scholarly journals Biomechanical Effect of 3D-Printed Foot Orthoses in Patients with Knee Osteoarthritis

2020 ◽  
Author(s):  
Kuang-Wei Lin ◽  
Li-Wei Chou ◽  
Yi-Tien Su ◽  
Shun-Hwa Wei ◽  
Chen-Sheng Chen
Keyword(s):  
Center Of Pressure ◽  
Medial Knee ◽  
Knee Oa ◽  
Ankle Inversion ◽  
Ankle Eversion ◽  
Peak Knee ◽  
Flexion Moment ◽  
3D Printed ◽  
Lateral Wedges ◽  
Second Peak

Abstract Background: Lateral wedges comprise a common conservative treatment for medial knee osteoarthritis (OA). However, use of lateral wedges might increases the ankle eversion moment. To minimize the risk of ankle joint, lateral wedges with custom arch support are suggested. However, the manufacturing process of a custom foot orthosis (FO) is complicated, labor intensive, and time consuming. The technology of 3D printing is an ideal method for mass customization. Therefore. the purpose of this study was to develop custom FOs using 3D printing techniques and to evaluate the biomechanical effects of 3D-printed FOs in patients with medial knee OA.Methods: Fifteen patients with medial knee OA were enrolled into this study. Kinematic and kinetic data were collected during walking by using an optical motion capture system. A paired-sample t-test was conducted to compare biomechanical variables under two conditions: walking in standard shoes (Shoe) and walking in shoes embedded with 3D-printed FOs (Shoe + FO).Results: Under the Shoe + FO condition, the center of pressure at the peak knee adduction moment significantly shifted laterally by 2.71 mm compared with the Shoe condition. No significant difference in the peak knee flexion moment was observed between the two conditions. In addition, both the first and second peak knee adduction moments were significantly reduced by 4.08% and 9.09% under the Shoe + FO condition. The 3D-printed FOs did not affect the ankle eversion moment but caused a decrease in the peak ankle inversion moment.Conclusions: The 3D-printed FOs caused a decrease in the ankle inversion moment, the first and second peak knee adduction moments by changing the center of pressure path laterally. Although the decrease in the knee flexion moment from the use of 3D-printed FOs was nonsignificant, such FOs engender biomechanical changes and positively influence the biomechanics of patients with knee OA.

scholarly journals The 2- and 8-week effects of decompressive brace use in people with medial compartment knee osteoarthritis

2015 ◽  
Vol 40 (4) ◽  
pp. 447-453 ◽  
Author(s):  
Eric M Lamberg ◽  
Robert Streb ◽  
Marc Werner ◽  
Ian Kremenic ◽  
James Penna
Keyword(s):  
Knee Osteoarthritis ◽  
Repeated Measures ◽  
Knee Adduction Moment ◽  
Knee Brace ◽  
Knee Motion ◽  
Noninvasive Treatment ◽  
Medial Knee ◽  
Medial Knee Osteoarthritis ◽  
Peak Knee ◽  
Second Peak

Background: Knee osteoarthritis is a prevalent disease. Unloading the affected compartment using a brace is a treatment option. Objectives: To determine whether a decompressive knee brace alters loading in medial knee osteoarthritis following 2 and 8 weeks of use. Study design: Within subjects; pre- and post-testing. Methods: A total of 15 individuals with medial knee osteoarthritis attended four sessions: baseline, fitting, 2 weeks after fitting (post), and 8 weeks after fitting (final). A gait analysis was performed at baseline (without knee brace), post and final. Knee adduction impulse, first and second peak knee adduction moment, knee motion, and walking velocity were calculated. Participants also recorded hours and steps taken while wearing the brace. Results: On average, the brace was worn for more than 6 h/day. Through use of repeated-measures analysis of variance, it was determined that the knee adduction impulse and second peak knee adduction moment were reduced ( p < 0.05) at post and final compared to baseline (36% and 34% reduction in knee adduction impulse, 26% reduction in second peak knee adduction moment for post and final, respectively). Furthermore, participants walked faster with increased knee motion during stance. Conclusion: The studied decompressive brace was effective in reducing potentially detrimental forces at the knee—knee adduction impulse and second peak knee adduction moment during the stance phase of gait. Clinical relevance The data from this study suggest that use of a medial unloading brace can reduce potentially detrimental adduction moments at the knee. Clinicians should use this evidence to advocate for use of this noninvasive treatment for people presenting with medial knee osteoarthritis.

Do Knee Moments Normalized to Measures of Knee Cartilage Area Better Classify the Severity of Knee Osteoarthritis?

2015 ◽  
Vol 31 (6) ◽  
pp. 415-422
Author(s):  
Nicholas M. Brisson ◽  
Paul W. Stratford ◽  
Saara Totterman ◽  
José G. Tamez-Peña ◽  
Karen A. Beattie ◽  
...  
Keyword(s):  
Knee Osteoarthritis ◽  
Body Mass ◽  
Knee Adduction Moment ◽  
Medial Knee ◽  
Receiver Operating Characteristic Curves ◽  
Knee Oa ◽  
Tibial Bone ◽  
Peak Knee ◽  
Radiographic Disease ◽  
Knee Size

Investigations of joint loading in knee osteoarthritis (OA) typically normalize the knee adduction moment to global measures of body size (eg, body mass, height) to allow comparison between individuals. However, such measurements may not reflect knee size. This study used a morphometric measurement of the cartilage surface area on the medial tibial plateau, which better represents medial knee size. This study aimed to determine whether normalizing the peak knee adduction moment and knee adduction moment impulse during gait to the medial tibial bone–cartilage interface could classify radiographic knee OA severity more accurately than traditional normalization techniques. Individuals with mild (N = 22) and severe (N = 17) radiographic knee OA participated. The medial tibial bone–cartilage interface was quantified from magnetic resonance imaging scans. Gait analysis was performed, and the peak knee adduction moment and knee adduction moment impulse were calculated in nonnormalized units and normalized to body mass, body weight × height, and the medial tibial bone–cartilage interface. Receiver operating characteristic curves compared the ability of each knee adduction moment normalization technique to classify participants according to radiographic disease severity. No normalization technique was superior at distinguishing between OA severities. Knee adduction moments normalized to medial knee size were not more sensitive to OA severity.

Dynamic Versus Radiographic Alignment in Relation to Medial Knee Loading in Symptomatic Osteoarthritis

2012 ◽  
Vol 28 (5) ◽  
pp. 551-559 ◽  
Author(s):  
Joaquin A. Barrios ◽  
Todd D. Royer ◽  
Irene S. Davis
Keyword(s):  
Frontal Plane ◽  
Epidemiological Studies ◽  
Knee Adduction Moment ◽  
Knee Alignment ◽  
Radiographic Findings ◽  
Medial Knee ◽  
Knee Oa ◽  
Peak Knee ◽  
Knee Loading ◽  
Radiographic Alignment

Dynamic knee alignment is speculated to have a stronger relationship to medial knee loading than radiographic alignment. Therefore, we aimed to determine what frontal plane knee kinematic variable correlated most strongly to the knee adduction moment. That variable was then compared with radiographic alignment as a predictor of the knee adduction moment. Therefore, 55 subjects with medial knee OA underwent three-dimensional gait analysis. A subset of 21 subjects also underwent full-limb radiographic assessment for knee alignment. Correlations and regression analyses were performed to assess the relationships between the kinematic, kinetic and radiographic findings. Peak knee adduction angle most strongly correlated to the knee adduction moment of the kinematic variables. In comparison with radiographic alignment, peak knee adduction angle was the stronger predictor. Given that most epidemiological studies on knee OA use radiographic alignment in an attempt to understand progression, these results are meaningful.

Greater Step Widths Reduce Internal Knee Abduction Moments in Medial Compartment Knee Osteoarthritis Patients During Stair Ascent

2015 ◽  
Vol 31 (4) ◽  
pp. 229-236 ◽  
Author(s):  
Max R. Paquette ◽  
Gary Klipple ◽  
Songning Zhang
Keyword(s):  
Older Adults ◽  
Knee Osteoarthritis ◽  
Healthy Adults ◽  
Step Width ◽  
Medial Knee ◽  
Healthy Older Adults ◽  
Stair Ascent ◽  
Peak Knee ◽  
Knee Abduction ◽  
Second Peak

Increased step widths have been shown to reduce peak internal knee abduction moments in healthy individuals but not in knee osteoarthritis patients during stair descent. This study aimed to assess effects of increased step widths on peak knee abduction moments and associated variables in adults with medial knee osteoarthritis and healthy older adults during stair ascent. Thirteen healthy older adults and 13 medial knee osteoarthritis patients performed stair ascent using preferred, wide, and wider step widths. Three-dimensional kinematics and ground reaction forces (GRFs) using an instrumented staircase were collected. Increased step width reduced first and second peak knee abduction moments, and knee abduction moment impulse. In addition, frontal plane GRF at time of first and second peak knee abduction moment and lateral trunk lean at time of first peak knee abduction moment were reduced with increased step width during stair ascent in both groups. Knee abduction moment variables were not different between knee osteoarthritis patients and healthy controls. Our findings suggest that increasing step width may be an effective simple gait alteration to reduce knee abduction moment variables in both knee osteoarthritis and healthy adults during stair ascent. However, long term effects of increasing step width during stair ascent in knee osteoarthritis and healthy adults remain unknown.

scholarly journals Personalization improves the biomechanical efficacy of foot progression angle modifications in individuals with medial knee osteoarthritis

2020 ◽  
Author(s):  
Scott D Uhlrich ◽  
Julie A Kolesar ◽  
Łukasz Kidziński ◽  
Melissa A Boswell ◽  
Amy Silder ◽  
...  
Keyword(s):  
Knee Osteoarthritis ◽  
Center Of Pressure ◽  
Knee Adduction Moment ◽  
Abduction Angle ◽  
Valgus Knee ◽  
Lasso Regression ◽  
Medial Knee ◽  
Medial Knee Osteoarthritis ◽  
Foot Progression Angle ◽  
Peak Knee

Abstract Objectives The goal of this study was to evaluate the importance of personalization when selecting foot progression angle modifications that aim to reduce the peak knee adduction moment in individuals with medial knee osteoarthritis. Design One hundred seven individuals with medial knee osteoarthritis walked on an instrumented treadmill with biofeedback instructing them to toe-in and toe-out by 5° and 10° relative to their self-selected foot progression angle. We selected individuals’ personalized foot progression angle as the modification that maximally reduced their larger knee adduction moment peak. Additionally, we used lasso regression to identify which secondary changes in kinematics made a 10° toe-in gait modification more effective at reducing the first knee adduction moment peak. Results Sixty-six percent of individuals reduced their larger knee adduction moment peak by at least 5% with a personalized foot progression angle modification, which is more than (p<0.001) the 54% and 23% of individuals who reduced it with a uniformly-assigned 10° toe-in or toe-out modification, respectively. When toeing-in, greater reductions in the first knee adduction moment peak were related to an increased frontal-plane tibia angle (knee more medial than ankle), a more valgus knee abduction angle, reduced contralateral pelvic drop, and a more medialized center of pressure in the foot reference frame. Conclusions Personalization increases the proportion of individuals with medial knee osteoarthritis who may benefit from modification of their foot progression angle.

Effects of Lateral and Medial Wedged Insoles on Knee and Ankle Internal Joint Moments During Walking in Healthy Men

2016 ◽  
Vol 106 (6) ◽  
pp. 411-418 ◽  
Author(s):  
Claudiane A. Fukuchi ◽  
Ryan T. Lewinson ◽  
Jay T. Worobets ◽  
Darren J. Stefanyshyn
Keyword(s):  
Knee Joint ◽  
Center Of Pressure ◽  
Wedge Angle ◽  
Joint Loading ◽  
Healthy Men ◽  
Ankle Inversion ◽  
Internal Joint ◽  
Lateral Wedges ◽  
Angular Impulse ◽  
Knee Joint Loading

Background: Wedged insoles have been used to treat knee pathologies and to prevent injuries. Although they have received much attention for the study of knee injury, the effects of wedges on ankle joint biomechanics are not well understood. This study sought to evaluate the immediate effects of lateral and medial wedges on knee and ankle internal joint loading and center of pressure (CoP) in men during walking. Methods: Twenty-one healthy men walked at 1.4 m/sec in five footwear conditions: neutral, 6° (LW6) and 9° (LW9) lateral wedges, and 6° (MW6) and 9° (MW9) medial wedges. Peak internal knee abduction moments and angular impulses, internal ankle inversion moments and angular impulses, and mediolateral CoP were analyzed. Analysis of variance with post hoc analysis and Pearson correlations were performed to detect differences between conditions. Results: No differences in internal knee joint loading were found between neutral and any of the wedge conditions. However, as the wedge angle increased from medial to lateral, the internal ankle inversion moment (LW6: P = .020; LW9: P &lt; .001; MW6: P = .046; MW9: P &lt; .001) and angular impulse (LW9: P = .012) increased, and the CoP shifted laterally (LW9: P &lt; .001) and medially (MW9: P &lt; .001) compared with the neutral condition. Conclusions: Neither lateral nor medial wedges were effective in altering internal knee joint loading during walking. However, the greater internal ankle inversion moment and angular impulse observed with lateral wedges could lead to a higher risk of ankle injury. Thus, caution should be taken when lateral wedges need to be prescribed.

scholarly journals Knee joint kinetics in response to multiple three-dimensional printed, customised foot orthoses for the treatment of medial compartment knee osteoarthritis

2017 ◽  
Vol 231 (6) ◽  
pp. 487-498 ◽  
Author(s):  
Richard Allan ◽  
James Woodburn ◽  
Scott Telfer ◽  
Mandy Abbott ◽  
Martijn PM Steultjens
Keyword(s):  
Knee Flexion ◽  
Significant Interaction ◽  
Three Dimensional ◽  
Knee Adduction Moment ◽  
Foot Orthoses ◽  
Peak Knee ◽  
Biomechanical Response ◽  
Flexion Moment ◽  
Foot Orthosis ◽  
Second Peak

The knee adduction moment is consistently used as a surrogate measure of medial compartment loading. Foot orthoses are designed to reduce knee adduction moment via lateral wedging. The ‘dose’ of wedging required to optimally unload the affected compartment is unknown and variable between individuals. This study explores a personalised approach via three-dimensional printed foot orthotics to assess the biomechanical response when two design variables are altered: orthotic length and lateral wedging. Foot orthoses were created for 10 individuals with symptomatic medial knee osteoarthritis and 10 controls. Computer-aided design software was used to design four full and four three-quarter-length foot orthoses per participant each with lateral posting of 0° ‘neutral’, 5° rearfoot, 10° rearfoot and 5° forefoot/10° rearfoot. Three-dimensional printers were used to manufacture all foot orthoses. Three-dimensional gait analyses were performed and selected knee kinetics were analysed: first peak knee adduction moment, second peak knee adduction moment, first knee flexion moment and knee adduction moment impulse. Full-length foot orthoses provided greater reductions in first peak knee adduction moment (p = 0.038), second peak knee adduction moment (p = 0.018) and knee adduction moment impulse (p = 0.022) compared to three-quarter-length foot orthoses. Dose effect of lateral wedging was found for first peak knee adduction moment (p < 0.001), second peak knee adduction moment (p < 0.001) and knee adduction moment impulse (p < 0.001) indicating greater unloading for higher wedging angles. Significant interaction effects were found for foot orthosis length and participant group in second peak knee adduction moment (p = 0.028) and knee adduction moment impulse (p = 0.036). Significant interaction effects were found between orthotic length and wedging condition for second peak knee adduction moment (p = 0.002). No significant changes in first knee flexion moment were found. Individual heterogeneous responses to foot orthosis conditions were observed for first peak knee adduction moment, second peak knee adduction moment and knee adduction moment impulse. Biomechanical response is highly variable with personalised foot orthoses. Findings indicate that the tailoring of a personalised intervention could provide an additional benefit over standard interventions and that a three-dimensional printing approach to foot orthosis manufacturing is a viable alternative to the standard methods.

“Going Backward”: Effects of age and fatigue on posterior-directed falls in Parkinson disease

2021 ◽  
pp. 1-9
Author(s):  
Evan V. Papa ◽  
Rita M. Patterson ◽  
Nicoleta Bugnariu
Keyword(s):  
Postural Control ◽  
Parkinson Disease ◽  
Repeated Measures ◽  
Center Of Pressure ◽  
Angular Displacement ◽  
Reaction Times ◽  
Older Individuals ◽  
Peak Knee ◽  
Significant Difference ◽  
Fatiguing Exercise

BACKGROUND: Nearly half of persons with Parkinson disease (PD) report fatigue as a factor in their fall history. However, it is unknown whether these self-reported falls are caused by a sensation of fatigue or performance fatigue. OBJECTIVE: We sought to investigate the influences of performance fatigue and age on postural control in persons with PD. METHODS: Individuals with PD (n = 14) underwent postural control assessments before (T0) and immediately after (T1) fatiguing exercise. Biomechanical data were gathered on participants completing a treadmill-induced, posterior-directed fall. Performance fatigue was produced using lower extremity resistance exercise on an isokinetic ergometer. Repeated measures ANCOVAs were used with age as a covariate to determine the effects of performance fatigue on biomechanical variables. RESULTS: After adjustment for age, there was a statistically significant difference in peak center of pressure (COP) latency during the support phase of recovery. Pairwise comparisons demonstrated a decrease in peak ankle displacement from T0 to T1. Age was also found to be significantly related to reaction time and peak knee displacement while participants were fatigued. CONCLUSIONS: The decreased peak COP latency, along with decreased ankle angular displacement, suggest that persons with PD adopt a stiffening strategy in response to backward directed falls. Postural stiffening is not uncommon in persons with PD and could be a risk factor for falls. Older individuals with PD demonstrate slower mobility scores and decreased reaction times in the setting of fatigue, suggesting a combined effect of the aging and fatigue processes.

scholarly journals Medial knee joint contact force in the intact limb during walking in recently ambulatory service members with unilateral limb loss: a cross-sectional study

PeerJ ◽  
2017 ◽  
Vol 5 ◽  
pp. e2960 ◽  
Author(s):  
Ross H. Miller ◽  
Rebecca L. Krupenevich ◽  
Alison L. Pruziner ◽  
Erik J. Wolf ◽  
Barri L. Schnall
Keyword(s):  
Knee Joint ◽  
Limb Loss ◽  
Service Members ◽  
Model Parameters ◽  
Joint Loading ◽  
Cross Sectional ◽  
Medial Knee ◽  
Knee Oa ◽  
Joint Contact ◽  
Intact Limb

BackgroundIndividuals with unilateral lower limb amputation have a high risk of developing knee osteoarthritis (OA) in their intact limb as they age. This risk may be related to joint loading experienced earlier in life. We hypothesized that loading during walking would be greater in the intact limb of young US military service members with limb loss than in controls with no limb loss.MethodsCross-sectional instrumented gait analysis at self-selected walking speeds with a limb loss group (N = 10, age 27 ± 5 years, 170 ± 36 days since last surgery) including five service members with transtibial limb loss and five with transfemoral limb loss, all walking independently with their first prosthesis for approximately two months. Controls (N = 10, age 30 ± 4 years) were service members with no overt demographical risk factors for knee OA. 3D inverse dynamics modeling was performed to calculate joint moments and medial knee joint contact forces (JCF) were calculated using a reduction-based musculoskeletal modeling method and expressed relative to body weight (BW).ResultsPeak JCF and maximum JCF loading rate were significantly greater in limb loss (184% BW, 2,469% BW/s) vs. controls (157% BW, 1,985% BW/s), with large effect sizes. Results were robust to probabilistic perturbations to the knee model parameters.DiscussionAssuming these data are reflective of joint loading experienced in daily life, they support a “mechanical overloading” hypothesis for the risk of developing knee OA in the intact limb of limb loss subjects. Examination of the evolution of gait mechanics, joint loading, and joint health over time, as well as interventions to reduce load or strengthen the ability of the joint to withstand loads, is warranted.

scholarly journals Association of Varus Thrust With Pain and Stiffness and Activities of Daily Living in Patients With Medial Knee Osteoarthritis

2016 ◽  
Vol 96 (2) ◽  
pp. 167-175 ◽  
Author(s):  
Naoto Fukutani ◽  
Hirotaka Iijima ◽  
Takahiko Fukumoto ◽  
Daisuke Uritani ◽  
Eishi Kaneda ◽  
...  
Keyword(s):  
Knee Osteoarthritis ◽  
Activities Of Daily Living ◽  
Daily Living ◽  
Predictor Variable ◽  
Cross Sectional Study ◽  
Sensitivity Analyses ◽  
Varus Alignment ◽  
Cross Sectional ◽  
Medial Knee ◽  
Knee Oa

Background Increasing evidence highlights potential associations between varus thrust and health domains associated with knee osteoarthritis (OA). Objective The aim of this study was to investigate the association between varus thrust and 2 subcategories—“pain and stiffness” and “activities of daily living (ADL)”—of the Japanese Knee Osteoarthritis Measure (JKOM). Design This was a cross-sectional study. Methods In total, 296 outpatients with knee OA visiting orthopedic clinics were enrolled. The inclusion criteria were age ≥50 years, medial knee OA and Kellgren-Lawrence (K/L) grade ≥1 in one or both knees, and the ability to walk independently. Standard posterior-anterior knee radiographs were measured for varus alignment. Participants were video recorded while walking and were evaluated for the presence or absence of varus thrust. Pain and stiffness of the knee joint and ADL were evaluated using the JKOM. Multivariate regressions (outcomes: pain and stiffness and ADL; predictor variable: varus thrust) were performed. Results Varus thrust was present in 46 (16.2%) of 284 patients. Multivariate regression analyses demonstrated that varus thrust is independently associated with pain and stiffness, adjusted for age, sex, body mass index, K/L grade, and varus alignment (β=.17, P=.005). However, the association between varus thrust and ADL was not significant (β=.11, P=.058). Based on sensitivity analyses, including participants of K/L grade 1 had little influence on this analysis. Limitations Only 16.2% of participants had a varus thrust. Moreover, a cause-effect relationship between varus thrust and pain and stiffness remains unknown due to the cross-sectional design of this study. Conclusions Varus thrust was associated with pain and stiffness in patients with medial knee OA. However, the association between varus thrust and ADL did not reach significance.

Sign in / Sign up

Export Citation Format

Share Document