Near-normal gait pattern with peroneal electrical stimulation as a neuroprosthesis in the chronic phase of stroke: a case report.

[1]  J V Basmajian,et al.  Gait analysis in stroke patients to assess treatments of foot-drop. , 1976, Archives of physical medicine and rehabilitation.

[2]  G. Demeurisse,et al.  Motor evaluation in vascular hemiplegia. , 1980, European neurology.

[3]  T Bajd,et al.  Neurophysiological background of the use of functional electrical stimulation in paraplegia. , 1986, Electromyography and clinical neurophysiology.

[4]  R. Brand,et al.  The biomechanics and motor control of human gait: Normal, elderly, and pathological , 1992 .

[5]  D. Winter,et al.  Biomechanical walking pattern changes in the fit and healthy elderly. , 1990, Physical therapy.

[6]  Jane Burridge,et al.  The Effect of Common Peroneal Nerve Stimulation on Quadriceps Spasticity in Hemiplegia , 1997 .

[7]  Richard W. Bohannon Comfortable and maximum walking speed of adults aged 20-79 years: reference values and determinants. , 1997, Age and ageing.

[8]  T Sinkjaer,et al.  Inhibition of the triceps surae stretch reflex by stimulation of the deep peroneal nerve in persons with spastic stroke. , 2000, Archives of physical medicine and rehabilitation.

[9]  T Sinkjaer,et al.  Kinematic and kinetic analysis of the walking pattern in hemiplegic patients with foot-drop using a peroneal nerve stimulator. , 2000, Clinical biomechanics.

[10]  J. Duysens,et al.  Distraction Affects the Performance of Obstacle Avoidance During Walking , 2003, Journal of motor behavior.

[11]  Maarten J. IJzerman,et al.  The orthotic effect of functional electrical stimulation on the improvement of walking in stroke patients with a dropped foot: a systematic review. , 2004, Artificial organs.

[12]  M. Pandy,et al.  Muscles that influence knee flexion velocity in double support: implications for stiff-knee gait. , 2004, Journal of biomechanics.

[13]  F. Zajac,et al.  Gait differences between individuals with post-stroke hemiparesis and non-disabled controls at matched speeds. , 2005, Gait & posture.

[14]  T. Sinkjaer,et al.  Phase II trial to evaluate the ActiGait implanted drop-foot stimulator in established hemiplegia. , 2007, Journal of rehabilitation medicine.

[15]  J. Duysens,et al.  Age-related deficits in early response characteristics of obstacle avoidance under time pressure. , 2007, The journals of gerontology. Series A, Biological sciences and medical sciences.

[16]  Maarten J. IJzerman,et al.  A randomized controlled trial of an implantable 2-channel peroneal nerve stimulator on walking speed and activity in poststroke hemiplegia. , 2007, Archives of physical medicine and rehabilitation.

[17]  Jeffrey M. Hausdorff,et al.  Effects of a New Radio Frequency–Controlled Neuroprosthesis on Gait Symmetry and Rhythmicity in Patients with Chronic Hemiparesis , 2008, American journal of physical medicine & rehabilitation.

[18]  Maarten J. IJzerman,et al.  Neuromuscular stimulation after stroke: from technology to clinical deployment , 2009, Expert review of neurotherapeutics.

[19]  Jeffrey M. Hausdorff,et al.  Neuroprosthesis for footdrop compared with an ankle-foot orthosis: effects on postural control during walking. , 2009, Journal of stroke and cerebrovascular diseases : the official journal of National Stroke Association.

[20]  Vivian Weerdesteyn,et al.  Is transcutaneous peroneal stimulation beneficial to patients with chronic stroke using an ankle-foot orthosis? A within-subjects study of patients' satisfaction, walking speed and physical activity level. , 2010, Journal of rehabilitation medicine.