Foot Drop Stimulation Versus Ankle Foot Orthosis After Stroke: 30-Week Outcomes

Background and Purpose— Drop foot after stroke may be addressed using an ankle foot orthosis (AFO) or a foot drop stimulator (FDS). The Functional Ambulation: Standard Treatment versus Electric Stimulation Therapy (FASTEST) trial was a multicenter, randomized, single-blinded trial comparing FDS and AFO for drop foot among people ≥3 months after stroke with gait speed ⩽0.8 m/s. Methods— Participants (n=197; 79 females and 118 males; 61.14±11.61 years of age; time after stroke 4.55±4.72 years) were randomized to 30 weeks of either FDS or a standard AFO. Eight dose-matched physical therapy sessions were provided to both groups during the first 6 weeks of the trial. Results— There was significant improvement within both groups from baseline to 30 weeks in comfortable gait speed (95% confidence interval for mean change, 0.11–0.17 m/s for FDS and 0.12–0.18 m/s for AFO) and fast gait speed. However, no significant differences in gait speed were found in the between-group comparisons. Secondary outcomes (standard measures of body structure and function, activity, and participation) improved significantly in both groups, whereas user satisfaction was significantly higher in the FDS group than in the control group. Conclusions— Using either an FDS or an AFO for 30 weeks yielded clinically and statistically significant improvements in gait speed and other functional outcomes. User satisfaction was higher in the FDS group. Although both groups did receive intervention, this large clinical trial provides evidence that FDS or AFO with initial physical therapy sessions can provide a significant and clinically meaningful benefit even years after stroke. Clinical Trial Registration Information— URL: http://www.clinicaltrials.gov. Unique Identifier: NCT01138995.

[1]  C. Hertogh,et al.  What predicts a poor outcome in older stroke survivors? A systematic review of the literature , 2013, Disability and rehabilitation.

[2]  K. Mcbride,et al.  The Functional Ambulation: Standard Treatment versus Electrical Stimulation Therapy (FASTEST) trial for stroke: study design and protocol , 2013 .

[3]  L. Olmos,et al.  Effects of ankle foot orthosis in stiff knee gait in adults with hemiplegia. , 2012, Journal of biomechanics.

[4]  S. D. Perry,et al.  Ankle-foot orthotic management in neuromuscular disorders: recommendations for future research , 2012, Disability and rehabilitation. Assistive technology.

[5]  Yong-Hee Han,et al.  Evaluation of the brain activation induced by functional electrical stimulation and voluntary contraction using functional magnetic resonance imaging , 2012, Journal of NeuroEngineering and Rehabilitation.

[6]  G. Lewis,et al.  Short-term Effects of Electrical Stimulation and Voluntary Activity on Corticomotor Excitability in Healthy Individuals and People With Stroke , 2012, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[7]  M. J. Hall,et al.  Hospitalization for stroke in U.S. hospitals, 1989-2009. , 2012, NCHS data brief.

[8]  Vivian Weerdesteyn,et al.  Effect of Peroneal Electrical Stimulation Versus an Ankle-Foot Orthosis on Obstacle Avoidance Ability in People With Stroke-Related Foot Drop , 2011, Physical Therapy.

[9]  S. Brophy,et al.  Interventions for latent autoimmune diabetes (LADA) in adults. , 2011, The Cochrane database of systematic reviews.

[10]  Catherine Bulley,et al.  User experiences, preferences and choices relating to functional electrical stimulation and ankle foot orthoses for foot-drop after stroke. , 2011, Physiotherapy.

[11]  Bruce H Dobkin,et al.  Body-weight-supported treadmill rehabilitation after stroke. , 2011, The New England journal of medicine.

[12]  N. Özgirgin,et al.  Evaluation of the effect of ankle-foot orthosis use on balance and mobility in hemiparetic stroke patients , 2011, Disability and rehabilitation.

[13]  Manjunatha Mahadevappa,et al.  Effect of functional electrical stimulation on the effort and walking speed, surface electromyography activity, and metabolic responses in stroke subjects. , 2010, Journal of electromyography and kinesiology : official journal of the International Society of Electrophysiological Kinesiology.

[14]  Joanne K Gronely,et al.  Effect of AFO Design on Walking after Stroke: Impact of Ankle Plantar Flexion Contracture , 2010, Prosthetics and orthotics international.

[15]  R. Stein,et al.  Long-Term Therapeutic and Orthotic Effects of a Foot Drop Stimulator on Walking Performance in Progressive and Nonprogressive Neurological Disorders , 2010, Neurorehabilitation and neural repair.

[16]  Richard B. Stein,et al.  Does Functional Electrical Stimulation for Foot Drop Strengthen Corticospinal Connections? , 2010, Neurorehabilitation and neural repair.

[17]  R. van Swigchem,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.

[18]  T. Hornby,et al.  Locomotor Training Improves Daily Stepping Activity and Gait Efficiency in Individuals Poststroke Who Have Reached a “Plateau” in Recovery , 2010, Stroke.

[19]  C. Hui-Chan,et al.  Does the use of TENS increase the effectiveness of exercise for improving walking after stroke? A randomized controlled clinical trial , 2009, Clinical rehabilitation.

[20]  Alberto Esquenazi,et al.  The Effect of an Ankle‐Foot Orthosis on Temporal Spatial Parameters and Asymmetry of Gait in Hemiparetic Patients , 2009, PM & R : the journal of injury, function, and rehabilitation.

[21]  Yasser Salem,et al.  Overground physical therapy gait training for chronic stroke patients with mobility deficits. , 2009, The Cochrane database of systematic reviews.

[22]  Jeffrey M. Hausdorff,et al.  Gait in Individuals with Chronic Hemiparesis: One-Year Follow-up of the Effects of a Neuroprosthesis That Ameliorates Foot Drop , 2009, Journal of neurologic physical therapy : JNPT.

[23]  Stefania Fatone,et al.  Effect of ankle-foot orthosis alignment and foot-plate length on the gait of adults with poststroke hemiplegia. , 2009, Archives of physical medicine and rehabilitation.

[24]  E. Stokes,et al.  How much change is true change? The minimum detectable change of the Berg Balance Scale in elderly people. , 2009, Journal of rehabilitation medicine.

[25]  Thomas Sinkjaer,et al.  Patients' perceptions of the benefits and problems of using the ActiGait implanted drop-foot stimulator. , 2008, Journal of rehabilitation medicine.

[26]  P. Gargiulo,et al.  Poor compliance with ankle-foot-orthoses in Charcot-Marie-Tooth disease. , 2008, European journal of physical and rehabilitation medicine.

[27]  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.

[28]  Hui Chen,et al.  The relative and absolute reliability of two balance performance measures in chronic stroke patients , 2008, Disability and rehabilitation.

[29]  G. Fulk,et al.  Clinometric properties of the six-minute walk test in individuals undergoing rehabilitation poststroke , 2008, Physiotherapy theory and practice.

[30]  Raymond K Y Tong,et al.  A Pilot Study of Randomized Clinical Controlled Trial of Gait Training in Subacute Stroke Patients With Partial Body-Weight Support Electromechanical Gait Trainer and Functional Electrical Stimulation: Six-Month Follow-Up , 2008, Stroke.

[31]  C. Hui-Chan,et al.  Transcutaneous Electrical Nerve Stimulation Combined With Task-Related Training Improves Lower Limb Functions in Subjects With Chronic Stroke , 2007, Stroke.

[32]  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.

[33]  Subashan Perera,et al.  Improvements in Speed-Based Gait Classifications Are Meaningful , 2007, Stroke.

[34]  Jane H Burridge,et al.  Walking on an Uneven Surface: The Effect of Common Peroneal Stimulation on Gait Parameters and Relationship Between Perceived and Measured Benefits in a Sample of Participants With a Drop‐Foot , 2007, Neuromodulation : journal of the International Neuromodulation Society.

[35]  G. Fulk,et al.  Test-Retest Reliability and Minimal Detectable Change of Gait Speed in Individuals Undergoing Rehabilitation After Stroke , 2006, Journal of neurologic physical therapy : JNPT.

[36]  J. P. Miller,et al.  Effect of constraint-induced movement therapy on upper extremity function 3 to 9 months after stroke: the EXCITE randomized clinical trial. , 2006, JAMA.

[37]  L. Sheffler,et al.  Peroneal Nerve Stimulation versus an Ankle Foot Orthosis for Correction of Footdrop in Stroke: Impact on Functional Ambulation , 2006, Neurorehabilitation and neural repair.

[38]  Shawn M Robbins,et al.  The therapeutic effect of functional and transcutaneous electric stimulation on improving gait speed in stroke patients: a meta-analysis. , 2006, Archives of physical medicine and rehabilitation.

[39]  Pamela W Duncan,et al.  Management of Adult Stroke Rehabilitation Care: a clinical practice guideline. , 2005, Stroke.

[40]  C. Hui-Chan,et al.  The timed up & go test: its reliability and association with lower-limb impairments and locomotor capacities in people with chronic stroke. , 2005, Archives of physical medicine and rehabilitation.

[41]  Chien-Hung Lai,et al.  Effects of surface electrical stimulation on the muscle–tendon junction of spastic gastrocnemius in stroke patients , 2005, Disability and rehabilitation.

[42]  Kim L Coleman,et al.  Accelerometer monitoring of home- and community-based ambulatory activity after stroke. , 2004, Archives of physical medicine and rehabilitation.

[43]  L. Rochester,et al.  Community ambulation after stroke: how important and obtainable is it and what measures appear predictive? , 2004, Archives of physical medicine and rehabilitation.

[44]  Chin-Man Wang,et al.  Leg Muscle Activation Patterns of Sit-to-Stand Movement in Stroke Patients , 2004, American journal of physical medicine & rehabilitation.

[45]  S. Studenski,et al.  Randomized clinical trial of therapeutic exercise in subacute stroke. , 2003, Stroke.

[46]  M. Franceschini,et al.  Effects of an ankle-foot orthosis on spatiotemporal parameters and energy cost of hemiparetic gait , 2003, Clinical rehabilitation.

[47]  K. Lees,et al.  Comparison of stratification and adaptive methods for treatment allocation in an acute stroke clinical trial , 2003, Statistics in medicine.

[48]  Wim G. M. Janssen,et al.  Determinants of the sit-to-stand movement: a review. , 2002, Physical therapy.

[49]  M. T. J. Buñuales,et al.  La clasificación internacional del funcionamiento de la discapacidad y de la salud (CIF) 2001 , 2002 .

[50]  Ching-Fan Sheu,et al.  Analysis and Comparison of the Psychometric Properties of Three Balance Measures for Stroke Patients , 2002, Stroke.

[51]  H Kalimo,et al.  Low TENS treatment on post-stroke paretic arm: a three-year follow-up , 2000, Clinical rehabilitation.

[52]  S. Embretson,et al.  The stroke impact scale version 2.0. Evaluation of reliability, validity, and sensitivity to change. , 1999, Stroke.

[53]  J. Norton,et al.  Patients' perceptions of the Odstock Dropped Foot Stimulator (ODFS) , 1999, Clinical rehabilitation.

[54]  S. Nadeau,et al.  Analysis of the clinical factors determining natural and maximal gait speeds in adults with a stroke. , 1999, American journal of physical medicine & rehabilitation.

[55]  A. Verbeek,et al.  Walking ability of stroke patients: efficacy of tibial nerve blocking and a polypropylene ankle-foot orthosis. , 1996, Archives of physical medicine and rehabilitation.

[56]  T. Chalmers,et al.  Functional electrostimulation in poststroke rehabilitation: a meta-analysis of the randomized controlled trials. , 1996, Archives of physical medicine and rehabilitation.

[57]  W Z Rymer,et al.  Joint dependent passive stiffness in paretic and contralateral limbs of spastic patients with hemiparetic stroke. , 1995, Journal of neurology, neurosurgery, and psychiatry.

[58]  JoAnne K. Gronley,et al.  Classification of walking handicap in the stroke population. , 1995, Stroke.

[59]  S. Wood-Dauphinée,et al.  The Balance Scale: reliability assessment with elderly residents and patients with an acute stroke. , 1995, Scandinavian journal of rehabilitation medicine.

[60]  P. Stratford,et al.  Reliability of the Fugl-Meyer assessment for testing motor performance in patients following stroke. , 1993, Physical therapy.

[61]  P. Duncan,et al.  Measurement of Motor Recovery After Stroke: Outcome Assessment and Sample Size Requirements , 1992, Stroke.

[62]  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.

[63]  Teresa Smith,et al.  Comparison of the 2-, 6-, and 12-minute walk tests in patients with stroke. , 2005, Journal of rehabilitation research and development.

[64]  Thomas Sinkjaer,et al.  Increase in tibialis anterior motor cortex excitability following repetitive electrical stimulation of the common peroneal nerve , 2003, Experimental Brain Research.

[65]  S. Holm A Simple Sequentially Rejective Multiple Test Procedure , 1979 .

[66]  Christine Jones,et al.  Printed in Great Britain , 1970 .