Strength Training in Adults Who Were Ambulatory After Stroke : Results of the
STEPS Randomized Clinical Trial. Physical Therapy 2007; 87(12): 1580-1607.
Cauraugh, James H.
Coupled rehabilitation
protocols and neural plasticity: Upper extremity improvements in chronic hemiparesis. Restorative Neurology and Neuroscience 2004; 22: 337-347.
Beres-Jones, JA, Harkema, SJ.
The human spinal
cord interprets velocity-dependent afferent input during stepping. Brain 2004;
127(Pt10): 2232-2246.
Oddsson, L, Karlsson, R, Konrad, J, Ince, S,
Williams SR and Zemkova, E. A rehabilitation tool for functional balance using
altered gravity and virtual reality. Journal of NeuroEngineering and
Rehabilitation 2007; 4:25.
King, T, I.
Electromyographic Biofeedback
Treatment in Hemiplegia. Critical Reviews in Physical & Rehabilitation Medicine
1994; 6(3): 259-272.
Huang, H, Wolf, SL and He, J.
Recent developments
in biofeedback for neuromotor rehabilitation. Journal of NeuroEngineering and
Rehabilitation 2006; 3:11.
Netz, Y, Argov, E, Burstin, A et al.
Use of a
device to support standing during a physical activity program to improve
function of individuals with disabilities who reside in a nursing home. Disability and Rehabilitation: Assistive Technology 2007; 2(1): 43-49.
Heiden, E and
Lajoie, E. Games-based biofeedback training and the attentional demands of
balance in older adults. Aging
Clinical and Experimental Research
(Epub ahead of print)
http://www.ncbi.nlm.nih.gov/pubmed/20009499
Ward, NS.
Functional reorganization of the
cerebral motor cortex after stroke. Curr Opin Neurol 2004; 17(6): 725-30.
Bohannon, R.W.,
Integrating movement science and physical therapy,
Letter to the Editor, Phys. Ther., 71, 344, 1991.
Carr J.H. and Shepherd R.A.,
A motor learning model for rehabilitation,
in Movement Science: Foundations for Physical Therapy in Rehabilitation. Aspen
Publishers, Rockville, MD, 1087, 31.
Horak, F.
Assumptions underlying motor control for neurologic rehabilitation.
In: Lister MJ ed. Contemporary management of motor control problems. Alexandria,
VA. Foundations for Physical Therapy, 1991, 11-27.
Langhammer, B. & Stanghelle, JK.
Bobath or Motor Relearning Programme? A comparison of two different approaches
of physiotherapy in stroke rehabilitation: a randomized controlled study.
Clinical Rehabilitation, 2000, 14: 361-369.
Mulder, T.
The
Learning of Motor Control Following Brain Damage: Experimental and Clinical
Studies.
Swets North America,
Berwyn, PA 1985.
Nativ, A.
Kinesiological Issues in Motor Retraining Following Brain Trauma.
Critical Reviews in Physical and Rehabilitation Medicine, 1993, 5(3): 227-246.
Patton, James, Brown, David A,
Peshkin, M, et. al. KineAssist: Design
and Development of a Robotic Overground Gait and Balance Therapy Device.
Topics in Stroke Rehabilitation 2008;
15(2): 131-139.
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