Jaap Harlaar scite author profile

IntroductionRigid Ankle-Foot Orthoses (AFOs) are commonly prescribed to counteract excessive knee flexion during the stance phase of gait in children with cerebral palsy (CP). While rigid AFOs may normalize knee kinematics and kinetics effectively, it has the disadvantage of impeding push-off power. A spring-like AFO may enhance push-off power, which may come at the cost of reducing the knee flexion less effectively. Optimizing this trade-off between enhancing push-off power and normalizing knee flexion in stance is expected to maximize gait efficiency. This study investigated the effects of varying AFO stiffness on gait biomechanics and efficiency in children with CP who walk with excessive knee flexion in stance. Fifteen children with spastic CP (11 boys, 10±2 years) were prescribed with a ventral shell spring-hinged AFO (vAFO). The hinge was set into a rigid, or spring-like setting, using both a stiff and flexible performance. At baseline (i.e. shoes-only) and for each vAFO, a 3D-gait analysis and 6-minute walk test with breath-gas analysis were performed at comfortable speed. Lower limb joint kinematics and kinetics were calculated. From the 6-minute walk test, walking speed and the net energy cost were determined. A generalized estimation equation (p<0.05) was used to analyze the effects of different conditions. Compared to shoes-only, all vAFOs improved the knee angle and net moment similarly. Ankle power generation and work were preserved only by the spring-like vAFOs. All vAFOs decreased the net energy cost compared to shoes-only, but no differences were found between vAFOs, showing that the effects of spring-like vAFOs to promote push-off power did not lead to greater reductions in walking energy cost. These findings suggest that, in this specific group of children with spastic CP, the vAFO stiffness that maximizes gait efficiency is primarily determined by its effect on knee kinematics and kinetics rather than by its effect on push-off power.Trial RegistrationDutch Trial Register NTR3418

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Joint proprioception, muscle strength, and functional ability in patients with osteoarthritis of the knee

Esch¹,

Steultjens²,

Harlaar³

et al. 2007

Arthritis & Rheumatism

145

135

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Objective. To test the hypotheses that poor knee joint proprioception is related to limitations in functional ability, and poor proprioception aggravates the impact of muscle weakness on limitations in functional ability in osteoarthritis (OA) of the knee. Methods. Sixty-three patients with symptomatic OA of the knee were tested. Proprioceptive acuity was assessed by establishing the joint motion detection threshold (JMDT) in the anteroposterior direction. Muscle strength was measured using a computer-driven isokinetic dynamometer. Functional ability was assessed by the 100-meter walking test, the Get Up and Go (GUG) test, and the Western Ontario and McMaster Universities Osteoarthritis Index physical function (WOMAC-PF) questionnaire. Correlation analyses were performed to assess the relationship between proprioception, muscle strength, and functional ability. Regression analyses were performed to assess the impact of proprioception on the relationship between muscle strength and functional ability. Results. Poor proprioception (high JMDT) was related to more limitation in functional ability (walking time r ‫؍‬ 0.30, P < 0.05; GUG time r ‫؍‬ 0.30, P < 0.05; WOMAC-PF r ‫؍‬ 0.26, P <0.05). In regression analyses, the interaction between proprioception and muscle strength was significantly related to functional ability (walking time, P < 0.001 and GUG time, P < 0.001) but not to WOMAC-PF score (P ‫؍‬ 0.625). In patients with poor proprioception, reduction of muscle strength was associated with more severe deterioration of functional ability than in patients with accurate proprioception. Conclusion. Patients with poor proprioception show more limitation in functional ability, but this relationship is rather weak. In patients with poor proprioception, muscle weakness has a stronger impact on limitations in functional ability than in patients with accurate proprioception.

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Two strategies of transferring from sit-to-stand; The activation of monoarticular and biarticular muscles

Doorenbosch

Harlaar

Roebroeck

et al. 1994

Journal of Biomechanics

177

121

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Recording scapular motion using an acromion marker cluster

et al. 2009

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A new method for evaluating ankle foot orthosis characteristics: BRUCE

et al. 2009

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Jaap Harlaar

Complete 3D kinematics of upper extremity functional tasks

Biomechanics and muscular activity during sit-to-stand transfer

The Application of Generalizability Theory to Reliability Assessment: An Illustration Using Isometric Force Measurements

The Effects of Varying Ankle Foot Orthosis Stiffness on Gait in Children with Spastic Cerebral Palsy Who Walk with Excessive Knee Flexion

Joint proprioception, muscle strength, and functional ability in patients with osteoarthritis of the knee

Two strategies of transferring from sit-to-stand; The activation of monoarticular and biarticular muscles

Recording scapular motion using an acromion marker cluster

A new method for evaluating ankle foot orthosis characteristics: BRUCE

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