Effect of Plantarflexion Resistance of A New Adjustable Oil Damper Joint Ankle Foot Orthosis on Thorax and Pelvis in Gait after Stroke

Hua Ling; Sumiko Yamamoto; Li-fei Cai; Hao Zhou

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Effect of Plantarflexion Resistance of A New Adjustable Oil Damper Joint Ankle Foot Orthosis on Thorax and Pelvis in Gait after Stroke

VernacularTitle:新型油液阻尼可调式踝足矫形器的跖屈阻尼在脑卒中患者步态中对胸廓和骨盆运动的影响
Author: Hua LING ¹ ; Sumiko YAMAMOTO ² ; Li-fei CAI ¹ ; Hao ZHOU ³
Author Information

1. China Rehabilitation Science Institute, Beijing 100068, China
2. International University of Health and Welfare, Tokyo 107-8402, Japan
3. Beijing Bo'ai Hospital, China Rehabilitation Research Center, Beijing 100068, China
Publication Type:Research Article
Keywords: stroke; hemiplegia; gait; plantarflexion resistance; thorax; pelvis; kinetics
From: Chinese Journal of Rehabilitation Theory and Practice 2021;27(6):637-644
CountryChina
Language:Chinese
Abstract: Objectives:To investigate the effects of different plantarflexion resistance of an ankle foot orthosis (AFO) on the motion of the thorax and pelvis during the gait of stroke patients. Methods:From June, 2020 to January, 2021, 26 stroke inpatients in Beijing Bo'ai Hospital wore AFO with oil damper (OD) ankle hinge, and measured thorax and pelvis during stroke gait under three plantarflexion resistance (OD1, OD2.5, OD4) of the AFO with a three-dimensional motion capture system. The main parameters were pelvic (P) and thoracic (T) angles at the following time or phases: initial contact (IC), contralateral foot off (CFO), contralateral initial contact (CIC), foot off (FO); the change of thoracic angle in gait cycle (T_cycle_x), the change of thoracic angle in stance phase (T_ST_x) and the change of thoracic angle in single stance phase (T_SS_x). Thoracic and pelvic motions were defined on three coordinate axes: forward/backward tilt (x), oblique (y) and rotation (z). Results:The loading response times were significant different among different plantarflexion resistance conditions (χ² = 7.923, P = 0.019), as well as between OD2.5 and in OD4 (P = 0.017). P_CFO_x, P_CFO_z, P_CIC_x and P_Fo_x; T_CFO_x, T_CFO_y, T_CFO_z and T_FO_x; relative angle of thorax to pelvis TP_IC_x, TP_CFO_x and TP_CIC_x; and T_SS_x were significant different among three resistance conditions (χ² > 6.077, P < 0.05). Forward tilt of pelvis decreased in condition OD2.5 and increased in condition OD4 during each timing. When CFO, the thoracic forward/backward tilt angle was less in OD2.5 than in OD4 (P < 0.05), the thoracic rotation angle was less in OD1 than in OD4 (P < 0.05). Conclusion:Plantarflexion resistance has a significant effect on the motion of the thorax and pelvis in the gait of stroke patients. Under the middle magnitude of resistance, the pelvic and thoracic posture becomes more upright, the oblique angle is reduced, showing the improvement of the upright posture. On the contrary, the pelvic forward tilt and thoracic oblique are increased when resistance become low or high, compensation of rotational motion appeared in high resistance, posture getting worse.