Motion Analysis of a Frontal Plane Adaptable Prosthetic Foot

IF 0.4 Q4 ORTHOPEDICS
Murray E. Maitland, Sheri I. Imsdahl, Donald J. Fogelberg, Katheryn J. Allyn, Kevin C. Cain, Andrew T. Humbert, Alexander Albury, Evandro M. Ficanha, James M. Colvin, Matthew M. Wernke
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The purpose of this study was to compare the kinematics of locked and unlocked conditions of a frontal plane adaptable prosthetic foot and the person’s usual foot while walking forward on a level surface, on an unstable rock surface, and sidestep, using a crossover design. These different conditions result in changes in frontal plane motion in the anatomical foot and ankle, and the current study evaluates whether there are similar trends in prosthetic feet. Materials and Methods People were included if they had a unilateral below-knee amputation, intact residual limb skin, were over 16 years old, and were able to walk more than 400 m on level ground without using a walking aid and without an increase in pain. The control group was people without amputations who completed the procedures once. Participants with amputations completed forward walking on level ground, on an unstable rock surface, and sidestep with their usual foot. Then after 2 weeks of accommodation, participants repeated these tests with the investigational foot unlocked and locked. Motion analysis data were collected with a 12-camera optically based system. Primary outcomes were sagittal and frontal plane motions of the foot relative to the shank. In addition, step length, step width, and stride velocity were obtained from the kinematic measures. Paired t -tests were used for statistical inference for individual participant comparisons. Unpaired t -tests were used for comparisons between the controls and people with amputations. Results Twenty-one people with amputations and 10 controls completed the tests. Participants with amputation had 16 different usual feet. There was a wide variation in usual foot motion during forward walking, whereas investigational foot conditions showed less variability. During level walking, control subjects had more frontal plane motion than any of the foot conditions, and the unlocked had more frontal plane motion than the usual foot and locked condition. Walking across an unstable rock surface showed similar trends, with control participants having more sagittal and frontal plane ankle motion compared with any prosthetic foot condition. Also, the unlocked had statistically greater frontal plane motion than the usual foot or locked condition. Sidestep results were also consistent with other gait tests. The control participants’ sagittal plane ankle range of motion was significantly more than the prosthetic sagittal plane motion for all foot conditions, whether the prosthetic side was leading or trailing. There was significantly more frontal plane motion with the unlocked than the usual foot and locked condition when the prosthetic foot was trailing or leading. Discussion and Conclusions Wide variation in usual foot range of motions in the frontal and sagittal planes confirmed the need for additional controls when considering the effect of the linkage alone. The unlocked had increased frontal plane ranges of motion compared with the locked and the majority of usual foot for all gait conditions, including level walking. This finding demonstrated that people with amputations were functionally using the additional range of motion provided by the linkage. However, control subjects used more range of motion in both the sagittal and frontal planes for the unstable rock surface and sidestepping. Increased frontal plane range of motion did not translate into improved stride length and velocity, step width, or center of mass deviations. Clinical Relevance The person-specific functional activities should be considered when choosing a prosthetic foot. 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引用次数: 0

Abstract

ABSTRACT Introduction An objective of designing a prosthetic foot is to achieve the natural adaptability of the foot and ankle on various surfaces and different forms of gait. Frontal plane position of the foot relative to the shank changes with many functional aspects of gait, such as turning, stairs, and walking on uneven ground. Prosthetic foot designs have variable frontal plane adaptability. An investigation foot with a linkage with ±10° of frontal plane motion was developed to improve frontal plane response under various conditions. The purpose of this study was to compare the kinematics of locked and unlocked conditions of a frontal plane adaptable prosthetic foot and the person’s usual foot while walking forward on a level surface, on an unstable rock surface, and sidestep, using a crossover design. These different conditions result in changes in frontal plane motion in the anatomical foot and ankle, and the current study evaluates whether there are similar trends in prosthetic feet. Materials and Methods People were included if they had a unilateral below-knee amputation, intact residual limb skin, were over 16 years old, and were able to walk more than 400 m on level ground without using a walking aid and without an increase in pain. The control group was people without amputations who completed the procedures once. Participants with amputations completed forward walking on level ground, on an unstable rock surface, and sidestep with their usual foot. Then after 2 weeks of accommodation, participants repeated these tests with the investigational foot unlocked and locked. Motion analysis data were collected with a 12-camera optically based system. Primary outcomes were sagittal and frontal plane motions of the foot relative to the shank. In addition, step length, step width, and stride velocity were obtained from the kinematic measures. Paired t -tests were used for statistical inference for individual participant comparisons. Unpaired t -tests were used for comparisons between the controls and people with amputations. Results Twenty-one people with amputations and 10 controls completed the tests. Participants with amputation had 16 different usual feet. There was a wide variation in usual foot motion during forward walking, whereas investigational foot conditions showed less variability. During level walking, control subjects had more frontal plane motion than any of the foot conditions, and the unlocked had more frontal plane motion than the usual foot and locked condition. Walking across an unstable rock surface showed similar trends, with control participants having more sagittal and frontal plane ankle motion compared with any prosthetic foot condition. Also, the unlocked had statistically greater frontal plane motion than the usual foot or locked condition. Sidestep results were also consistent with other gait tests. The control participants’ sagittal plane ankle range of motion was significantly more than the prosthetic sagittal plane motion for all foot conditions, whether the prosthetic side was leading or trailing. There was significantly more frontal plane motion with the unlocked than the usual foot and locked condition when the prosthetic foot was trailing or leading. Discussion and Conclusions Wide variation in usual foot range of motions in the frontal and sagittal planes confirmed the need for additional controls when considering the effect of the linkage alone. The unlocked had increased frontal plane ranges of motion compared with the locked and the majority of usual foot for all gait conditions, including level walking. This finding demonstrated that people with amputations were functionally using the additional range of motion provided by the linkage. However, control subjects used more range of motion in both the sagittal and frontal planes for the unstable rock surface and sidestepping. Increased frontal plane range of motion did not translate into improved stride length and velocity, step width, or center of mass deviations. Clinical Relevance The person-specific functional activities should be considered when choosing a prosthetic foot. A prosthesis with frontal plane motion may be applicable for a person who moves in a sidestep pattern or on uneven ground.
一种前平面适应性假肢足的运动分析
设计假肢足的目的是为了实现足部和踝关节对各种表面和不同步态形式的自然适应性。脚相对于小腿的前平面位置随着步态的许多功能方面而变化,例如转弯、爬楼梯和在不平坦的地面上行走。假肢足设计具有可变的正面适应性。为改善不同工况下的前平面响应,研制了一种带±10°前平面运动连杆机构的研究足。本研究的目的是利用交叉设计,比较前平面适应性假肢足在锁定和解锁条件下与人的正常足在水平表面、不稳定岩石表面和侧面行走时的运动学。这些不同的情况导致解剖足和踝关节额平面运动的变化,目前的研究评估假肢足是否也有类似的趋势。材料和方法被纳入研究对象的条件是:单侧膝以下截肢,残肢皮肤完整,年龄超过16岁,能够在平地上行走400米以上而不使用助行器,且疼痛没有增加。对照组是没有截肢的人,他们完成了一次手术。截肢的参与者分别在平地和不稳定的岩石表面上向前行走,并用正常的脚侧身行走。然后在2周的住宿后,参与者在调查脚解锁和锁定的情况下重复这些测试。运动分析数据由一个基于12个摄像头的光学系统收集。主要结果是足相对于小腿的矢状面和额平面运动。此外,通过运动学测量得到了步长、步宽和步幅速度。配对t检验用于个体参与者比较的统计推断。非配对t检验用于对照组和截肢者之间的比较。结果21例截肢患者和10例对照组完成了测试。截肢的参与者有16只不同的脚。在向前行走时,通常的足部运动有很大的变化,而研究性足部条件的变化较小。在水平行走过程中,对照组受试者的额平面运动多于任何足部条件下的运动,未解锁组受试者的额平面运动多于正常足部和锁定组。在不稳定的岩石表面上行走也显示出类似的趋势,与任何假肢足相比,对照组参与者的踝关节矢状面和前平面运动更多。此外,与通常的足部或锁定条件相比,未锁定条件下的额平面运动在统计学上更大。侧步的结果也与其他步态测试一致。在所有足部条件下,无论假体侧是前侧还是后侧,对照组参与者的踝关节矢状面运动范围都明显大于假体侧。无锁足情况下的前平面运动明显多于正常足和锁足情况下的前平面运动。讨论和结论通常足额和矢状面运动范围的巨大变化证实了在单独考虑联动作用时需要额外的控制。在所有步态条件下(包括水平行走),与锁足和大多数正常足相比,未锁足的前平面运动范围增加。这一发现表明,截肢患者在功能上使用了由关节连接提供的额外活动范围。然而,对照组受试者在不稳定的岩石表面和回避时,在矢状面和正面都使用了更多的运动范围。增加的额平面运动范围并没有转化为跨步长度和速度、步宽或重心偏差的改善。在选择假肢脚时,应考虑个人特定的功能活动。具有正面运动的假体可能适用于以侧步模式或在不平坦的地面上移动的人。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Prosthetics and Orthotics
Journal of Prosthetics and Orthotics Medicine-Rehabilitation
CiteScore
1.30
自引率
16.70%
发文量
59
期刊介绍: Published quarterly by the AAOP, JPO: Journal of Prosthetics and Orthotics provides information on new devices, fitting and fabrication techniques, and patient management experiences. The focus is on prosthetics and orthotics, with timely reports from related fields such as orthopaedic research, occupational therapy, physical therapy, orthopaedic surgery, amputation surgery, physical medicine, biomedical engineering, psychology, ethics, and gait analysis. Each issue contains research-based articles reviewed and approved by a highly qualified editorial board and an Academy self-study quiz offering two PCE''s.
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