Impact of strut height on offloading capacity of removable cast walkers

Impact of strut height on offloading capacity of removable cast walkers

Abstract Background Reducing weight-bearing stress to diabetic foot ulcers is critical to healing and commonly called offloading. Removable cast walkers are frequently used for offloading; however, patient compliance is often poor. Walkers commonly extend to the knee. Patients complain about walkers...

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Bibliographic Details
Published in:Clinical biomechanics (Bristol) Vol. 27; no. 7; pp. 725 - 730
Main Authors: Crews, Ryan T, Sayeed, Fraaz, Najafi, Bijan
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-08-2012
Subjects:
Casts, Surgical
Diabetes
Diabetic Foot - physiopathology
Diabetic Foot - rehabilitation
Diabetic foot ulcer
Equipment Design
Equipment Failure Analysis
Female
Gait
Humans
Male
Middle Aged
Offloading
Pedobarography
Physical Medicine and Rehabilitation
Pressure
Stress, Mechanical
Walkers
Walking
Weight-Bearing
Offloading
Diabetes
Pedobarography
Diabetic foot ulcer
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Summary:Abstract Background Reducing weight-bearing stress to diabetic foot ulcers is critical to healing and commonly called offloading. Removable cast walkers are frequently used for offloading; however, patient compliance is often poor. Walkers commonly extend to the knee. Patients complain about walkers' weight and diminished balance with their use. This study compared the offloading capacity of walkers that varied by height. Heights included: knee, ankle, and shoe levels. To ensure a fair comparison the outsole and insole were standardized across the devices. Methods Eleven diabetic subjects with moderate to high risk of ulceration were recruited. Subjects completed four 20 m walking trials. Subjects performed one trial with each walker and one trial with an athletic shoe. Primary outcomes focused on plantar loading and were measured by pressure insoles. Secondary outcomes were associated with gait kinematics as collected by body worn sensors. Findings Significant differences were found for the peak pressure and pressure time integrals of the different footwear. All walkers performed better than the athletic shoe. The ankle and knee-high devices performed best. Center of mass rotation data showed a trend of the ankle walker yielding a smaller range of motion (18% medial/lateral and 22% anterior/posterior) than the knee level. Interpretation The ankle-high walker was able to provide similar offloading capacities as the knee-high walker. The diminished weight, along with potentially improved stability, may result in improved compliance with ankle-high walkers. A study comparing the use of the two devices for treating ulcers is now suggested.
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ISSN:0268-0033
1879-1271
DOI:10.1016/j.clinbiomech.2012.03.001