Chris A. McGibbon scite author profile

Objective. To determine whether the adduction moment at the knee during locomotor activity contributes to the development of future chronic knee pain. Methods. We studied 132 community-dwelling elders who had undergone a full kinetic and kinematic motion analysis while performing 4 different activities: standing, walking, rising from a chair, and descending stairs. We contacted the participants 3-4 years after their baseline locomotion analysis and identified those who reported no knee pain at the time of motion analysis but who subsequently developed new chronic knee pain at followup. We examined whether the development of new chronic knee pain was associated with higher peak adduction moment at the knee during activities, measured at baseline. Results. Of the 132 elders evaluated in 1995-1996, 118 (89%) were contacted in 1999. Of the 118 contacted, 80 (mean age 75 years; 78% women) had no lower extremity prosthetic joints at baseline, no known underlying inflammatory arthritis at baseline nor followup, and no baseline knee pain. At followup, 7 had developed new chronic knee pain defined as pain or stiffness on most days of the month and with walking 2 blocks or using stairs. Compared with those who did not develop knee pain, those who did develop new chronic knee pain had higher baseline adduction moments for all activities (P ‫؍‬ 0.01), ranging from 8% higher during chair rise to 39% higher during stair descent. Conclusion. We found that greater adduction moment at the knee during activities contributes to the development of future chronic knee pain. Our results suggest that biomechanical factors may play an important role in the pathogenesis of knee pain and should be studied further.

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Toward a Better Understanding of Gait Changes With Age and Disablement: Neuromuscular Adaptation

McGibbon¹

2003

Exercise and Sport Sciences Reviews

197

122

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Gait changes in the elderly, such as reduced step length and walking speed, are well documented but not well understood. This review explores the hypothesis that neuromuscular adaptations are a response to age-related impairments and play a key role in causing gait changes in the elderly, and that different neuromuscular adaptations may exist depending on the impairment and presence of comorbidities, such as knee arthritis.

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Acupuncture for Upper-Extremity Rehabilitation in Chronic Stroke: A Randomized Sham-Controlled Study

Wayne

Krebs

Macklin

et al. 2005

Archives of Physical Medicine and Rehabilitation

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Social support and medication adherence in HIV disease in KwaZulu-Natal, South Africa

Ncama¹,

McInerney²,

Bhengu³

et al. 2008

International Journal of Nursing Studies

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Physiotherapists’ Experiences Using the Ekso Bionic Exoskeleton with Patients in a Neurological Rehabilitation Hospital: A Qualitative Study

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Woolsey

McGibbon

et al. 2020

Rehabilitation Research and Practice

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Use of bionic overground exoskeletons to assist with neurological rehabilitation is becoming increasingly prevalent and has important implications for physiotherapists and their patients. Yet, there is a paucity of research about the impact of integrating this technology on physiotherapists’ work. The purpose of this study was to explore how the training and implementation of using the Ekso robotic exoskeleton with patients affects physiotherapists’ work. An exploratory qualitative study of three physiotherapists working at a neurological rehabilitation centre in Eastern Canada was conducted using one-on-one semistructured interviews in July 2017. Audio recordings were transcribed verbatim, and data was coded and analyzed using thematic analysis. Six themes emerged from the data: developing organizational capacity; ethical use of technology; benefits of the equipment; challenges of the equipment; cognitive workload; and the technological environment. The results suggest that the adoption and integration of bionic exoskeletons into rehabilitation practice is not as simple as training physiotherapists and giving them the device. More research is needed to understand the increased cognitive demands of working with patients using technologically advanced exoskeletons within a dynamic, technology-rich healthcare environment, while managing patient expectations and ethical use.

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Chris A. McGibbon

Knee adduction moment and development of chronic knee pain in elders

Toward a Better Understanding of Gait Changes With Age and Disablement: Neuromuscular Adaptation

Acupuncture for Upper-Extremity Rehabilitation in Chronic Stroke: A Randomized Sham-Controlled Study

Social support and medication adherence in HIV disease in KwaZulu-Natal, South Africa

Physiotherapists’ Experiences Using the Ekso Bionic Exoskeleton with Patients in a Neurological Rehabilitation Hospital: A Qualitative Study

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