Pain, balance, and mobility in people 1 year after total knee arthroplasty: a non-randomized cross-sectional pilot study contrasting posterior-stabilized and medial-pivot designs

Cathy W. T. Lo; Matthew A. Brodie; William W. N. Tsang; Stephen R. Lord; Chun-Hoi Yan; Arnold Y. L. Wong

doi:10.1186/s40814-022-01094-0

Pilot and Feasibility Studies (Jun 2022)

Pain, balance, and mobility in people 1 year after total knee arthroplasty: a non-randomized cross-sectional pilot study contrasting posterior-stabilized and medial-pivot designs

Cathy W. T. Lo,
Matthew A. Brodie,
William W. N. Tsang,
Stephen R. Lord,
Chun-Hoi Yan,
Arnold Y. L. Wong

Affiliations

Cathy W. T. Lo: Department of Rehabilitation Sciences, The Hong Kong Polytechnic University
Matthew A. Brodie: Neuroscience Research Australia, University of New South Wales
William W. N. Tsang: Department of Physiotherapy, School of Nursing and Health Studies, Hong Kong Metropolitan University
Stephen R. Lord: Neuroscience Research Australia, University of New South Wales
Chun-Hoi Yan: Department of Orthopaedics and Traumatology, The University of Hong Kong
Arnold Y. L. Wong: Department of Rehabilitation Sciences, The Hong Kong Polytechnic University

DOI: https://doi.org/10.1186/s40814-022-01094-0
Journal volume & issue: Vol. 8, no. 1
pp. 1 – 13

Abstract

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Abstract Background Total knee arthroplasty (TKA) is a common treatment for severe knee osteoarthritis. Medial-pivot TKA systems (MP-TKA) are theoretically better than posterior-stabilized TKA systems (PS-TKA) in improving static and dynamic balance of patients although it is difficult to objectively quantify these balance parameters in a clinical setting. Therefore, this pilot study aimed to evaluate the feasibility of using wearable devices in a clinical setting to examine whether people with MP-TKA have better postoperative outcomes than PS-TKA, and their balance control is more akin to age-matched asymptomatic controls. Methods The current cross-sectional pilot study recruited 57 participants with 2 different prosthesis designs (20 PS-TKA, 18 MP-TKA) and 19 asymptomatic controls. At 1-year post-TKA, pain, knee stiffness, and physical function were assessed using the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC). Static balance, mobility, and gait stability of the participants were evaluated based on data collected from wearable motion sensors during the near tandem stance, timed-up-and-go, and 6-min walk tests. Results Compared to asymptomatic controls, both TKA groups reported significantly more pain and stiffness and demonstrated reduced functional mobility, increased stride-time-variability, and impaired balance. After Bonferroni adjustment, no significant differences in pain, balance, and mobility performance were observed between PS-TKA and MP-TKA participants 1 year after surgery. However, there was a trend for increased anteroposterior sway of the lumbar and head regions in the MP-TKA participants when undertaking the near tandem stance test. The wearable motion sensors were easy to use without any adverse effects. Conclusions It is feasible to use wearable motion sensors in a clinical setting to compare balance and mobility performance of patients with different TKA prothesis designs. Since this was a pilot study and no definite conclusions could be drawn, future clinical trials should determine the impacts of different TKA prosthesis designs on post-operative outcomes over a longer follow-up period.

Published in Pilot and Feasibility Studies

ISSN: 2055-5784 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General)
Website: https://pilotfeasibilitystudies.biomedcentral.com

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