Treadmill Training with Partial Body Weight Support: Influence of Body Weight Release on the Gait of Hemiparetic Patients

Hesse, S.; Helm, Bob; Krajnik, J; Gregorič, M; Mauritz, Karl Heinz

doi:10.1177/154596839701100103

Cited by 84 publications

(98 citation statements)

References 11 publications

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“…12,13 Loading and unloading in the correct rhythm and hip extension during terminal stance phase were the major peripheral drives. [14][15][16] One of the disadvantages of treadmill training was the effort for up to three therapists in lifting the paretic limbs, promoting hip extension, and assisting lateral weight transfer; this limits its use in routine clinical practice. To reduce the physical effort required of therapists, Hesse and Uhlenbrock designed an electromechanical gait trainer.…”

Section: Introductionmentioning

confidence: 99%

Electromechanical gait training with functional electrical stimulation: case studies in spinal cord injury

Hesse¹,

Werner²,

Bardeleben³

2004

Spinal Cord

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Study design: Single case studies. Objectives: To describe the technique of intensive locomotor training on an electromechanical gait trainer (GT) combined with functional electrical stimulation (FES). Setting: Neurological Rehabilitation Clinic, Berlin, Germany. Methods: Four spinal cord-injured (SCI) patients, one tetraparetic, two paraparetic, and one patient with an incomplete cauda syndrome, more than 3 months postinjury, who were unable to walk at all, or with two therapists. They received 25 min of locomotor training on the GT plus FES daily for 5 weeks in addition to the regular therapy. Results: The patients tolerated the programme well, and therapists rated the programme less strenuous compared to manually assisted treadmill training. Gait ability improved in all four patients; three patients could walk independently on the floor with the help of technical aids, and one required the help of one therapist after therapy; gait speed and endurance more than doubled, and the gastrocnemius activity increased in the patients with a central paresis. Conclusion: This combined technique allows intensive locomotor therapy in SCI subjects with reduced effort from the therapists. The patients' improved walking ability confirmed the potential of locomotor therapy in SCI subjects.

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Section: Introductionmentioning

confidence: 99%

Electromechanical gait training with functional electrical stimulation: case studies in spinal cord injury

Hesse¹,

Werner²,

Bardeleben³

2004

Spinal Cord

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“…The GT Handbook suggested a maximum BWS of 35 percent for nonambulatory patients with hemiparesis and a maximum of 10 percent in patients walking with aid, including support [19]. Furthermore, clinical studies have recommended BWS limits of 30 percent on the treadmill [12] and 40 percent on the Lokomat ® [23] for maintaining the activity of antigravitational muscles. In contrast, a review on treadmill parameter selection stated that adequate support was 35 to 50 percent [18].…”

Section: Discussionmentioning

confidence: 99%

“…Currently, therefore, training protocols vary widely among clinical trials. Low percentages of BWS and fast WSs may activate the relevant weightbearing muscles and improve locomotor efficiency [11][12] but can overstrain patients [5]. Despite every physiotherapist's concern for selecting the maximum parameter values that each patient can achieve without discomfort, clear guidelines and/or scientific analyses of these values are still lacking, as well as knowledge of their interrelationships and their effects on over-ground walking performance.…”

Section: Introductionmentioning

confidence: 99%

Driving electromechanically assisted Gait Trainer for people with stroke

Iosa¹,

Morone²,

Bragoni³

et al. 2011

JRRD

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Abstract-Electromechanically assisted gait training is a promising task-oriented approach for gait restoration, especially for people with subacute stroke. However, few guidelines are available for selecting the parameter values of the electromechanical Gait Trainer (GT) (Reha-Stim; Berlin, Germany) and none is tailored to a patient's motor capacity. We assessed 342 GT sessions performed by 20 people with stroke who were stratified by Functional Ambulatory Category. In the first GT session of all patients, the body-weight support (BWS) required was higher than that reported in the literature. In further sessions, we noted a slow reduction of BWS and a fast increment of walking speed for the most-affected patients. Inverse trends were observed for the less-affected patients. In all the patients, the heart rate increment was about 20 beats per minute, even for sessions in which the number of strides performed was up to 500. In addition, the effective BWS measured during GT sessions was different from that initially selected by the physiotherapist. This difference depended mainly on the position of the GT platforms during selection. Finally, harness acceleration in the anteroposterior direction proved to be higher in patients with stroke than in nondisabled subjects. Our findings are an initial step toward scientifically selecting parameters in electromechanically assisted gait training.

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“…We progressed training by increasing the speed of the gait trainer and aiming for a BWS of <20 percent body weight [23][24]. Reducing the BWS as the training progresses is important for effective and progressive activation of the lower-limb muscles and increased energy expenditure [25][26][27]. Previous studies have indicated that retraining gait with BWS leads to successful recovery of walking in patients with stroke and that progressively decreasing BWS improves walking more effectively [3,28].…”

Section: Interventionmentioning

confidence: 99%

Effects of intensive gait-oriented physiotherapy during early acute phase of stroke

Peurala

Airaksinen²,

Jäkälä³

et al. 2007

JRRD

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Abstract-We assessed the effects and strenuousness of intensive gait-oriented inpatient rehabilitation initiated very early after stroke. Therapy content and interrater reliability of the assessments were also analyzed. Of 22 patients, 19 (average 8.0 d poststroke) completed the study. Before rehabilitation, 13 patients were unable to walk or needed two assistants to walk and 6 patients needed one assistant. Patients spent a daily maximum of 1 h therapy time to obtain 20 min of walking. Additional physiotherapy was also provided during the 3 wk therapy period. Seven structured motor tests were recorded before and after rehabilitation and at 6 months postrehabilitation, and perceived exertion was followed during physiotherapy. After rehabilitation, 16 patients could walk unassisted and 3 needed one assistant to walk. Mean +/-standard deviation exercise walking distance was 10,784 +/-4,446 m and exercise was ranked as slightly strenuous. After 3 wk, the patients' 10 m walking time, ankle spasticity, lower-limb muscle force, and motor scale scores improved (p < 0.05). The early intensive rehabilitation was well tolerated and only three patients dropped out. Improved motor abilities were seen in all stroke patients.Clinical Trial Registration: ClinicalTrials.gov; Gait Trainer vs Traditional Physiotherapy in Acute Stroke, NCT00307762; .

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Treadmill Training with Partial Body Weight Support: Influence of Body Weight Release on the Gait of Hemiparetic Patients

Cited by 84 publications

References 11 publications

Electromechanical gait training with functional electrical stimulation: case studies in spinal cord injury

Electromechanical gait training with functional electrical stimulation: case studies in spinal cord injury

Driving electromechanically assisted Gait Trainer for people with stroke

Effects of intensive gait-oriented physiotherapy during early acute phase of stroke

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