Knee joint loading differs in individuals with mild compared with moderate medial knee osteoarthritis

Thorp, Laura E.; Sumner, Dale R.; Block, Joel A.; Moisio, Kirsten C.; Shott, Susan; Wimmer, Markus A.

doi:10.1002/art.22247

Cited by 234 publications

(190 citation statements)

References 27 publications

(40 reference statements)

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“…The EKAM has been used as a proxy for medial knee joint load, and a reduction in the EKAM represents a change in medial to lateral distribution and a relative lowering of the medial compartment load (9). The area underneath the EKAM curve, the knee adduction angular impulse (KAAI), represents the cumulative effect of the EKAM over the stance phase (10). High medial knee loading during walking estimated using the EKAM and KAAI is predictive of structural progression in knee OA (3,5,6), under the tenet that high knee loading in the presence of established disease overwhelms the normal regulation of healthy tissue, precipitating ongoing structural change (11).…”

Section: Introductionmentioning

confidence: 99%

Lateral Wedge Insoles for Reducing Biomechanical Risk Factors for Medial Knee Osteoarthritis Progression: A Systematic Review and Meta‐Analysis

Arnold

Wong

Jones

et al. 2016

Arthritis Care & Research

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Objective. Lateral wedge insoles are intended to reduce biomechanical risk factors of medial knee osteoarthritis (OA) progression, such as increased knee joint load; however, there has been no definitive consensus on this topic. The aim of this systematic review and meta-analysis was to establish the within-subject effects of lateral wedge insoles on knee joint load in people with medial knee OA during walking. Methods. Six databases were searched from inception until February 13, 2015. Included studies reported on the immediate biomechanical effects of lateral wedge insoles during walking in people with medial knee OA. Primary outcomes of interest relating to the biomechanical risk of disease progression were the first and second peak external knee adduction moment (EKAM) and knee adduction angular impulse (KAAI). Eligible studies were pooled using random-effects metaanalysis.Results. Eighteen studies were included with a total of 534 participants. Lateral wedge insoles resulted in a small but statistically significant reduction in the first peak EKAM (standardized mean difference [SMD] 20.19; 95% confidence interval [95% CI] 20.23, 20.15) and second peak EKAM (SMD 20.25; 95% CI 20.32, 20.19) with a low level of heterogeneity (I 2 5 5% and 30%, respectively). There was a favorable but small reduction in the KAAI with lateral wedge insoles (SMD 20.14; 95% CI 20.21, 20.07, I 2 5 31%). Risk of methodologic bias scores (quality index) ranged from 8 to 13 out of 16. Conclusion. Lateral wedge insoles cause small reductions in the EKAM and KAAI during walking in people with medial knee OA. Current evidence demonstrates that lateral wedge insoles appear ineffective at attenuating structural changes in people with medial knee OA as a whole and may be better suited to targeted use in biomechanical phenotypes associated with larger reductions in knee load.

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Section: Introductionmentioning

confidence: 99%

Lateral Wedge Insoles for Reducing Biomechanical Risk Factors for Medial Knee Osteoarthritis Progression: A Systematic Review and Meta‐Analysis

Arnold

Wong

Jones

et al. 2016

Arthritis Care & Research

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“…The external KAM is a reliable and valid indicator of medial knee load (11,12) and is most often quantified by evaluating the 2 peaks during stance, as well as the impulse (area under the KAM-time curve). The first and typically largest peak occurs during the load acceptance phase of gait (approximately 25% stance), and the second peak occurs during the propulsion phase (approximately 75% stance) (13)(14)(15). Clinical implications of a large KAM are significant as the peak KAM is a strong predictor of medial compartment OA radiographic disease severity (16), rate of disease progression (6), and development of chronic knee pain (17).…”

Section: Introductionmentioning

confidence: 99%

Trunk lean gait modification and knee joint load in people with medial knee osteoarthritis: The effect of varying trunk lean angles

Simić¹,

Hunt²,

Bennell³

et al. 2012

Arthritis Care & Research

102

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Objective. To evaluate whether increased lateral trunk lean toward the symptomatic lower extremity during gait in people with medial knee osteoarthritis (OA) immediately alters symptoms or medial knee load, as measured by the external knee adduction moment (KAM). Methods. Participants with medial knee OA (n ‫؍‬ 22) underwent 3-dimensional gait analysis to measure KAM peaks (early and late stance) and KAM impulse. Following the analysis of natural gait, participants were trained to lean their trunk toward the symptomatic leg during ipsilateral stance over 3 randomly ordered conditions (6°, 9°, and 12°lean). A projection screen displayed real-time trunk angles and target levels. Pain/discomfort in the knees, the hip, and the back were measured across conditions. Load-modifying effects of increasing lean magnitudes were investigated using linear mixed models. Mediating effects of peak lean timing and participant characteristics (pain and malalignment) were evaluated. Results. Increased trunk lean reduced all KAM measures (P

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“…This shows that when arm swing range is small, the dynamic load in the frontal plane decreases. Kito 5) and others 10,11) reported that the internal knee abduction moment of patients with knee OA is larger than that of healthy individuals during the stance phase. This suggests that patients with the knee OA have a smaller arm swing range in order to avoid pain.…”

Section: Discussionmentioning

confidence: 99%

Effects of Arm Swing Limitation on Knee Joint Moment during Walking —Biomechanical Analysis Using a 3D Motion Capture System—

et al. 2012

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Abstract.[Purpose] The purpose of this research was to examine the biomechanical effects of arm swing limitation on knee joint gait.[Subjects] Subjects were 10 healthy males (mean age, 22 ± 0.8 years; mean height, 173.9 ± 5.9 cm; mean weight, 67.0 ± 6.4 kg).[Methods] Knee abduction normally shows a bimodal curve. The top of the primary curve was defined as val_m1 and that of the secondary curve was defined as val_m2. Knee abduction moment, knee extension moment, GRF range, trunk rotation range, and arm swing range were then calculated at val_m1 and val_m2. Measurements were performed without arm swing limitation on a 10-m walkway (no limitation condition), and with the subjects' arms folded in front of their chests (limitation condition).[Results] Val_m1 was 10.9 ± 2.4% of the gait cycle. Val_m1 (65.3 ± 13.1 Nm) under the limitation condition was significantly lower than that (70.0 ± 13.0 Nm) under the no limitation condition (p<0.01). In addition, the knee extension moment (71.7 ± 21.1 Nm) under the limitation condition was significantly higher than that (62.6 ± 20.4 Nm) under the no limitation condition at val_m1 (p<0.01).[Conclusion] Arm swing limitation decreases knee abduction moment, but increases knee extension moment.

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Knee joint loading differs in individuals with mild compared with moderate medial knee osteoarthritis

Cited by 234 publications

References 27 publications

Lateral Wedge Insoles for Reducing Biomechanical Risk Factors for Medial Knee Osteoarthritis Progression: A Systematic Review and Meta‐Analysis

Lateral Wedge Insoles for Reducing Biomechanical Risk Factors for Medial Knee Osteoarthritis Progression: A Systematic Review and Meta‐Analysis

Trunk lean gait modification and knee joint load in people with medial knee osteoarthritis: The effect of varying trunk lean angles

Effects of Arm Swing Limitation on Knee Joint Moment during Walking —Biomechanical Analysis Using a 3D Motion Capture System—

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