Kate Worster scite author profile

The human foot and ankle system is equipped with structures that can produce mechanical work through elastic (e.g., Achilles tendon, plantar fascia) or viscoelastic (e.g., heel pad) mechanisms, or by active muscle contractions. Yet, quantifying the work distribution among various subsections of the foot and ankle can be difficult, in large part due to a lack of objective methods for partitioning the forces acting underneath the stance foot. In this study, we deconstructed the mechanical work production during barefoot walking in a segment-by-segment manner (hallux, forefoot, hindfoot, and shank). This was accomplished by isolating the forces acting within each foot segment through controlling the placement of the participants’ foot as it contacted a ground-mounted force platform. Combined with an analysis that incorporated non-rigid mechanics, we quantified the total work production distal to each of the four isolated segments. We found that various subsections within the foot and ankle showed disparate work distribution, particularly within structures distal to the hindfoot. When accounting for all sources of positive and negative work distal to the shank (i.e., ankle joint and all foot structures), these structures resembled an energy-neutral system that produced net mechanical work close to zero (−0.012 ± 0.054 J/kg).

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Sagittal plane coordination dynamics of typically developing gait

Worster

Valvano

Carollo

2015

Clinical Biomechanics

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Analysis of Reach-to-Grasp by School-Aged Children with Down Syndrome Elucidates Limitations in Upper Extremity Motor Control

Valvano

Hogy

Worster

et al. 2017

Physical & Occupational Therapy In Pediatrics

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Changes in inter-segmental coordination and gait performance after the rectus femoris transfer procedure in children with cerebral palsy

et al. 2012

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Relative phase measures of intersegmental coordination describe motor control impairments in children with cerebral palsy who exhibit stiff-knee gait

Carollo

Worster

Pan

et al. 2018

Clinical Biomechanics

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Analysis of Postoperative Gait, Hip Strength, and Patient-Reported Outcomes After OTA/AO 61-B and 61-C Pelvic Ring Injuries

Dean

Nadeau

Strage

et al. 2022

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Objectives: To examine clinical gait parameters, hip muscle strength, pelvic functional outcomes, and psychological outcomes after surgical fixation of OTA/AO 61-B and 61-C pelvic ring injuries.Design: Retrospective review identified 10 OTA/AO 61-B patients and 9 OTA/AO 61-C patients for recruitment who were between 1 and 5 years after pelvic fixation. Gait and strength assessments, and patient-reported outcome scores were performed/collected and analyzed.

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Response surface methodology reveals changing motor control strategies during a single leg squat

Pak¹,

Warren²,

Worster³

2021

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Kate Worster

Energy neutral: the human foot and ankle subsections combine to produce near zero net mechanical work during walking

Sagittal plane coordination dynamics of typically developing gait

Analysis of Reach-to-Grasp by School-Aged Children with Down Syndrome Elucidates Limitations in Upper Extremity Motor Control

Changes in inter-segmental coordination and gait performance after the rectus femoris transfer procedure in children with cerebral palsy

Relative phase measures of intersegmental coordination describe motor control impairments in children with cerebral palsy who exhibit stiff-knee gait

Analysis of Postoperative Gait, Hip Strength, and Patient-Reported Outcomes After OTA/AO 61-B and 61-C Pelvic Ring Injuries

Response surface methodology reveals changing motor control strategies during a single leg squat

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