Design of a stiffness-adjustable ankle-foot orthosis and its effect on ankle joint kinematics in patients with stroke.

Ankle-foot orthoses (AFOs) are commonly prescribed to improve gait. The stiffness of an AFO is central for successful prescription; however, the recommended level of stiffness is currently based on the experience of clinicians. Therefore, the aim of this study was to design an experimental AFO (EAFO) whose stiffness was adjustable using commercially available oil-damper joints, and to demonstrate its potential capability in investigating the effects of altering AFO stiffness on gait. The influence of the EAFO stiffness on ankle joint kinematics in sagittal plane was evaluated in 10 patients with stroke by altering the stiffness of its oil-damper- type orthotic ankle joints using the four levels pre-set and defined by the manufacturer in dorsi- and plantarflexion directions independently. The mean peak plantarflexion angle was reduced by 105%, showing a change from 8.18 (3.14) degrees of plantarflexion to 0.38 (4.17) degrees of dorsiflexion, whilst the mean peak dorsiflexion angle was reduced by 44%, showing a change from 11.46 (5.57) degrees of dorsiflexion to 6.47 (5.23) degrees of dorsiflexion by altering the EAFO stiffness. The EAFO would therefore serve as a convenient tool when investigating the influence of AFO stiffness on gait in both clinical and research settings.

[1]  R S Ross,et al.  A three centre study of the variability of ankle foot orthoses due to fabrication and grade of polypropylene , 2004, Prosthetics and orthotics international.

[2]  Günes Yavuzer,et al.  Effects of ankle-foot orthoses on hemiparetic gait , 2003, Clinical rehabilitation.

[3]  J. Lehmann,et al.  Plastic ankle-foot orthoses: evaluation of function. , 1983, Archives of physical medicine and rehabilitation.

[4]  Sumiko Yamamoto,et al.  Quantification of the effect of the mechanical property of ankle-foot orthoses on hemiplegic gait , 1993 .

[5]  Y Suzuki,et al.  Stiffness control in posterior-type plastic ankle-foot orthoses: Effect of ankle trimline Part 2: Orthosis characteristics and orthosis/patient matching , 1996, Prosthetics and orthotics international.

[6]  J Harlaar,et al.  A new method for evaluating ankle foot orthosis characteristics: BRUCE. , 2009, Gait & posture.

[7]  H. Herr,et al.  Adaptive control of a variable-impedance ankle-foot orthosis to assist drop-foot gait , 2004, IEEE Transactions on Neural Systems and Rehabilitation Engineering.

[8]  Impact of ankle-foot-orthosis on frontal plane behaviors post-stroke. , 2009, Gait & posture.

[9]  T. Yasui,et al.  Effects of an ankle-foot orthosis with oil damper on muscle activity in adults after stroke. , 2011, Gait & posture.

[10]  M Nagaya,et al.  Shoehorn-type ankle-foot orthoses: prediction of flexibility. , 1997, Archives of physical medicine and rehabilitation.

[11]  Daniel P. Ferris,et al.  An ankle-foot orthosis powered by artificial pneumatic muscles. , 2005, Journal of applied biomechanics.

[12]  Toshiki Kobayashi,et al.  Design of an Automated Device to Measure Sagittal Plane Stiffness of an Articulated Ankle-Foot Orthosis , 2010, Prosthetics and orthotics international.

[13]  Maarten J. IJzerman,et al.  The effect of an ankle-foot orthosis on walking ability in chronic stroke patients: a randomized controlled trial , 2004, Clinical rehabilitation.

[14]  S. Yamamoto,et al.  Development of an ankle – foot orthosis with an oil damper , 2005, Prosthetics and orthotics international.