Your search keyword '"tibiofemoral"' showing total 223 results

1. A reproducible representation of healthy tibiofemoral kinematics during stair descent using REFRAME – Part II: Exploring optimisation criteria and inter-subject differences.

Author

Ortigas-Vásquez, Ariana, Taylor, William R., Postolka, Barbara, Schütz, Pascal, Maas, Allan, Grupp, Thomas M., and Sauer, Adrian

Subjects

*RANGE of motion of joints, *MOTION capture (Human mechanics), *RELATIVE motion, *KINEMATICS, *BIOMECHANICS, *ADDUCTION, *ROTATIONAL motion

Abstract

Kinematic analysis is a central component of movement biomechanics, describing the relative motion of joint segments during different activities, in different subject cohorts, and at different timepoints. Establishing whether two sets of kinematic signals represent fundamentally similar or different underlying motion patterns is especially challenging, given 1) the lack of consensus around reference frame and joint axis definition, and 2) the substantial effect that minimal variations in frame position and orientation are known to have on signal magnitude and characteristics. As such, enormous variability in the reporting of tibiofemoral kinematics has resulted in joint movement patterns that remain controversially discussed. Previously, we demonstrated the ability of the REference FRame Alignment MEthod (REFRAME) to reorientate and reposition differently aligned local segment frames to achieve convergence in signals representing the same underlying motion, thereby offering a novel approach to consistently report joint motion. In this study, for the first time, we apply REFRAME to assess the rotational and translational in vivo tibiofemoral motion of ten healthy subjects during stair descent based on kinematic signals collected using a moving videofluoroscope. Kinematics were analysed before and after different REFRAME implementations, revealing generally neutral ab/adduction behaviour, accompanied by varying degrees of a sinusoidal int/external tibial rotation pattern over the activity cycle. Our data demonstrate that different selected implementations of REFRAME are able to highlight different characteristics of the motion patterns: Minimisation of the translational root-mean-square revealed proximodistal translation patterns with overall neutral progression, while anteroposterior translation showed seemingly different levels of correlation with flexion/extension in different subjects. On the other hand, REFRAME minimisation of translational variances exposed differences in the relative mean displacement between the femoral and tibial origins between subjects, highlighting differences in mean centre of rotation positions. This early application of REFRAME for providing an understanding of tibiofemoral kinematics demonstrates the potential of this novel approach to bring clarity to an otherwise complex representation of highly variable time-series signals, while highlighting the philosophical challenges of clinically interpretating kinematic signals in the first place. [ABSTRACT FROM AUTHOR]

Published

2024

2. A reproducible representation of healthy tibiofemoral kinematics during stair descent using REFRAME – Part II: Exploring optimisation criteria and inter-subject differences

Author

Ariana Ortigas-Vásquez, William R. Taylor, Barbara Postolka, Pascal Schütz, Allan Maas, Thomas M. Grupp, and Adrian Sauer

Subjects

Gait analysis, Knee, Tibiofemoral, Kinematics, Joint coordinate system, Reference frame, Medicine, Science

Abstract

Abstract Kinematic analysis is a central component of movement biomechanics, describing the relative motion of joint segments during different activities, in different subject cohorts, and at different timepoints. Establishing whether two sets of kinematic signals represent fundamentally similar or different underlying motion patterns is especially challenging, given 1) the lack of consensus around reference frame and joint axis definition, and 2) the substantial effect that minimal variations in frame position and orientation are known to have on signal magnitude and characteristics. As such, enormous variability in the reporting of tibiofemoral kinematics has resulted in joint movement patterns that remain controversially discussed. Previously, we demonstrated the ability of the REference FRame Alignment MEthod (REFRAME) to reorientate and reposition differently aligned local segment frames to achieve convergence in signals representing the same underlying motion, thereby offering a novel approach to consistently report joint motion. In this study, for the first time, we apply REFRAME to assess the rotational and translational in vivo tibiofemoral motion of ten healthy subjects during stair descent based on kinematic signals collected using a moving videofluoroscope. Kinematics were analysed before and after different REFRAME implementations, revealing generally neutral ab/adduction behaviour, accompanied by varying degrees of a sinusoidal int/external tibial rotation pattern over the activity cycle. Our data demonstrate that different selected implementations of REFRAME are able to highlight different characteristics of the motion patterns: Minimisation of the translational root-mean-square revealed proximodistal translation patterns with overall neutral progression, while anteroposterior translation showed seemingly different levels of correlation with flexion/extension in different subjects. On the other hand, REFRAME minimisation of translational variances exposed differences in the relative mean displacement between the femoral and tibial origins between subjects, highlighting differences in mean centre of rotation positions. This early application of REFRAME for providing an understanding of tibiofemoral kinematics demonstrates the potential of this novel approach to bring clarity to an otherwise complex representation of highly variable time-series signals, while highlighting the philosophical challenges of clinically interpretating kinematic signals in the first place.

Published

2024

3. Evaluation of Tibiofemoral Contact Mechanics After a Novel Hybrid Procedure for Femoral Osteochondral Defect Repairs With a Subchondral Implant and Dermal Matrix.

Author

Hung, Victor T., Dee, Derek T., McGarry, Michelle H., and Lee, Thay Q.

Subjects

FEMUR surgery, TIBIOFEMORAL joint, IN vitro studies, DERMIS, PROSTHETICS, ARTICULAR cartilage, GRAFT survival, DATA analysis, T-test (Statistics), OSTEOCHONDRITIS, COMPUTED tomography, ARTIFICIAL implants, HOMOGRAFTS, DESCRIPTIVE statistics, BONE grafting, STATISTICS, COMPARATIVE studies

Abstract

Background: There is a lack of procedures that adequately address the subchondral bone structure and function for reconstructing osteochondral defects in the femoral condyles. Purpose: To biomechanically evaluate the tibiofemoral joint contact characteristics before and after reconstruction of femoral condylar osteochondral defects using a novel hybrid reconstructive procedure, which was hypothesized to restore the contact characteristics to the intact condition. Study Design: Controlled laboratory study. Methods: Tibiofemoral contact areas, contact forces, and mean contact pressures were measured in 8 cadaveric knees (mean age 52 ± 11 years; 6 women, 2 men) using a custom testing system and pressure mapping sensors. Five conditions were tested for each condyle: intact, 8-mm defect, 8-mm repair, 10-mm defect, and 10-mm repair. Medial femoral condylar defects were evaluated at 30° of knee flexion and lateral condylar defects were evaluated at 60° of knee flexion, with compressive loads of 50, 100, and 150 N. The defects were reconstructed with a titanium fenestrated threaded implant countersunk in the subchondral bone and an acellular dermal matrix allograft. Repeated-measures analysis of variance with Bonferroni correction for multiple comparisons was used to compare the results between the 5 testing conditions at each load. Results: Medial condylar defects significantly increased mean contact pressure on the lateral side (P <.042), which was restored to the intact levels with repair. The lateral condylar defect decreased the mean contact pressure laterally while increasing the mean pressure medially. The lateral and medial mean contact pressures were restored to intact levels with the 8-mm lateral condylar defect repair. The medial mean contact pressure was restored to intact levels with the 10-mm lateral condylar defect repair. The lateral mean contact pressure decreased compared with the intact state with the lateral condylar 10-mm defect repair. Conclusion: Tibiofemoral joint contact pressure was restored to the intact condition after reconstruction of osteochondral defects with dermal allograft matrix and subchondral implants for the repair of both 8- and 10-mm lateral condylar defects as well as 8-mm medial condylar defects but not completely for 10-mm medial condylar defects. Clinical Relevance: The novel hybrid procedure for osteochondral defect repair restored tibiofemoral joint contact characteristics to normal in a cadaveric model. [ABSTRACT FROM AUTHOR]

Published

2024

4. Adiposity and cartilage lesions following ACL reconstruction.

Author

Hart, Harvi F., Crossley, Kay M., Patterson, Brooke E., Guermazi, Ali, Birmingham, Trevor B., Koskoletos, Chris, Michaud, Amélie, De Livera, Alysha, and Culvenor, Adam G.

Abstract

To determine if global, central, or peripheral adiposity is associated with prevalent and worsening cartilage lesions following anterior cruciate ligament reconstruction (ACLR). In 107 individuals one-year post-ACLR, adiposity was assessed globally (body mass index), centrally (waist circumference), and peripherally (knee subcutaneous adipose tissue thickness) from magnetic resonance imaging (MRI). Tibiofemoral and patellofemoral cartilage lesions were assessed from knee MRIs at 1- and 5-years post-ACLR. Poisson regression evaluated the relation of adiposity with prevalent and worsening tibiofemoral and patellofemoral cartilage lesions adjusting for age, sex, and activity level. The prevalence ratios of adiposity with tibiofemoral (presence in 49%) and patellofemoral (44%) cartilage lesions ranged from 0.99 to 1.03. Adiposity was more strongly associated with longitudinal changes in tibiofemoral (worsening in 21%) and patellofemoral (44%) cartilage lesions. One-unit increase in global (kg/m2), central (cm), and peripheral (mm) adiposity was associated with a higher risk of worsening tibiofemoral cartilage lesions by 17% (risk ratios [95% confidence interval (CI)]: 1.17 [1.09 to 1.23]), 5% (1.05 [1.02 to 1.08]), and 9% (1.09 [1.03 to 1.16]), and patellofemoral cartilage lesions by 5% (1.05 [1.00 to 1.12]), 2% (1.02 [1.00 to 1.04]) and 2% (1.02 [1.00 to 1.04]), respectively. Greater adiposity was a risk factor for worsening cartilage lesions up to 5 years post-ACLR. Clinical interventions aimed at mitigating excess adiposity may be beneficial in preventive approaches for early post-traumatic osteoarthritis. [ABSTRACT FROM AUTHOR]

Published

2024

5. Multiple intra-articular injections of autologous stromal vascular fractions for the treatment of multicompartmental osteoarthritis in both the tibiofemoral and patellofemoral joint: a single-blind randomized controlled study.

Author

Zhang, Shengyang, Chen, Jianmo, Zhang, Hualiang, Hu, Songfeng, Tong, Peijian, and Shen, Jianzeng

Subjects

INTRA-articular injections, PATELLOFEMORAL joint, TIBIOFEMORAL joint, KNEE osteoarthritis, KNEE joint, OSTEOARTHRITIS

Abstract

Background Multicompartmental osteoarthritis (MOA) in both tibiofemoral and patellofemoral joints is a more commonly occurring, but neglected, clinical condition, and we examined the short-term safety and efficacy of autologous stromal vascular fractions (SVFs) for MOA using a single-blind, prospective, randomized, placebo-controlled trial. Methods Seventy MOA patients were recruited and randomly assigned to the SVF group and hyaluronic acid (HA) group (control group). The scores of visual analog scale, the Western Ontario and McMaster University Osteoarthritis Index, and the Samsung Medical Center patellofemoral scoring system were assessed and compared between the two groups 3, 6 and 12 months after treatment. Results The SVF group had significantly better visual analog scale scores than the HA group at 6 and 12 months after treatment and had better Western Ontario and McMaster University Osteoarthritis Index scores than the HA group only at 6 months after treatment. For Samsung Medical Center patellofemoral scoring system of the patellofemoral joint, the SVF group had significantly better scores than the control group at all postoperative time points. The proportion of patients whose visual analog scale and Western Ontario and McMaster University Osteoarthritis Index scores were above the minimal clinically important improvement was higher in the SVF group than in the HA group in the majority of assessments. The improvement of bone marrow by SVF treatment was significantly better than that of the HA group as observed by pre- and postoperative Magnetic resonance imaging (MRI). Conclusions Multiple intra-articular injection of autologous SVF reduces pain and improves function in the short term in patients with early or midstage MOA. However, there was heterogeneity in the improvement of overall knee and isolated patellofemoral joint after treatment.   What is already known on this topic   Knee osteoarthritis (KOA) is the most common type of degenerative joint disease in humans. Autologous stromal vascular fraction (SVF) has been gradually applied to the treatment of KOA due to its multidifferentiation and ease of access. However, most current studies have focused on the tibiofemoral (TF) joint, and we know little about the performance of SVF in multiple compartments of the knee, including the patellofemoral (PF) joint. What this study adds   Multiple intra-articular injections of SVF are safe and effective for MOA in short-term (within 12 months) follow-up. Patients with MOA appear to have different feedback on treatment in different compartments of the knee, including the PF and TF joints, after SVF treatment. How this study might affect research, practice, or policy   More research is needed to clarify the appropriate dosage and injection schedule of SVF to standardize its clinical use. The rational selection of the indications for SVF in the treatment of KOA needs to be done more carefully when OA affects multiple compartments of the knee joint. [ABSTRACT FROM AUTHOR]

Published

2024

6. Correlation between tibial and femoral bone and cartilage changes in end-stage knee osteoarthritis.

Author

Azari, Fahimeh, Colyn, William, Bellemans, Johan, Scheys, Lennart, and Lenthe, G Harry van

Subjects

FEMUR, KNEE osteoarthritis, KNEE, CARTILAGE, CANCELLOUS bone, STRESS concentration

Abstract

Knee osteoarthritis is a whole joint disease highlighting the coupling of cartilage and bone adaptations. However, the structural properties of the subchondral bone plate (SBP) and underlying subchondral trabecular bone (STB) in the femoral compartment have received less attention compared to the tibial side. Furthermore, how the properties in the femoral compartment relate to those in the corresponding tibial site is unknown. Therefore, this study aimed to quantify the structural bone and cartilage morphology in the femoral compartment and investigate its association with those of the tibial plateau. Specifically, tibial plateaus and femoral condyles were retrieved from 28 patients with end-stage knee-osteoarthritis (OA) and varus deformity. The medial condyle of tibial plateaus and the distal part of the medial femoral condyles were micro-CT scanned (20.1 μm/voxel). Cartilage thickness (Cart.Th), SBP, and STB microarchitecture were quantified. Significant (P  < <.001; 0.79 ≤  r  ≤ 0.97) correlations with a relative difference within 10% were found between the medial side of the femoral and tibial compartments. The highest correlations were found for SBP porosity (r  = 0.97, mean absolute difference of 0.50%, and mean relative difference of 9.41%) and Cart.Th (r  = 0.96, mean absolute difference of 0.18 mm, and relative difference of 7.08%). The lowest correlation was found for trabecular thickness (r  = 0.79, mean absolute difference of 21.07 μm, and mean relative difference of 5.17%) and trabecular number (r  = 0.79, mean absolute difference of 0.18 mm−1, and relative difference of 5.02%). These findings suggest that the distal femur is affected by OA in a similar way as the proximal tibia. Given that bone adaptation is a response to local mechanical forces, our results suggest that varus deformity similarly affects the stress distribution of the medial tibial plateau and the medial distal femur. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effect of Load, Angle, and Contraction Type on Clinically Assessed Knee Joint Position Sense.

Author

Haggerty, Adam L., Simon, Janet E., Grooms, Dustin R., and Russell, Jeffrey A.

Subjects

*KNEE physiology, *QUADRICEPS muscle physiology, *EXERCISE tests, *RELIABILITY (Personality trait), *STATISTICS, *PROPRIOCEPTION, *MUSCLE contraction, *ANALYSIS of variance, *ANTERIOR cruciate ligament, *SMARTPHONES, *ACCELEROMETERS, *PHYSICAL activity, *REPEATED measures design, *DESCRIPTIVE statistics, *BIOMECHANICS, *CROSSOVER trials, *DATA analysis, *DATA analysis software, *WEIGHT-bearing (Orthopedics)

Abstract

Context: Proprioception is an individual's awareness of body position in 3-dimensional space. How proprioceptive acuity changes under varying conditions such as joint position, load, and concentric or eccentric contraction type is not well understood. In addition, a limitation of the variety of techniques to assess proprioception is the lack of clinically feasible methods to capture proprioceptive acuity. The purpose of this study was to implement a readily available instrument, a smartphone, in the clinical evaluation of knee active joint position sense and to determine how joint angle, joint loading, and quadriceps contraction type affect an individual's active joint position sense. Design: Cross-over study. Methods: Twenty healthy, physically active university participants (10 women and 10 men: 21.4 [2.0] y; 1.73 [0.1] m; 70.9 [14.3] kg) were recruited. Individuals were included if they had no neurological disorder, no prior knee surgery, and no recent knee injury. The participants were given a verbal instruction to locate a target angle and then were tasked with reproducing the target angle without visual or verbal cues. An accelerometer application on a smartphone was used to assess the angle to the nearest tenth of a degree. Three variables, each with 2 levels, were analyzed in this study: load (weighted and unweighted), contraction type (eccentric and concentric), and joint position (20° and 70°). A repeated-measures analysis of variance was conducted to assess the within-subjects factors of load, contraction, and position. Results: A significant difference of 0.50° (0.19°) of greater error with eccentric versus concentric contraction (P =.02) type was identified. In addition, a significant interaction was found for contraction × position, with a mean increase in error of 0.98° (0.33°) at the 20° position when contracting eccentrically (P =.03). Conclusions: Contraction type, specifically eccentric contraction at 20°, showed significantly greater error than concentric contraction. This suggests that, during eccentric contractions of the quadriceps, there may be decreased proprioceptive sensitivity compared with concentric contractions. [ABSTRACT FROM AUTHOR]

Published

2021

8. Evaluation of the Stability and Function of the Tibiofemoral and Tibiofibular Joints

Author

Abreu, Felipe Galvão, Andrade, Renato, Pereira, Rogério, Bastos, Ricardo, Espregueira-Mendes, João, Lane, John G., editor, Gobbi, Alberto, editor, Espregueira-Mendes, João, editor, Kaleka, Camila Cohen, editor, and Adachi, Nobuo, editor

Published

2023

9. Patellar malalignment: A common disorder associated with knee pain

Author

Chi-Chuan Wu

Subjects

Knee joint, Malalignment, Pain, Patellofemoral, Tibiofemoral, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Pain-associated knee joint disorders are common in daily life. Practically, knee pain should be divided into the origin from the isolated tibiofemoral (TF), isolated patellofemoral (PF) joint, or a combination thereof. The TF joint controls the actions of level walking, while the PF joint controls knee flexion-extension. Owing to its sufficient inherent stability, non-traumatic disorders of the isolated TF joint in young individuals are uncommon. In contrast, because of its insufficient inherent stability, non-traumatic disorders of the isolated PF joint are common in young individuals. Patellar malalignment (PM) associated with knee pain is common in all age groups, and the most common predisposing factor is imbalanced peripatellar soft-tissue tension. The outward forces acting on the patella are caused by pulling from the quadriceps femoris during knee flexion to extension (manifested by the quadriceps angle [Q-angle]), and sliding backward of the iliotibial band (ITB) during knee extension to flexion. Once the muscle power of the vastus medialis (especially the vastus medialis obliquus [VMO]) decreases, which lowers the counteracting effect against outward forces, the patella displaces or rotates laterally. The reduced contact surface between the patella and the femoral condyle significantly increases the compressive pressure and injures the articular cartilage. Subsequently, progressive PF degeneration occurs. Although other factors may also cause PM, they are relatively uncommon. In principle, nonsurgical treatment of PM should be considered first, while surgical treatment should follow established indications. Some nonsurgical techniques are currently widely used that feature high satisfaction rates. Surgical techniques are continuously being developed, and their success rates have gradually improved. This study aimed to review the current literature for relevant studies and report related publications of the author's institution to emphasize the universality and importance of PM management. Conceptually, simply focusing on problems of the TF joint cannot treat all knee disorders.

Published

2023

10. Imaging of Knee Injuries

Author

Bawa, Pritish, Chintamaneni, Vaeman, Kumaravel, Manickam, Section editor, Beckmann, Nicholas, Section editor, Patlas, Michael N., editor, Katz, Douglas S., editor, and Scaglione, Mariano, editor

Published

2022

11. Kinematics of the Native Knee

Author

Reynolds, Ryan J., Michelet, Aude, Müller, Jacobus H., Saffarini, Mo, Becker, Roland, editor, Hirschmann, Michael T., editor, and Kort, Nanne P., editor

Published

2022

12. The development of long-term osteoarthritis following anterior cruciate ligament injury: reconstruction vs no reconstruction.

Author

Keays, Susan L., Newcombe, Peter A., Bullock-Saxton, Joanne E., and Keays, Anthony C.

Subjects

*ANTERIOR cruciate ligament surgery, *ANTERIOR cruciate ligament injuries, *MENISCECTOMY, *MENISCUS injuries, *OSTEOARTHRITIS

Abstract

Purpose: The high incidence of osteoarthritis (OA) in relatively young sportspeople following anterior cruciate ligament (ACL) reconstruction is concerning. Surgery is considered to reduce the development of OA compared to conservative management. This long-term study aimed to compare the incidence and severity of tibiofemoral OA (TFOA) and patellofemoral OA (PFOA) between reconstructed and non-reconstructed treatment groups and to determine which factors influence the development of OA. Materials and methods: Fifty-six ACL-reconstructed and 45 conservatively treated patients from a cohort of 330 were followed for 11 years (mean) post-injury. Twenty-nine patients had received a bone–patellar tendon–bone (B-PT-B) graft, and 27 had received a hamstring (semitendinosus/gracilis) tendon (HT) graft. Assessment included objective and subjective stability, quadriceps and hamstring strength and radiology. Chi-square analyses compared OA between reconstructed and non-reconstructed groups and between B-PT-B, HT and non-surgical groups. Further analysis assessed the relationship between OA and age, time post-injury, meniscal injury/meniscectomy, quadriceps strength, hamstring strength, objective and subjective stability and sporting activity. Results: Forty-eight per cent reconstructed and 53% non-reconstructed patients developed TFOA (p = 0.690). Thirty-six per cent reconstructed and 38% non-reconstructed patients developed PFOA (p = 0.831) with moderate PFOA occurring only in the non-reconstructed group. Close to significant differences (p = 0.075) were found comparing the severity of TFOA between groups with a higher incidence of moderate/severe OA in the non-reconstructed and B-PT-B groups. TFOA differed significantly between the B-PT-B and HT groups. The development of OA was related to age, time post-injury, meniscal injury/meniscectomy, quadriceps strength and subjective stability. Conclusions: There were no significant differences in OA incidence between reconstructed and non-reconstructed groups but fewer patients developed TFOA following HT grafting compared to B-PT-B grafting and to non-surgical treatment. Quadriceps weakness and meniscal injuries/meniscectomy, both potentially modifiable, were strongly associated with the development of TF and PFOA. [ABSTRACT FROM AUTHOR]

Published

2023

13. Anterior-cruciate-ligament reconstruction does not alter the knee-extensor moment arm during gait.

Author

Ganapam, Padma N., Guan, Shanyuanye, Gray, Hans A., Sujatha, S., and Pandy, Marcus G.

Subjects

*ANTERIOR cruciate ligament, *QUADRICEPS muscle, *PATELLAR tendon, *WALKING, *AEROBIC exercises, *ANTERIOR cruciate ligament surgery, *KINEMATICS, *GAIT in humans, *KNEE joint

Abstract

Background: The ability of the quadriceps muscles to extend the knee depends on the moment arm of the knee-extensor mechanism, which is described by the moment arm of the patellar tendon at the knee. The knee-extensor moment may be altered by a change in quadriceps force, a change in the patellar tendon moment arm (PTMA), or both. A change in quadriceps muscle strength after anterior-cruciate-ligament-reconstruction (ACLR) surgery is well documented, however, there is limited knowledge about how this procedure affects the PTMA.Research Question: Does ACLR surgery alter the moment arm of the knee-extensor mechanism during gait?Methods: We measured the PTMA in both the ACLR knee and the uninjured contralateral knee in 10 young active individuals after unilateral ACLR surgery. Mobile biplane X-ray imaging was used to measure the three-dimensional positions of the femur, tibia and patella during level walking and downhill walking over ground. The PTMA was found from the location of the instantaneous axis of rotation at the knee and the line-of-action of the patellar tendon.Results: There was a small but statistically significant difference in the mean PTMA calculated over one cycle of level walking between the ACLR knee and the contralateral knee, with the mean PTMA in the ACLR knee being 1.5 mm larger (p < 0.01). In downhill walking, statistically significant differences were found in the range 15°- 25° of knee flexion, where the PTMA was 4.7 mm larger in the ACLR knee compared to the contralateral knee (p < 0.01).Significance: Significant differences were evident in the mean PTMA between the ACLR knee and the contralateral knee in both activities, however, the magnitudes of these differences were relatively small (range: 3-10%), indicating that ACLR surgery successfully restores the moment arm of the knee-extensor mechanism during dynamic activity. [ABSTRACT FROM AUTHOR]

Published

2022

14. Traumatic Lateral Knee Dislocation of a Well-Functioning Total Knee Arthroplasty: A Case of Medial Collateral Ligament Rupture

Author

Kevin Smidt, MD, Matthew Dubose, MD, and Cambize Shahrdar, MD

Subjects

Total knee arthroplasty, Complication, Dislocation, Tibiofemoral, Instability, MCL rupture, Orthopedic surgery, RD701-811

Abstract

Tibiofemoral dislocation can be a devastating complication after total knee arthroplasty. Much of the literature on tibiofemoral dislocations state they result from iatrogenic causes, with a very limited number of case reports on traumatic dislocation. Most of the time, these cases will require surgical revision and increased constraint to treat the inherent instability. In addition, collateral ligament disruption increases the complexity of the treatment algorithm for these patients. We report the case of a lateral tibiofemoral total knee arthroplasty dislocation with associated medial collateral ligament injury treated successfully without surgical interventions.

Published

2021

15. Articular contact motion at the knee during daily activities.

Author

Thomeer, Lucas T., Guan, Shanyuanye, Gray, Hans A., and Pandy, Marcus G.

Subjects

*ARTICULAR cartilage, *TIBIOFEMORAL joint, *PATELLOFEMORAL joint, *MAGNETIC resonance imaging, *KNEE

Abstract

We combined mobile biplane X‐ray imaging and magnetic resonance imaging to measure the regions of articular cartilage contact and cartilage thickness at the tibiofemoral and patellofemoral joints during six functional activities: standing, level walking, downhill walking, stair ascent, stair descent, and open‐chain (non‐weight‐bearing) knee flexion. The contact centers traced similar paths on the medial and lateral femoral condyles, femoral trochlea, and patellar facet in all activities while their locations on the tibial plateau were more varied. The translations of the contact centers on the femur and patella were tightly coupled to the tibiofemoral flexion angle in all activities (r2 > 0.95) whereas those on the tibia were only moderately related to the flexion angle (r2 > 0.62). The regions of contacting cartilage were significantly thicker than the regions of non‐contacting cartilage on the patella, femoral trochlea, and the medial and lateral tibial plateaus in all activities (p < 0.001). There were no significant differences in thickness between contacting and non‐contacting cartilage on the medial and lateral femoral condyles in all activities, except open‐chain knee flexion. Our results provide partial support for the proposition that cartilage thickness is adapted to joint load and do not exclude the possibility that other factors, such as joint congruence, also play a role in regulating the structure and organization of healthy cartilage. The data obtained in this study may serve as a guide when evaluating articular contact motion in osteoarthritic and reconstructed knees. [ABSTRACT FROM AUTHOR]

Published

2022

16. Concurrent validity and reliability of a semi-automated approach to measuring the magnetic resonance imaging morphology of the knee joint in active youth.

Author

Blaney, Traven CR, Ronsky, Janet L, Macri, Erin M, Jaremko, Jacob L, Kuntze, Gregor, Pakdel, Amir, Whittaker, Jackie L, and Emery, Carolyn A

Abstract

Post-traumatic knee osteoarthritis is attributed to alterations in joint morphology, alignment, and biomechanics triggered by injury. While magnetic resonance (MR) imaging-based measures of joint morphology and alignment are relevant to understanding osteoarthritis risk, time consuming manual data extraction and measurement limit the number of outcomes that can be considered and deter widespread use. This paper describes the development and evaluation of a semi-automated software for measuring tibiofemoral and patellofemoral joint architecture using MR images from youth with and without a previous sport-related knee injury. After prompting users to identify and select key anatomical landmarks, the software can calculate 37 (14 tibiofemoral, 23 patellofemoral) relevant geometric features (morphology and alignment) based on established methods. To assess validity and reliability, 11 common geometric features were calculated from the knee MR images (proton density and proton density fat saturation sequences; 1.5 T) of 76 individuals with a 3–10-year history of youth sport-related knee injury and 76 uninjured controls. Spearman's or Pearson's correlation coefficients (95% CI) and Bland-Altman plots were used to assess the concurrent validity of the semi-automated software (novice rater) versus expert manual measurements, while intra-class correlation coefficients (ICC2,1; 95%CI), standard error of measurement (95%CI), 95% minimal detectable change, and Bland-Altman plots were used to assess the inter-rater reliability of the semi-automated software (novice vs resident radiologist rater). Correlation coefficients ranged between 0.89 (0.84, 0.92; Lateral Trochlear Inclination) and 0.97 (0.96, 0.98; Patellar Tilt Angle). ICC estimates ranged between 0.79 (0.63, 0.88; Lateral Patellar Tilt Angle) and 0.98 (0.95, 0.99; Bisect Offset). Bland-Altman plots did not reveal systematic bias. These measurement properties estimates are equal, if not better than previously reported methods suggesting that this novel semi-automated software is an accurate, reliable, and efficient alternative method for measuring large numbers of geometric features of the tibiofemoral and patellofemoral joints from MR studies. [ABSTRACT FROM AUTHOR]

Published

2022

17. Functional properties of native and tissue‐engineered cartilage toward understanding the pathogenesis of chondral lesions at the knee: A bovine cadaveric study

Author

Paschos, Nikolaos K, Lim, Nikita, Hu, Jerry C, and Athanasiou, Kyriacos A

Subjects

Control Engineering, Mechatronics and Robotics, Engineering, Biomedical Engineering, Arthritis, Musculoskeletal, Animals, Biomechanical Phenomena, Cartilage Diseases, Cartilage, Articular, Cattle, Chondrocytes, Knee Joint, Tensile Strength, Tissue Engineering, cartilage, knee, tibiofemoral, patellofemoral, tissue engineering, biomechanics, neo-cartilage, pathogenesis, Clinical Sciences, Human Movement and Sports Sciences, Orthopedics, Biomedical engineering, Sports science and exercise

Abstract

Chondral lesions frequently occur in different topographic locations of the knee. This study evaluated the functional properties among the articulating surfaces of the tibiofemoral and patellofemoral joints, and whether neo-cartilage engineered using chondrocytes from different knee locations would reflect these differences. The biomechanical properties of bovine cartilage isolated from eight locations within the tibiofemoral (medial and lateral condyle, medial and lateral tibial plateau) and patellofemoral joints (medial and lateral trochlea, medial and lateral patella) were examined. Tensile Young's moduli (tensile moduli) and aggregate moduli of the medial condyle were lower than those of the medial tibial plateau (6.11 ± 0.89 MPa vs. 7.19 ± 1.05 MPa, p = 0.04 and 354.4 ± 38.3 kPa vs. 419.4 ± 31.3 kPa, p = 0.002, respectively). Patella tensile and compressive moduli were lower than the trochlea (4.79 ± 2.01 MPa vs. 6.91 ± 2.46 MPa, p = 0.01 and 337.4 ± 37.2 kPa vs. 389.1 ± 38.3 kPa, p = 0.0005, respectively). Furthermore, chondrocytes from the above locations were used to engineer neo-cartilage, and its respective properties were evaluated. In neo-cartilage, medial condyle tensile and aggregate moduli were lower than in the medial tibial plateau (0.96 ± 0.23 MPa vs. 1.31 ± 0.31 MPa, p = 0.02, and 115.8 ± 26.0 kPa vs. 160.8 ± 18.8 kPa, p = 0.001, respectively). Compared to trochlear chondrocytes, neo-cartilage formed from patellar chondrocytes exhibited lower tensile and compressive moduli (1.16 ± 0.27 MPa vs. 0.74 ± 0.25 MPa, p

Published

2017

18. Infrapatellar fat pad volume and Hoffa‐synovitis after ACL reconstruction: Association with early osteoarthritis features and pain over 5 years.

Author

Hart, Harvi F., Culvenor, Adam G., Patterson, Brooke E., Doshi, Ankit, Vora, Ashish, Guermazi, Ali, Birmingham, Trevor B., and Crossley, Kay M.

Subjects

*SYNOVITIS, *OSTEOARTHRITIS, *ANTERIOR cruciate ligament surgery, *FAT, *KNEE osteoarthritis, *MAGNETIC resonance imaging, *KNEE pain

Abstract

Infrapatellar fat pad (IPFP) morphology and Hoffa‐synovitis may be relevant to the development and progression of post‐traumatic osteoarthritis (OA). We aimed to compare IPFP volume and Hoffa‐synovitis in participants with anterior cruciate ligament reconstruction (ACLR) and uninjured controls, and to determine their association with prevalent and worsening early knee OA features and pain in participants post‐ACLR. We assessed IPFP volume and Hoffa‐synovitis from magnetic resonance imaging (MRI) in 111 participants 1‐year post‐ACLR and 20 uninjured controls. Patellofemoral and tibiofemoral cartilage and bone marrow lesions (BMLs) were assessed from MRIs at 1 and 5 years post‐ACLR, and worsening defined as any longitudinal increase in lesion size/severity. IPFP volume and Hoffa‐synovitis prevalence were compared between groups with analysis of covariance and χ2 tests, respectively. Generalized linear models assessed the relation of IPFP volume and Hoffa‐synovitis to prevalent and worsening features of OA and knee pain (Knee injury and Osteoarthritis Outcome Score—Pain Subscale, Anterior Knee Pain Scale). No significant between‐group differences were observed in IPFP volume (ACLR 34.39 ± 7.29cm3, Control 34.27 ± 7.56cm3) and Hoffa‐synovitis (ACLR 61%, Control 80%). Greater IPFP volume at 1‐year post‐ACLR was associated with greater odds of patellofemoral BMLs at 1‐year (odds ratio [OR] [95% confidence intervals]: 1.104 [1.016, 1.200]) and worsening tibiofemoral cartilage lesions at 5‐year post‐ACLR (OR: 1.234 [1.026, 1.483]). Hoffa‐synovitis at 1‐year post‐ACLR was associated with greater odds of worsening patellofemoral BMLs at 5‐year post‐ACLR (OR: 7.465 [1.291, 43.169]). In conclusion, IPFP volume and Hoffa‐synovitis prevalence are similar between individuals 1‐year post‐ACLR and controls. Greater IPFP volume and Hoffa‐synovitis appear to be associated with the presence and worsening of some early OA features in those post‐ACLR, but not pain. [ABSTRACT FROM AUTHOR]

Published

2022

19. Safety and Efficacy of Matrix-Associated Autologous Chondrocyte Implantation With Spheroids for Patellofemoral or Tibiofemoral Defects: A 5-Year Follow-up of a Phase 2, Dose-Confirmation Trial.

Author

Hoburg, Arnd, Niemeyer, Philipp, Laute, Volker, Zinser, Wolfgang, John, Thilo, Becher, Christoph, Izadpanah, Kaywan, Diehl, Peter, Kolombe, Thomas, Fay, Jakob, Siebold, Rainer, and Fickert, Stefan

Subjects

CARTILAGE cell transplantation, CARTILAGE diseases, AUTOGRAFTS, TREATMENT effectiveness, RANDOMIZED controlled trials, T-test (Statistics), DESCRIPTIVE statistics, TIBIA, FEMUR, STATISTICAL sampling, DATA analysis software, KNEE, PATIENT safety, LONGITUDINAL method, EVALUATION

Abstract

Background: Matrix-associated autologous chondrocyte implantation (ACI) is a well-established treatment for cartilage defects. High-level evidence at midterm follow-up is limited, especially for ACI using spheroids (spherical aggregates of ex vivo expanded human autologous chondrocytes and self-synthesized extracellular matrix). Purpose: To assess the safety and efficacy of 3-dimensional matrix-associated ACI using spheroids to treat medium to large cartilage defects on different locations in the knee joint (patella, trochlea, and femoral condyle) at 5-year follow-up. Study Design: Cohort study; Level of evidence, 2. Methods: A total of 75 patients aged 18 to 50 years with medium to large (4-10 cm2), isolated, single cartilage defects, International Cartilage Repair Society grade 3 or 4, were randomized on a single-blind basis to treatment with ACI at 1 of 3 dose levels: 3 to 7, 10 to 30, or 40 to 70 spheroids/cm2 of defect size. Outcomes were assessed via changes from baseline Knee injury and Osteoarthritis Outcome Score (KOOS), International Knee Documentation Committee score, and modified Lysholm assessments at 1- and 5-year follow-up. Structural repair was evaluated using MOCART (magnetic resonance observation of cartilage repair tissue) score. Treatment-related adverse events were assessed up to 5 years for all patients. The overall KOOS at 12 months was assessed for superiority versus baseline in a 1-sample, 2-sided t test. Results: A total of 73 patients were treated: 24 in the low-dose group, 25 in the medium-dose group, and 24 in the high-dose group. The overall KOOS improved from 57.0 ± 15.2 at baseline to 73.4 ± 17.3 at 1-year follow-up (P <.0001) and 76.9 ± 19.3 at 5-year follow-up (P <.0001), independent of the applied dose. The different defect locations (patella, trochlea, and weightbearing part of the femoral condyles; P =.2216) and defect sizes (P =.8706) showed comparable clinical improvement. No differences between the various doses were observed. The overall treatment failure rate until 5 years was 4%. Most treatment-related adverse events occurred within the first 12 months after implantation, with the most frequent adverse reactions being joint effusion (n = 71), arthralgia (n = 14), and joint swelling (n = 9). Conclusion: ACI using spheroids was safe and effective for defect sizes up to 10 cm2 and showed maintenance of efficacy up to 5 years for all 3 doses that were investigated. Registration: NCT01225575 (ClinicalTrials.gov identifier); 2009-016816-20 (EudraCT number). [ABSTRACT FROM AUTHOR]

Published

2022

20. Footwear for osteoarthritis of the lateral knee: protocol for the FOLK randomised controlled trial

Author

Kade L. Paterson, Kim L. Bennell, Ben R. Metcalf, Penny K. Campbell, Jessica Kasza, Tim V. Wrigley, and Rana S. Hinman

Subjects

Osteoarthritis, OA, Knee, Tibiofemoral, Footwear, Shoes, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Structural features of lateral tibiofemoral (TF) joint osteoarthritis (OA) occur in up to half of all people with knee OA, and co-existing lateral TF OA is associated with worse knee pain in people with mixed compartmental knee OA. Clinical guidelines for management of knee OA advocate advice about appropriate footwear, yet there is no research evaluating which types of footwear are best for managing pain associated with lateral TF OA. Biomechanical evidence suggests that “motion-control” footwear, which possess midsoles that are stiffer medially compared to laterally, may shift load away from the lateral compartment of the knee and thus may reduce knee pain associated with lateral TF OA. The primary aim of this study is to compare the effects of motion-control shoes to neutral shoes on knee pain in people with predominantly lateral TF OA. Methods This will be an assessor- and participant-blinded, two-arm, comparative effectiveness randomized controlled trial (RCT) conducted in Melbourne, Australia. We will recruit a minimum of 92 people with painful lateral TF OA from the community. Participants will be randomly allocated to receive either motion-control shoes or neutral shoes and will be instructed to wear their allocated shoes for a minimum of 6 h per day for 6 months. The primary outcome is change in self-reported knee pain on walking, measured using a numerical rating scale, assessed at baseline and 6 months. Secondary outcomes include other measures of knee pain, physical function, quality of life, participant-perceived change in pain and function, and physical activity levels. Discussion This study will compare the efficacy of motion-control shoes to neutral shoes for people with painful lateral TF OA. Findings will be the first to provide evidence of the effects of footwear on knee pain in this important subgroup of people with knee OA and allow clinicians to provide accurate advice about the most appropriate footwear for managing pain associated with lateral TF OA. Trial registration This trial has been prospectively registered by the Australian New Zealand Clinical Trials Registry on 15/11/2018 (reference: ACTRN12618001864213 ).

Published

2020

21. Does arthroscopic patellar denervation with high tibial osteotomy improve anterior knee pain?

Author

Said, Mohamed Kamel Mohamed, Said, Hatem G., Elkady, Hesham, Said, Mahmoud Kamel Mohamed, Ramadan, Islam Karam-Allah, and EL-Radi, Mohamed Abd

Subjects

PATELLOFEMORAL joint, OSTEOARTHRITIS, KNEE pain, DENERVATION, OSTEOTOMY, KNEE osteoarthritis, BODY mass index, KNEE

Abstract

Purpose: Patellofemoral (PF) joint osteoarthritis (OA) is a major cause of anterior knee pain. Combined PF and medial tibiofemoral (TF) OA is common in older adults. We evaluated the effect of arthroscopic patellar denervation (PD) in patients with combined TF and PFOA after malalignment correction. Methods: Forty-five patients [females/males, 27/18; age, 30–59 years (45.5 ± 8.50); mean body mass index, 25.15 ± 3.04 kg/m2] were treated in our department from March 2017 to March 2019. The patients were randomised into 2 groups: group A included 22 patients who underwent open-wedge high tibial osteotomy (OWHTO) and arthroscopic PD and group B included 23 patients who underwent OWHTO without denervation. The effect of denervation was statistically and clinically evaluated using the Knee injury and Osteoarthritis Outcome Score (KOOS) and Kujala (anterior knee pain score) score. Results: After 24 months, 40 patients were available for the final follow-up. The final values of KOOS and the Kujala score were significantly different between the groups (p < 0.001). For group A, the average KOOS improved from 42.73 to 72.38 (p < 0.001) and the Kujala score improved from 42 to 74.1 (p < 0.001), whereas in group B, the average KOOS improved from 39.22 to 56.84 (p < 0.001) and the Kujala score improved from 39.7 to 56.4 (p < 0.001). Conclusion: Adding arthroscopic PD to OWHTO relieves anterior knee pain in patients with combined TF and PFOA and improves knee joint function and quality of life. Level of evidence: Level I prospective randomised control clinical trial. [ABSTRACT FROM AUTHOR]

Published

2021

22. Preliminary biomechanical cadaver study investigating a new load-sharing knee implant.

Author

Saeidi, Mehdi, Kelly, Piaras A., Netzel, Christian, Scadeng, Miriam, Kumar, Pranesh, Prendergast, Deborah, Neitzert, Thomas, and Ramezani, Maziar

Subjects

KNEE, DEAD, NUMERICAL control of machine tools, LATERAL loads, OPERATIVE surgery, OVERLAY dentures

Abstract

Purpose: One of the major contributors to the progression of knee osteoarthritis (OA) is the condition of loading in the knee joint. Innovatively designed load-sharing implants may be effective in terms of reducing joint load. The effects of these implants on contact joint mechanics can be evaluated through cadaver experiments. In this work, a case study is carried out with cadaver knee specimens to carry out a preliminary investigation into a novel load-sharing knee implant, in particular to study the surgical procedures required for attachment, and to determine the contact pressures in the joint with and without the implant. Methods: Contact pressure in the tibiofemoral joint was measured using pressure mapping sensors, with and without the implant, and radiographs were conducted to investigate the influence of the implant on joint space. The implant was designed from a 3D model of the specimen reconstructed by segmenting MR images of the knee, and it was manufactured by CNC machining. Results: It was observed that attachment of the implant does not affect the geometry of the hard/soft tissues. Radiographs showed that the implant led to an increase in the joint space on the medial side. Contact pressure measurements showed that the implant reduced the load on the medial side by approximately 18% under all tested loading conditions. By increasing the load from 800 to 1600 N, the percentage of load reduction in the lateral side was decreased by 8%. After applying 800, 1200, and 1600 N load it was observed that the peak contact pressures were 3.7, 4.6, and 5.5 MPa, respectively. Conclusions: This new knee implant shows some promise as a treatment for OA, through its creation of a conducive loading environment in the knee joint, without sacrificing or damaging any of the hard or soft tissues. This device could be as effective as, for example, the Atlas® system, but without some complications seen with other devices; this would need to be validated through similar results being observed in an appropriate in vivo study. [ABSTRACT FROM AUTHOR]

Published

2021

23. Preliminary biomechanical cadaver study investigating a new load‐sharing knee implant

Author

Mehdi Saeidi, Piaras A. Kelly, Christian Netzel, Miriam Scadeng, Pranesh Kumar, Deborah Prendergast, Thomas Neitzert, and Maziar Ramezani

Subjects

Cadaver, Extra‐articular, Implant, Knee, Osteoarthritis, Tibiofemoral, Orthopedic surgery, RD701-811

Abstract

Abstract Purpose One of the major contributors to the progression of knee osteoarthritis (OA) is the condition of loading in the knee joint. Innovatively designed load‐sharing implants may be effective in terms of reducing joint load. The effects of these implants on contact joint mechanics can be evaluated through cadaver experiments. In this work, a case study is carried out with cadaver knee specimens to carry out a preliminary investigation into a novel load‐sharing knee implant, in particular to study the surgical procedures required for attachment, and to determine the contact pressures in the joint with and without the implant. Methods Contact pressure in the tibiofemoral joint was measured using pressure mapping sensors, with and without the implant, and radiographs were conducted to investigate the influence of the implant on joint space. The implant was designed from a 3D model of the specimen reconstructed by segmenting MR images of the knee, and it was manufactured by CNC machining. Results It was observed that attachment of the implant does not affect the geometry of the hard/soft tissues. Radiographs showed that the implant led to an increase in the joint space on the medial side. Contact pressure measurements showed that the implant reduced the load on the medial side by approximately 18% under all tested loading conditions. By increasing the load from 800 to 1600 N, the percentage of load reduction in the lateral side was decreased by 8%. After applying 800, 1200, and 1600 N load it was observed that the peak contact pressures were 3.7, 4.6, and 5.5 MPa, respectively. Conclusions This new knee implant shows some promise as a treatment for OA, through its creation of a conducive loading environment in the knee joint, without sacrificing or damaging any of the hard or soft tissues. This device could be as effective as, for example, the Atlas® system, but without some complications seen with other devices; this would need to be validated through similar results being observed in an appropriate in vivo study.

Published

2021

24. Does arthroscopic patellar denervation with high tibial osteotomy improve anterior knee pain?

Author

Mohamed Kamel Mohamed Said, Hatem G. Said, Hesham Elkady, Mahmoud Kamel Mohamed Said, Islam Karam‐Allah Ramadan, and Mohamed Abd EL‐Radi

Subjects

Arthroscopic patellar denervation, Anterior knee pain, Patellofemoral, High tibial osteotomy, Tibiofemoral, Osteoarthritis, Orthopedic surgery, RD701-811

Abstract

Abstract Purpose Patellofemoral (PF) joint osteoarthritis (OA) is a major cause of anterior knee pain. Combined PF and medial tibiofemoral (TF) OA is common in older adults. We evaluated the effect of arthroscopic patellar denervation (PD) in patients with combined TF and PFOA after malalignment correction. Methods Forty‐five patients [females/males, 27/18; age, 30–59 years (45.5 ± 8.50); mean body mass index, 25.15 ± 3.04 kg/m2] were treated in our department from March 2017 to March 2019. The patients were randomised into 2 groups: group A included 22 patients who underwent open‐wedge high tibial osteotomy (OWHTO) and arthroscopic PD and group B included 23 patients who underwent OWHTO without denervation. The effect of denervation was statistically and clinically evaluated using the Knee injury and Osteoarthritis Outcome Score (KOOS) and Kujala (anterior knee pain score) score. Results After 24 months, 40 patients were available for the final follow‐up. The final values of KOOS and the Kujala score were significantly different between the groups (p

Published

2021

25. Sex differences in medial and lateral tibiofemoral compartment loading during different functional sports tasks.

Author

Sinclair, J. and Stainton, P.

Subjects

*MOTION capture (Human mechanics), *HUMAN kinematics, *TASK performance, *OSTEOARTHRITIS diagnosis, *LATERAL loads

Abstract

This study examined sex differences in tibiofemoral compartment loading during sport specific movements. Fifteen males and fifteen females completed run and cut motions using an approach velocity of 4.0 m.s−1. Kinematics were obtained using a motion capture system and kinetics using a force platform. Tibiofemoral compartment loading was quantified using a musculoskeletal simulation approach. Irrespective of sex or movement the medial tibiofemoral compartment experienced greater peak loading (Male: run medial = 71.32; lateral = 33.49 N/kg/cut medial = 69.30; lateral = 59.17 N/kg & Female: run medial = 73.85; lateral = 33.61 N/kg/cut medial = 69.41; lateral = 64.03 N/kg). In addition females were shown to exhibit greater peak medial force per mile (6381.78 N/kg s) than males (5139.24 N/kg s) during running. Finally, irrespective of sex, peak lateral force was larger in the cut movement (Male = 59.17 & Female = 64.03 N/kg) compared to the run (Male = 33.49 & Female = 33.61 N/kg). This investigation shows that the different facets of the knee are loaded differently during functional athletic movements but also that both sex and the movement being executed may also be important. Specifically, female runners appear to be at increased risk of medial knee degeneration linked to the aetiology of osteoarthritis. [ABSTRACT FROM AUTHOR]

Published

2021

26. Medial knee cartilage is unlikely to withstand a lifetime of running without positive adaptation: a theoretical biomechanical model of failure phenomena

Author

Ross H. Miller and Rebecca L. Krupenevich

Subjects

Biomechanics, Tibiofemoral, Cumulative damage, Locomotion, Osteoarthritis, Medicine, Biology (General), QH301-705.5

Abstract

Runners on average do not have a high risk of developing knee osteoarthritis, even though running places very high loads on the knee joint. Here we used gait analysis, musculoskeletal modeling, and a discrete-element model of knee contact mechanics to estimate strains of the medial knee cartilage in walking and running in 22 young adults (age 23 ± 3 years). A phenomenological model of cartilage damage, repair, and adaptation in response to these strains then estimated the failure probability of the medial knee cartilage over an adult lifespan (age 23–83 years) for 6 km/day of walking vs. walking and running 3 km/day each. With no running, by age 55 the cumulative probability of medial knee cartilage failure averaged 36% without repair and 13% with repair, similar to reports on incidence of knee osteoarthritis in non-obese adults with no knee injuries, but the probability for running was very high without repair or adaptation (98%) and remained high after including repair (95%). Adaptation of the cartilage compressive modulus, cartilage thickness, and the tibiofemoral bone congruence in response to running (+1.15 standard deviations of their baseline values) was necessary for the failure probability of walking and running 3 km/day each to equal the failure probability of walking 6 km/day. The model results suggest two conclusions for further testing: (i) unlike previous findings on the load per unit distance, damage per unit distance on the medial knee cartilage is greater in running vs. walking, refuting the “cumulative load” hypothesis for long-term joint health; (ii) medial knee cartilage is unlikely to withstand a lifetime of mechanical loading from running without a natural adaptation process, supporting the “cartilage conditioning” hypothesis for long-term joint health.

Published

2020

27. Tibiofemoral joint contact area and stress after single-bundle anterior cruciate ligament reconstruction with transtibial versus anteromedial portal drilling techniques

Author

Chunhui Liu, Yingpeng Wang, Zhongli Li, Ji Li, Hao Zhang, Yangmu Fu, and Kuan Zhang

Subjects

Anterior cruciate ligament reconstruction, Transtibial technique, Anteromedial portal technique, Tibiofemoral, Contact area, Contact stress, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background During single-bundle ACLR, femoral tunnel location plays an important role in restoring the intact knee mechanisms, whereas malplacement of the tunnel was cited as the most common cause of knee instability. The objective of this study is to evaluate, objectively, the tibiofemoral contact area and stress after single-bundle (SB) anterior cruciate ligament reconstruction (ACLR) with femoral tunnel positions drilled by transtibial (TT) or anteromedial (AM) portal techniques. Methods Seven fresh human cadaveric knees underwent ACLR by the use of TT or AM portal techniques in a randomized order. These specimens were reused for ACL-R (TT and AM). The tibiofemoral contact area and stresses were gauged by an electronic stress-sensitive film inserted into the joint space. The knee was under the femoral axial compressive load of 1000 N using a biomechanics testing machine at 0°, 10°, 20°, and 30° of flexion. Three conditions were compared: (1) intact ACL, (2) ACLR by the use of the TT method, and (3) ACLR by the use of the AM portal method. Results Compared with AM portal ACL-reconstructed knees, a significantly decreased tibiofemoral contact area on the medial compartment was detected in the TT ACL-reconstructed knees at 20°of knee flexion (P = .047). Compared with the intact group, the TT ACLR group showed a higher mean stress at 20° and 30° of flexion on the medial compartments (P = .001, P = .003, respectively), while the AM portal ACLR group showed no significant differences at 30° of flexion (P = .073). The TT ACLR group also showed a higher mean maximum stress at 20° of flexion on the medial compartments (P = .047), while the AM portal ACLR group showed no significant differences at this angle(P = .319). Discussion The alternation of the tibiofemoral joint contact area and stress in reconstructed knees may be caused by the mismatch of the tibiofemoral joint during knee movement procedures compared with intact knees. Conclusions SB ACLR by the use of the AM portal method and TT method both alter the tibiofemoral contact area and stress when compared with the intact knee. When compared with the TT technique, ACLR by the AM portal technique more closely restores the intact tibiofemoral contact area and stress at low flexion angles.

Published

2018

28. A patient-specific finite element analysis of the anterior cruciate ligament under different flexion angles.

Author

Safari, Maedeh, Shojaei, Shahrokh, Tehrani, Pedram, and Karimi, Alireza

Subjects

*ANTERIOR cruciate ligament, *ANTERIOR cruciate ligament injuries, *COMPUTED tomography, *FINITE element method, *RANGE of motion of joints, *KNEE, *MAGNETIC resonance imaging, *MATHEMATICAL models, *SPRAINS, *THEORY

Abstract

BACKGROUND: The main responsibility of the anterior cruciate ligament (ACL) is to restore normal knee kinematics and kinetics. Although so far different research has been carried out to measure or quantify the stresses and strains in the ACL experimentally or numerically, there is still a paucity of knowledge in this regard under different flexion angles of the tibiofemoral knee joint. OBJECTIVE: Understanding the stresses and strains within the ACL under various loading and boundary conditions may have a key asset for the development of an optimal surgical treatment of ACL injury that can better restore normal knee function. This study aimed to calculate the stresses and strains within the ACL under different flexion angles using a patient-specific finite element (FE) model of the human tibiofemoral knee joint. METHODS: A patient-specific FE model of the human tibiofemoral knee joint was established using computed tomography/magnetic resonance imaging data to calculate the stresses and strains in the ACL under different flexion angles of 0, 10, 20, 30, and 45 ∘. RESULTS: Although the role of the flexion angle in the induced stresses and strains of the ACL was insignificant, the highest stress and strain were observed at the flexion angle of 0 ∘. The concentration of the stresses and strains regardless of the flexion angles were also located at the proximal end of the ACL, where the clinical reports indicated that most ACL tearing occurs there at the femoral insertion site. CONCLUSIONS: The results have implications not only for understanding the stresses and strains within the ACL under different flexion angles, but also for providing preliminary data for the biomechanical and medical experts in regard of the injuries which may occur to the ACL at relatively higher flexion angles. [ABSTRACT FROM AUTHOR]

Published

2020

29. A custom musculoskeletal model for estimation of medial and lateral tibiofemoral contact forces during tasks with high knee and hip flexions.

Author

Bedo, Bruno Luiz Souza, Catelli, Danilo S., Lamontagne, Mario, and Santiago, Paulo Roberto Pereira

Subjects

*KNEE, *TASK forces, *HIP joint, *MUSCULOSKELETAL system, *KINEMATICS

Abstract

Most of musculoskeletal models (MSKM) estimate the tibiofemoral joint reaction load at a single point or do not support large lower-limb ranges. This study aimed to adapt a generic MSKM that allows large knee and hip flexions to compute medial and lateral tibiofemoral contact forces (TFCF) during gait and squat tasks. The updated model includes medial and lateral knee compartment geometries that allow computing the vertical TFCF. The updated MSKM does not affect kinematics and kinetics outputs in both of the tasks, and the sum of the medial and lateral TFCF was equivalent to the net TFCF of the original MSKM. [ABSTRACT FROM AUTHOR]

Published

2020

30. Early tibial subchondral bone texture changes after arthroscopic partial meniscectomy in knees without radiographic OA: A prospective cohort study.

Author

Wolski, Marcin, Thorlund, Jonas B., Stachowiak, Gwidon W., Holsgaard‐Larsen, Anders, Creaby, Mark W., Jørgensen, Gitte M., Englund, Martin, and Podsiadlo, Pawel

Subjects

*BONES, *MENISCECTOMY, *KNEE, *COHORT analysis, *LONGITUDINAL method, *LEG muscles

Abstract

Arthroscopic partial meniscectomy (APM) may lead to changes in underlying trabecular bone (TB) structure potentially promoting the development of knee joint osteoarthritis. Our aim was to investigate if there are early changes occurring in tibial subchondral TB texture in the leg undergoing medial APM compared with the unoperated non‐injured contra‐lateral leg. The bone texture was measured as the medial‐to‐lateral ratio of fractal dimensions (FD) calculated for regions selected on weight‐bearing anteroposterior tibiofemoral x‐rays. Twenty‐one subjects before and 12 months after APM were included from 374 patients scheduled for unilateral medial APM. The medial‐to‐lateral ratio was calculated for horizontal, vertical, and roughest FDs respectively. Higher FD means higher bone roughness. Each FD was calculated over a range of scales using a variance orientation transform method. Mean values of medial‐to‐lateral horizontal FD calculated for APM knees at follow‐up were higher than those at baseline. For unoperated knees the values were lower. The difference in the horizontal FD change from baseline to follow‐up between APM and contra‐lateral legs was 0.028 (95% CI, 0.004‐0.052). The bone roughness changes may reflect the increase in peak knee adduction moment (KAM) and KAM impulse during walking reported for the same cohort in a previous study. They may also reflect early signs of osteoarthritis development and thus, we speculate that individuals with increased bone texture roughness ratio after APM might be at higher risk of knee osteoarthritis development. [ABSTRACT FROM AUTHOR]

Published

2020

31. Medial knee cartilage is unlikely to withstand a lifetime of running without positive adaptation: a theoretical biomechanical model of failure phenomena.

Author

Miller, Ross H. and Krupenevich, Rebecca L.

Subjects

CONTACT mechanics, KNEE, BONES, STANDARD deviations, YOUNG adults, KNEE injuries, CARTILAGE

Abstract

Runners on average do not have a high risk of developing knee osteoarthritis, even though running places very high loads on the knee joint. Here we used gait analysis, musculoskeletal modeling, and a discrete-element model of knee contact mechanics to estimate strains of the medial knee cartilage in walking and running in 22 young adults (age 23 ± 3 years). A phenomenological model of cartilage damage, repair, and adaptation in response to these strains then estimated the failure probability of the medial knee cartilage over an adult lifespan (age 23-83 years) for 6 km/day of walking vs. walking and running 3 km/day each. With no running, by age 55 the cumulative probability of medial knee cartilage failure averaged 36% without repair and 13% with repair, similar to reports on incidence of knee osteoarthritis in non-obese adults with no knee injuries, but the probability for running was very high without repair or adaptation (98%) and remained high after including repair (95%). Adaptation of the cartilage compressive modulus, cartilage thickness, and the tibiofemoral bone congruence in response to running (C1:15 standard deviations of their baseline values) was necessary for the failure probability of walking and running 3 km/day each to equal the failure probability of walking 6 km/day. The model results suggest two conclusions for further testing: (i) unlike previous findings on the load per unit distance, damage per unit distance on the medial knee cartilage is greater in running vs. walking, refuting the "cumulative load'' hypothesis for long-term joint health; (ii) medial knee cartilage is unlikely to withstand a lifetime of mechanical loading from running without a natural adaptation process, supporting the "cartilage conditioning'' hypothesis for long-term joint health. [ABSTRACT FROM AUTHOR]

Published

2020

32. Footwear for osteoarthritis of the lateral knee: protocol for the FOLK randomised controlled trial.

Author

Paterson, Kade L., Bennell, Kim L., Metcalf, Ben R., Campbell, Penny K., Kasza, Jessica, Wrigley, Tim V., and Hinman, Rana S.

Subjects

*FOOTWEAR, *CLINICAL trial registries, *KNEE pain, *KNEE, *PHYSICAL activity, *PATELLOFEMORAL joint, *OSTEOARTHRITIS treatment, *PAIN management, *KNEE diseases, *SHOES, *PAIN measurement, *RANDOMIZED controlled trials, *QUALITY of life, *WALKING, *RESEARCH funding, *HEALTH self-care, *WEIGHT-bearing (Orthopedics), *KINEMATICS

Abstract

Background: Structural features of lateral tibiofemoral (TF) joint osteoarthritis (OA) occur in up to half of all people with knee OA, and co-existing lateral TF OA is associated with worse knee pain in people with mixed compartmental knee OA. Clinical guidelines for management of knee OA advocate advice about appropriate footwear, yet there is no research evaluating which types of footwear are best for managing pain associated with lateral TF OA. Biomechanical evidence suggests that "motion-control" footwear, which possess midsoles that are stiffer medially compared to laterally, may shift load away from the lateral compartment of the knee and thus may reduce knee pain associated with lateral TF OA. The primary aim of this study is to compare the effects of motion-control shoes to neutral shoes on knee pain in people with predominantly lateral TF OA.Methods: This will be an assessor- and participant-blinded, two-arm, comparative effectiveness randomized controlled trial (RCT) conducted in Melbourne, Australia. We will recruit a minimum of 92 people with painful lateral TF OA from the community. Participants will be randomly allocated to receive either motion-control shoes or neutral shoes and will be instructed to wear their allocated shoes for a minimum of 6 h per day for 6 months. The primary outcome is change in self-reported knee pain on walking, measured using a numerical rating scale, assessed at baseline and 6 months. Secondary outcomes include other measures of knee pain, physical function, quality of life, participant-perceived change in pain and function, and physical activity levels.Discussion: This study will compare the efficacy of motion-control shoes to neutral shoes for people with painful lateral TF OA. Findings will be the first to provide evidence of the effects of footwear on knee pain in this important subgroup of people with knee OA and allow clinicians to provide accurate advice about the most appropriate footwear for managing pain associated with lateral TF OA.Trial Registration: This trial has been prospectively registered by the Australian New Zealand Clinical Trials Registry on 15/11/2018 (reference: ACTRN12618001864213). [ABSTRACT FROM AUTHOR]

Published

2020

33. The effects of marathon running on three-dimensional knee kinematics during walking and running in recreational runners.

Author

Tian, Fei, Li, Ningwei, Zheng, Zhi, Huang, Qiuyue, Zhu, Ting, Li, Qiang, Wang, Wenjin, Tsai, Tsung-Yuan, and Wang, Shaobai

Subjects

*MARATHON running, *KINEMATICS, *WALKING, *ELECTRONICS in surveying, *MOTION analysis

Abstract

Background: Running-related musculoskeletal injuries are common. Knee injuries are most frequent, and often occur during or shortly after marathons.Research Question: The effects of a marathon on runners' knee kinematics remain unclear. No studies have shown comprehensive three-dimensional (3D) knee kinematic changes following a marathon. This study aimed to observe the effects of running a marathon on 3D knee kinematics and identify the phases of walking and running gait in which significant changes occur.Methods: Based on an electronic survey, 10 healthy, recreational runners (20 knees) with similar running experience were included. Their 3D knee kinematics (during treadmill walking and running) were collected using a portable, optical motion capture system within 24 h before and within 6 h after running a marathon.Results: All measurements after the marathon were compared with pre-marathon measurements. (1) For walking post-marathon: varus rotation increased by 1.8° [95% confidence interval (CI) 0.1-3.4, P = 0.036] at peak knee extension during stance; anterior translation increased by 2.2 mm (95% CI 0.3-4.1, P = 0.025) at initial contact; range of motion (ROM) in internal-external rotation increased less than 1°, P = 0.023; ROM in anteroposterior translation increased by 3.8 mm, P = 0.048. (2) For running post-marathon: flexion rotation increased by 1.6° (95% CI 0.2-2.9, P = 0.025) at initial contact; varus rotation increased by 2.0° (95% CI 0.2-3.8, P = 0.031) at peak knee extension during stance.Significance: Significant differences in varus rotation and anterior translation were identified following a marathon, which could potentially contribute to injury. These results provide important information for runners and coaches about knee kinematic alterations following a marathon. [ABSTRACT FROM AUTHOR]

Published

2020

34. The Effect of the Frontal Plane Tibiofemoral Angle and Varus Knee Moment on the Contact Stress and Strain at the Knee Cartilage.

Author

Yang, Nicholas H., Canavan, Paul K., and Nayeb-Hashemi, Hamid

Subjects

KNEE physiology, PATELLOFEMORAL joint physiology, TIBIA physiology, ARTICULAR cartilage, BIOLOGICAL models, BONE diseases, DYNAMICS, FIBULA, FINITE element method, KINEMATICS, KNEE, PATELLOFEMORAL joint, STRAINS & stresses (Mechanics), TIBIA, PHYSIOLOGY

Abstract

Subject-specific models were developed and finite element analysis was performed to observe the effect of the frontal plane tibiofemoral angle on the normal stress, Tresca shear stress and normal strain at the surface of the knee cartilage. Finite element models were created for three subjects with different tibiofemoral angle and physiological loading conditions were defined from motion analysis and muscle force mathematical models to simulate static single-leg stance. The results showed that the greatest magnitude of the normal stress, Tresca shear stress and normal strain at the medial compartment was for the varus aligned individual. Considering the lateral knee compartment, the individual with valgus alignment had the largest stress and strain at the cartilage. The present investigation is the first known attempt to analyze the effects of tibiofemoral alignment during single-leg support on the contact variables of the cartilage at the knee joint. The method could be potentially used to help identify individuals most susceptible to osteoarthritis and to prescribe preventive measures. [ABSTRACT FROM AUTHOR]

Published

2010

35. Finite element models of the tibiofemoral joint: A review of validation approaches and modelling challenges.

Author

Cooper, Robert J., Wilcox, Ruth K., and Jones, Alison C.

Subjects

*PATELLOFEMORAL joint, *MODEL validation, *KNEE, *DISEASE progression, *MECHANICAL properties of condensed matter, *TIBIOFEMORAL joint

Abstract

• Generic knee models are useful for sensitivity testing and parametric analysis. • Subject-specific models provide insight into specific joint's mechanical behaviour. • Validate outputs specifically relevant to the knee model's intended application. • Model data can aid stratification of future treatments for different patient groups. • Outputs from knee modelling studies will have increasing clinical importance. The knee joint is a complex mechanical system, and computational modelling can provide vital information for the prediction of disease progression and of the potential for therapeutic interventions. This review provides an overview of the challenges involved in developing finite element models of the tibiofemoral joint, including the representation of appropriate geometry and material properties, loads and motions, and establishing pertinent outputs. The importance of validation for computational models in biomechanics has been highlighted by a number of papers, and finite element models of the tibiofemoral joint are a particular area in which validation can be challenging, due to the complex nature of the knee joint, its geometry and its constituent tissue properties. A variety of study designs have emerged to tackle these challenges, and these can be categorised into several different types. The role of validation, and the strategies adopted by these different study types, are discussed. Models representing trends and sensitivities often utilise generic representations of the knee and provide conclusions with relevance to general populations, usually without explicit validation. Models representing in vitro specimens or in vivo subjects can, to varying extents, be more explicitly validated, and their conclusions are more subject-specific. The potential for these approaches to examine the effects of patient variation is explored, which could lead to future applications in defining how treatments may be stratified for subgroups of patients. [ABSTRACT FROM AUTHOR]

Published

2019

36. Tibiofemoral dislocation after primary total knee arthroplasty: a systematic review.

Author

Rouquette, Louis, Erivan, Roger, Pereira, Bruno, Boisgard, Stéphane, Descamps, Stéphane, and Villatte, Guillaume

Subjects

*TOTAL knee replacement, *META-analysis, *REOPERATION, *THERAPEUTICS

Abstract

Introduction: Tibiofemoral dislocation is the most serious form of instability following total knee arthroplasty (TKA). It is little reported in the literature, despite severity comparable to that in the native knee. The present systematic review and meta-analysis aimed to identify risk factors and treatment strategies.Methods: The Cochrane, Medline (via PubMed), Google, and PROSPERO data-bases were searched in January 2018 following the PRISMA meta-analysis guidelines. All articles referring to tibiofemoral dislocation following primary TKA were included for analysis and extraction of individual data. Study data comprised age, gender, comorbidities, primary and revision implant design, aetiology, and treatment strategy.Results: Individual data for 57 patients (23 studies) were analyzed. A total of 62.0% of primary implants were posterior-stabilized (49 patients) and 30.4% posterior-cruciate-retaining (24 patients). Obesity was the most frequent comorbidity (39.2%; 31 patients), followed by severe pre-operative deformity (31.6%; 25 patients). Aetiologies of dislocation were mainly related to comorbidity (15 studies; 65.2%) or intra-operative iatrogenic destabilization (14 studies; 60.9%). Non-operative treatment (splint) after dislocation was associated with high rates of recurrence (39.1%) but significantly fewer complications (p = 0.033). Implant revision surgery (45 patients; 80.4%) usually involved higher-constraint models (31 patients; 70.8%).Conclusions: Improved implant design has reduced the rate of tibiofemoral dislocation, although this complication remains serious in both the short and the long term. The present review identified patient- and surgeon-related risk factors. Awareness of the former, which are identifiable pre-operatively, and of the most frequent technical errors is critical. [ABSTRACT FROM AUTHOR]

Published

2019

37. Unloader knee brace increases medial compartment joint space during gait in knee osteoarthritis patients.

Author

Nagai, Kanto, Yang, Shumeng, Fu, Freddie H., and Anderst, William

Subjects

*OSTEOARTHRITIS, *KNEE braces, *KNEE diseases, *GAIT in humans, *HUMAN locomotion, *ORTHOPEDIC braces, *KNEE physiology, *OSTEOARTHRITIS treatment, *KINEMATICS, *KNEE, *ORTHOPEDIC apparatus, *PAIN, *RADIOGRAPHY, *WALKING, *HEEL (Anatomy)

Abstract

Purpose: The purpose of the present study was to investigate the effect of the unloader brace on medial compartment dynamic joint space (DJS) during gait, while simultaneously recording ground reaction force (GRF) in varus knee osteoarthritis (OA) patients using a highly accurate biplane radiography system which allowed continuous measurement of DJS from heel strike through the midstance phase of gait. The hypothesis was that DJS in the medial compartment would be greater with the unloader brace than without the brace during gait.Methods: After 2 weeks of daily use of the unloader brace, ten varus knee OA patients (age 52 ± 8 years) walked with and without the brace on an instrumented treadmill, while biplane radiographs of the OA knees were acquired at 100 Hz. Medial compartment DJS was determined from heel strike to terminal stance (0-40% of the gait cycle) using a validated volumetric model-based tracking process that matches subject-specific 3D bone models to the biplane radiographs. The GRF during gait was collected at 1000 Hz. Repeated-measures ANOVA was used to explore differences in medial compartment DJS and GRF between the unbraced and braced conditions. A patient-reported subjective questionnaire related to the brace use was collected at the time of the test.Results: Medial compartment DJS was significantly greater with the unloader brace than without the brace during gait (P = 0.005). The average difference was 0.3 mm (95% confidence interval 0.1-0.4 mm). No significant difference was observed in terms of vertical GRF between the two conditions. The questionnaire showed participants felt reduced pain when wearing the brace.Conclusion: The unloader brace has the significant effect of increasing medial compartment DJS during gait, which supports the underlying premise that the unloader brace reduces pain by increasing medial joint space during dynamic loading activities.Level Of Evidence: III. [ABSTRACT FROM AUTHOR]

Published

2019

38. Lower limb alignment becomes more varus and hyperextended from supine to bipedal stance in asymptomatic, osteoarthritic and prosthetic neutral or varus knees.

Author

Brown, Michael J. C., Deakin, Angela H., Picard, Frederic, Riches, Philip E., and Clarke, Jon V.

Subjects

*KNEE surgery, *OSTEOARTHRITIS, *ARTIFICIAL knees, *ARTHROPLASTY, *LEG surgery, *SUPINE position

Abstract

Purpose: Knee alignment is a fundamental measurement in the assessment, monitoring and surgical management of patients with osteoarthritis. There is a lack of data regarding how static tibiofemoral alignment varies between supine and standing conditions. This study aimed to quantify the relationship between supine and standing lower limb alignment in asymptomatic, osteoarthritic (OA) and prosthetic (TKA) knees.Methods: A non-invasive position capture system was used to assess knee alignment for 30 asymptomatic controls and 31 patients with OA both before and after TKA. Coronal and sagittal mechanical femorotibial angles were measured supine with the lower limb in extension and in bipedal stance. Changes between conditions were analysed using paired ttests. Vector plots of ankle centre displacement relative to the knee centre from supine to standing were produced to allow three-dimensional visualisation.Results: All groups showed a trend towards varus and extension when going from supine to standing. Mean change for asymptomatic knees was 1.2° more varus (p = 0.001) and 3.8° more extended (p < 0.001). For OA knees this was 1.1° more varus (p = 0.009) and 5.9° more extended (p < 0.001) and TKA knees 1.9° more varus (p < 0.001) and 5.6° more extended (p < 0.001).Conclusion: The observed consistent changes in lower limb alignment between supine and standing positions across knee types suggests the soft tissue envelope restraining the knee may have a greater influence on dynamic alignment changes than the underlying bony deformity. This highlights the importance of quantifying soft tissue behaviour when planning, performing and evaluating alignment dependent surgical interventions of the knee. When routinely assessing any type of knee, clinicians should be aware that subtle consistent alignment changes occur under weightbearing conditions and tailor their treatments accordingly.Level Of Evidence: II. [ABSTRACT FROM AUTHOR]

Published

2019

39. Three‐dimensional motion of the knee‐joint complex during normal walking revealed by mobile biplane x‐ray imaging.

Author

Gray, Hans A., Guan, Shanyuanye, Thomeer, Lucas T., Schache, Anthony G., de Steiger, Richard, and Pandy, Marcus G.

Subjects

*X-ray imaging, *PATELLOFEMORAL joint, *THREE-dimensional imaging, *ROTATIONAL motion, *KNEE, *PATELLA

Abstract

Accurate knowledge of knee kinematics is important for a better understanding of normal joint function and for improving patient outcomes subsequent to joint reconstructive surgery. Limited information is available that accurately describes the relative movements of the bones at the knee in vivo, even for the most common of all activities: walking. We used a mobile X‐ray imaging system to measure the three‐dimensional motion of the entire knee‐joint complex—femur, tibia, and patella—when humans walk over ground at their natural speeds. Data were recorded from 15 healthy individuals (9 males, 6 females; age 30.5 ± 6.2 years). The most pronounced rotational motion of the tibia was flexion‐extension followed by internal‐external rotation and abduction‐adduction (peak‐to‐peak displacements: 70.7°, 9.2°, and 1.9°, respectively). Maximum anterior translation of the tibia was 6.5 mm and occurred in early swing, coinciding with peak knee flexion and peak internal rotation. The most prominent rotational motion of the patella was flexion‐extension (peak‐to‐peak displacement: 50.5°). The tibia pivoted about the medial compartment of the tibiofemoral joint, conferring greater movements of the contact centers in the lateral compartment than the medial compartment (15.4 and 9.7 mm, respectively). Internal‐external rotation, anterior‐posterior translation and medial‐lateral shift of the tibia as well as flexion‐extension and anterior‐posterior translation of the patella were each coupled to the knee flexion angle, as were movements of the contact centers at each joint. These fundamental data serve as a valuable resource for evaluating knee joint function in normal and pathological gait. The data are available in Supplementary_Material_Data.xlsx. © 2019 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res [ABSTRACT FROM AUTHOR]

Published

2019

40. ANTERIOR CRUCIATE LIGAMENT SECTIONING ALTERS CENTER OF PRESSURE WITHIN THE TIBIOFEMORAL JOINT: AN IN VITRO STUDY.

Author

Noginova, Julia, Hoch, Matthew C., Weinhandl, Joshua, Bawab, Sebastian, and Ringleb, Stacie I.

Subjects

*ANTERIOR cruciate ligament, *CALL centers, *PRESSURE sensors, *PRESSURE, *MENISCUS surgery, *TIBIOFEMORAL joint

Abstract

Anterior cruciate ligament (ACL) injuries often lead to secondary injuries, joint degradation, and were linked to osteoarthritis. There is little known about how ACL rupture affects the loading and contact characteristics within the tibiofemoral joint. The objective of this study was to evaluate changes in tibiofemoral joint contact pressure and center of pressure (COP) during dynamic motion before and after ACL sectioning in vitro. Six intact cadaveric knees were manipulated through three full cycles of motion ranging from 30∘ to 120∘ of flexion in a custom-built device. A pressure sensor inserted in the tibiofemoral joint measured contact pressure of the medial and lateral compartments as well as COP characteristics of the whole joint before and after the ACL was sectioned. There was a significant decrease in lateral-compartment peak pressure, medial and lateral mean pressure, and total contact area after the ACL was sectioned. In both intact and ACL deficient knees, a posterior-lateral shift in COP was observed during flexion and a medial-anterior shift when returning to extension. Plotting the COP trajectory through the flexion-extension cycle resulted in a distinct hysteresis curve due to the viscoelastic soft tissue properties. Following sectioning, the COP trajectory had a diminished area compared to the intact condition. The diminished area of contact pressure may be more problematic than the overall magnitude when the integrity of the ACL is compromised. The centralized pressure distribution to a smaller surface area over time may cause focal damage to the cartilage leading to osteoarthritis. [ABSTRACT FROM AUTHOR]

Published

2019

41. Medially‐stabilized total knee arthroplasty does not alter knee laxity and balance in cadaveric knees.

Author

Hall, Rachel K., Ewing, Joseph A., Siston, Robert A., Beal, Matthew D., and Manning, David W.

Subjects

*TOTAL knee replacement

Abstract

Instability after total knee arthroplasty (TKA) can lead to suboptimal outcomes and revision surgery. Medially‐stabilized implants aim to more closely replicate normal knee motion than other implants following TKA, but no study has investigated knee laxity (motion under applied loads) and balance (i.e., difference in varus/valgus motion under load) following medially‐stabilized TKA. The primary purposes of this study were to investigate how medially‐stabilized implants change knee laxity in non‐arthritic, cadaveric knees, and if it produces a balanced knee after TKA. Force‐displacement data were collected on 18 non‐arthritic cadaveric knees before and after arthroplasty using medially‐stabilized implants. Varus‐valgus and anterior‐posterior laxity and varus‐valgus balance were compared between native and medially‐stabilized knees at 0°, 20°, 60°, and 90° under three different loading conditions. Varus‐valgus and anterior‐posterior laxities were not different between native and medially‐stabilized knees under most testing conditions (p ≥ 0.068), but differences of approximately 2° less varus‐valgus laxity at 20° of flexion and 4 mm more anterior‐posterior laxity at 90° were present from native laxities (p < 0.017) Medially‐stabilized implant balance had ≤1.5° varus bias at all flexion angles. Future studies should confirm if the consistent laxity afforded by the medially‐stabilized implant is associated with better and more predictable postoperative outcomes. © 2018 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 37:335–349, 2019. [ABSTRACT FROM AUTHOR]

Published

2019

42. How prosthetic design influences knee kinematics: a narrative review of tibiofemoral kinematics of healthy and joint-replaced knees.

Author

Meng, Fanhe, Jaeger, Sebastian, Sonntag, Robert, Schroeder, Stefan, Smith-Romanski, Sydney, and Kretzer, J. Philippe

Subjects

ARTHROPLASTY, JOINT surgery, PROSTHETICS, ARTIFICIAL implants, OSTEOARTHRITIS

Abstract

Introduction: To improve the total knee arthroplasty (TKA) prosthesis design, it is essential to study the kinematics of the tibiofemoral joint. Many studies have been conducted in this area; however, conflicting results and incomparable testing methods make it difficult to draw definitive conclusions or compare research from studies. The goal of this article is to introduce what is known about both healthy and prosthetic tibiofemoral joint kinematics. Areas covered: Healthy tibiofemoral joint kinematics are reviewed in vivo by different activities, and the kinematics of existing knee prosthetic design features are considered separately. These features include but are not limited to cruciate retaining, posterior cruciate substituting, mobile-bearing, and high flexion. Expert commentary: The type of activity that is being performed has a great influence on the kinematics of healthy knees, and the influences of different TKA prosthetic design features on the kinematics are complex and varied. Moreover, the TKA postoperative functional performance is influenced by many factors, and prosthetic design is among them, but not the only one that defines the performance. [ABSTRACT FROM AUTHOR]

Published

2019

43. Traumatic Lateral Knee Dislocation of a Well-Functioning Total Knee Arthroplasty: A Case of Medial Collateral Ligament Rupture

Author

Matthew Dubose, Kevin P. Smidt, and Cambize Shahrdar

Subjects

Orthopedic surgery, medicine.medical_specialty, Medial collateral ligament, business.industry, Knee Dislocation, Total knee arthroplasty, Instability, Surgical Revision, Case Report, Surgery, medicine.anatomical_structure, MCL rupture, Tibiofemoral, medicine, Ligament, Dislocation, Orthopedics and Sports Medicine, Traumatic dislocation, business, Surgical interventions, Complication, RD701-811

Abstract

Tibiofemoral dislocation can be a devastating complication after total knee arthroplasty. Much of the literature on tibiofemoral dislocations state they result from iatrogenic causes, with a very limited number of case reports on traumatic dislocation. Most of the time, these cases will require surgical revision and increased constraint to treat the inherent instability. In addition, collateral ligament disruption increases the complexity of the treatment algorithm for these patients. We report the case of a lateral tibiofemoral total knee arthroplasty dislocation with associated medial collateral ligament injury treated successfully without surgical interventions.

Published

2021

44. Patellar malalignment: A common disorder associated with knee pain.

Author

Wu CC

Subjects

Humans, Knee Joint physiology, Quadriceps Muscle physiology, Pain, Patella physiology, Patellofemoral Joint surgery

Abstract

Pain-associated knee joint disorders are common in daily life. Practically, knee pain should be divided into the origin from the isolated tibiofemoral (TF), isolated patellofemoral (PF) joint, or a combination thereof. The TF joint controls the actions of level walking, while the PF joint controls knee flexion-extension. Owing to its sufficient inherent stability, non-traumatic disorders of the isolated TF joint in young individuals are uncommon. In contrast, because of its insufficient inherent stability, non-traumatic disorders of the isolated PF joint are common in young individuals. Patellar malalignment (PM) associated with knee pain is common in all age groups, and the most common predisposing factor is imbalanced peripatellar soft-tissue tension. The outward forces acting on the patella are caused by pulling from the quadriceps femoris during knee flexion to extension (manifested by the quadriceps angle [Q-angle]), and sliding backward of the iliotibial band (ITB) during knee extension to flexion. Once the muscle power of the vastus medialis (especially the vastus medialis obliquus [VMO]) decreases, which lowers the counteracting effect against outward forces, the patella displaces or rotates laterally. The reduced contact surface between the patella and the femoral condyle significantly increases the compressive pressure and injures the articular cartilage. Subsequently, progressive PF degeneration occurs. Although other factors may also cause PM, they are relatively uncommon. In principle, nonsurgical treatment of PM should be considered first, while surgical treatment should follow established indications. Some nonsurgical techniques are currently widely used that feature high satisfaction rates. Surgical techniques are continuously being developed, and their success rates have gradually improved. This study aimed to review the current literature for relevant studies and report related publications of the author's institution to emphasize the universality and importance of PM management. Conceptually, simply focusing on problems of the TF joint cannot treat all knee disorders., Competing Interests: Conflicts of interest The author declares that there are no conflicts of interest in this study., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

45. Comparison of Marker-Based and Stereo Radiography Knee Kinematics in Activities of Daily Living.

Author

Hume, Donald R., Kefala, Vasiliki, Harris, Michael D., and Shelburne, Kevin B.

Abstract

Movement of the marker positions relative to the body segments obscures in vivo joint level motion. Alternatively, tracking bones from radiography images can provide precise motion of the bones at the knee but is impracticable for measurement of body segment motion. Consequently, researchers have combined marker-based knee flexion with kinematic splines to approximate the translations and rotations of the tibia relative to the femur. Yet, the accuracy of predicting six degree-of-freedom joint kinematics using kinematic splines has not been evaluated. The objectives of this study were to (1) compare knee kinematics measured with a marker-based motion capture system to kinematics acquired with high speed stereo radiography (HSSR) and describe the accuracy of marker-based motion to improve interpretation of results from these methods, and (2) use HSSR to define and evaluate a new set of knee joint kinematic splines based on the in vivo kinematics of a knee extension activity. Simultaneous measurements were recorded from eight healthy subjects using HSSR and marker-based motion capture. The marker positions were applied to three models of the lower extremity to calculate tibiofemoral kinematics and compared to kinematics acquired with HSSR. As demonstrated by normalized RMSE above 1.0, varus-valgus rotation (1.26), medial-lateral (1.26), anterior-posterior (2.03), and superior-inferior translations (4.39) were not accurately measured. Using kinematic splines improved predictions in varus-valgus (0.81) rotation, and medial-lateral (0.73), anterior-posterior (0.69), and superior-inferior (0.49) translations. Using splines to predict tibiofemoral kinematics as a function knee flexion can lead to improved accuracy over marker-based motion capture alone, however this technique was limited in reproducing subject-specific kinematics. [ABSTRACT FROM AUTHOR]

Published

2018

46. The effects of conventional and minimalist footwear on hip and knee joint kinetics during maximal depth jumps.

Author

Sinclair, Jonathan

Subjects

TOTAL hip replacement, TOTAL knee replacement, OSTEOARTHRITIS, PHYSICAL training & conditioning, PHYSICAL activity

Abstract

Background: The aim of the current investigation was to examine the effects of minimalist and conventional footwear on the loads experienced by the hip and knee joints during the depth jump. Material and methods: Ten male participants performed depth jumps onto a force platform in each footwear condition. Kinematics of the lower extremities were also quantified using an eight-camera infra-red motion capture system, allowing hip and knee kinetics to be calculated. Differences between footwear were tested using paired samples t-tests. Results: Peak hip and knee joint forces were found to be significantly larger in minimalist (hip = 4.62 & knee = 4.74 BW) in comparison to conventional footwear (hip = 4.39 & knee = 4.46 BW). At the hip, average and instantaneous load rates were significantly greater in conventional (average = 64.14 & instantaneous = 234.06 BW/s) compared to minimalist (average = 44.43 & 200.80 BW/s) footwear. At the knee instantaneous load rate was significantly larger in conventional (265.55 BW/s) compared to minimalist (198.07 BW/s) footwear. Conclusions: Given that the load rate is advocated as a more clinically meaningful measure of injury risk the current study shows that minimalist footwear may be most appropriate for those who are susceptible to hip and knee pathologies. [ABSTRACT FROM AUTHOR]

Published

2018

47. Anterior Cruciate Ligament Reconstruction Affects Tibiofemoral Joint Congruency During Dynamic Functional Movement.

Author

Nagai, Kanto, Gale, Tom, Irrgang, James J., Tashman, Scott, Fu, Freddie H., and Anderst, William

Subjects

*TIBIOFEMORAL joint, *KNEE joint, *ANALYSIS of variance, *MULTIPLE regression analysis, *RESEARCH methodology, *BODY movement, *REPEATED measures design, *ANTERIOR cruciate ligament surgery, *DATA analysis software, *KINEMATICS

Abstract

Background: Anterior cruciate ligament reconstruction (ACLR) has been shown to alter kinematics, which may influence dynamic tibiofemoral joint congruency (a measure of how well the bone surfaces fit together). This may lead to abnormal loading of cartilage and joint degeneration. However, joint congruency after ACLR has never been investigated. Hypotheses: The ACLR knee will be more congruent than the contralateral uninjured knee, and dynamic congruency will increase over time after ACLR. Side-to-side differences (SSD) in dynamic congruency will be related to cartilage contact location/area and subchondral bone curvatures. Study Design: Descriptive laboratory study. Methods: The authors examined 43 patients who underwent unilateral ACLR. At 6 months and 24 months after ACLR, patients performed downhill running on a treadmill while synchronized biplane radiographs were acquired at 150 images per second. Dynamic tibiofemoral kinematic values were determined by use of a validated volumetric model-based tracking process that matched patient-specific bone models, obtained from computed tomography, to biplane radiographs. Patient-specific cartilage models, obtained from magnetic resonance imaging, were registered to tracked bone models and used to calculate dynamic cartilage contact regions. Principle curvatures of the subchondral bone surfaces under each cartilage contact area were calculated to determine joint congruency. Repeated-measures analysis of variance was used to test the differences. Multiple linear regression was used to identify associations between SSD in congruency index, cartilage contact area, contact location, and global curvatures of femoral or tibial subchondral bone. Results: Lateral compartment congruency in the ACLR knee was greater than in the contralateral knee (P < .001 at 6 months and P = .010 at 24 months). From 6 to 24 months after surgery, dynamic congruency decreased in the medial compartment (P = .002) and increased in the lateral compartment (P = .007) in the ACLR knee. In the lateral compartment, SSD in joint congruency was related to contact location and femur global curvature, and in the medial compartment, SSD in joint congruency was related to contact area. Conclusion: ACLR appears to affect dynamic joint congruency. SSD in joint congruency was associated with changes in contact location, contact area, and femoral bony curvature. Clinical Relevance: Alterations in tibiofemoral contact location, contact area, and bone shape affect dynamic joint congruency, potentially contributing to long-term degeneration after ACLR. [ABSTRACT FROM AUTHOR]

Published

2018

48. Non-elastic taping, but not elastic taping, provides benefits for patients with knee osteoarthritis: systemic review and meta-analysis.

Author

Ouyang, Jin-Han, Chang, Kwang-Hwa, Hsu, Wen-Yen, Cho, Yen-Ting, Liou, Tsan-Hon, and Lin, Yen-Nung

Subjects

*OSTEOARTHRITIS treatment, *KNEE diseases, *GAIT in humans, *HEALTH surveys, *INFORMATION storage & retrieval systems, *MEDICAL databases, *MEDLINE, *META-analysis, *MUSCLE strength, *ONLINE information services, *PROBABILITY theory, *QUESTIONNAIRES, *SURGICAL dressings, *WALKING, *SYSTEMATIC reviews, *EVIDENCE-based medicine, *PAIN measurement, *VISUAL analog scale, *STAIR climbing, *FUNCTIONAL assessment, *TAPING & strapping, *THERAPEUTICS

Abstract

Objective: To determine whether therapeutic taping, which includes elastic (Kinesio tape) and non-elastic (Leukotape) taping, is superior to control taping in improving pain and functions for patients with knee arthritis. To understand whether both elastic and non-elastic taping are beneficial. Methods: We searched the PubMed and Scopus databases from their earliest record to 31 May 2017 for randomized controlled and cross-over studies that used taping to treat knee osteoarthritis. We extracted the mean differences and SD between baseline and posttreatment for selected outcomes measured in the experimental and control groups for subsequent meta-analyses. Results: In total, 11 studies were included in the review. Of which, five Leukotaping and five Kinesio taping studies involving 379 participants were used in the meta-analysis. PEDro scores of the Leukotaping and Kinesio taping studies were 4.2 and 7.8, respectively. Overall, therapeutic taping exhibited significantly greater pain reduction than control taping with a significant weighted mean difference of 12.8 mm on a 0- to 100-mm visual analogue scale. Compared to control taping, Leukotaping produced a significant weighted mean difference of 11.6 mm regarding pain with a large effect size of 0.89 and I2 = 0%, while Kinesio taping produced a non-significant weighted mean difference of 12.1 mm and I2 = 93%. Leukotaping also exhibited a large and significant standard mean difference of 0.82, while Kinesio taping exhibited a non-significant standard mean difference of 1.34 regarding climbing stairs and stepping. Conclusion: Therapeutic taping seemed to be superior to control taping in pain control for knee osteoarthritis. Non-elastic taping, but not elastic taping, provides benefits in pain reduction and functional performance. [ABSTRACT FROM AUTHOR]

Published

2018

49. Concordance between clinical and radiographic evaluations of knee osteoarthritis.

Author

Parsons, Camille, Fuggle, Nicholas, Edwards, Mark, Goulston, Lyndsey, Litwic, Anna, Jagannath, Darshan, Pas, Suzan, Cooper, Cyrus, and Dennison, Elaine

Abstract

Background: Significant correlation has been previously demonstrated between radiographic and clinical diagnoses of knee osteoarthritis (OA); however, the specific findings on clinical examination that relate best to a radiographic diagnosis have not been fully elicited. Aims: We aimed to explore the relationship between clinical symptoms and physical findings with radiographic diagnoses of tibiofemoral and patellofemoral OA. Methods: This study was based on 409 individuals from the Hertfordshire Cohort Study, born between 1931 and 1939. Antero-posterior and lateral radiographs were taken of both knees. The presence of tibiofemoral and patellofemoral OA was defined according to the Kellgren and Lawrence score. Clinical symptoms, assessed using WOMAC, and physical findings were ascertained by examination. Relationships were assessed using multilevel univariate logistic regression. Results: In the 775 knees studied, the prevalence of physical findings was crepitus (25%), tibiofemoral tenderness (15%), bony swelling (12%), and pain on flexion (10%). Thirty-one percent ( n = 238) knees demonstrated tibiofemoral OA, 28% ( n = 220) showed patellofemoral OA, and 16% demonstrated OA in both locations. A global clinical symptom score was associated with increased risk of tibiofemoral OA (OR 12.5, 95% CI 5.4-29.0) and patellofemoral OA (OR 5.1, 95% CI 2.3-13.1). On clinical examination, the presence of crepitus, tibiofemoral tenderness, bony swelling, and pain on flexion was associated with increased risk of tibiofemoral OA; however, only tenderness was found to be associated with patellofemoral OA. Conclusion: Global clinical symptom score was associated with radiographic tibiofemoral and patellofemoral OA. However, individual clinical signs were more strongly associated with tibiofemoral than patellofemoral OA. [ABSTRACT FROM AUTHOR]

Published

2018

50. A Comparison of 2-Year Outcomes in Patients Undergoing Tibiofemoral or Patellofemoral Matrix-Induced Autologous Chondrocyte Implantation.

Author

Ebert, Jay R., Schneider, Adrian, Fallon, Michael, Wood, David J., and Janes, Gregory C.

Subjects

*AUTOLOGOUS chondrocyte implantation, *HEALTH outcome assessment, *PATELLOFEMORAL joint, *MAGNETIC resonance imaging, *TIBIA surgery, *SURGERY, *CARTILAGE cell transplantation, *KNEE radiography, *KNEE surgery, *PATIENT satisfaction, *ANALYSIS of variance, *AUTOGRAFTS, *COMPARATIVE studies, *HEALTH surveys, *LONGITUDINAL method, *PROBABILITY theory, *RESEARCH funding, *SURGICAL complications, *T-test (Statistics), *ARTICULAR cartilage injuries, *STATISTICAL power analysis, *EFFECT sizes (Statistics), *VISUAL analog scale, *TREATMENT effectiveness, *REPEATED measures design, *DATA analysis software, *FUNCTIONAL assessment, *DESCRIPTIVE statistics, FEMUR surgery

Abstract

Background: Matrix-induced autologous chondrocyte implantation (MACI) has demonstrated encouraging clinical results in the treatment of knee chondral defects. However, earlier studies suggested that chondrocyte implantation in the patellofemoral (PF) joint was less effective than in the tibiofemoral (TF) joint. Purpose: To compare the radiological and clinical outcomes of those undergoing MACI to either the femoral condyles or PF joint. Study Design: Cohort study; Level of evidence, 3. Methods: A total of 194 patients were included in this analysis, including 127 undergoing MACI to the medial (n = 94) and lateral (n = 33) femoral condyle, as well as 67 to the patella (n = 35) or trochlea (n = 32). All patients were evaluated clinically (Knee injury and Osteoarthritis Outcome Score [KOOS], visual analog scale, Short Form–36) before surgery and at 3, 12, and 24 months after surgery, while magnetic resonance imaging (MRI) was undertaken at 3, 12, and 24 months, with the MOCART (magnetic resonance observation of cartilage repair tissue) scoring system employed to evaluate the quality and quantity of repair tissue, as well as an MRI composite score. Patient satisfaction was evaluated. Results: No significant group differences (P > .05) were seen in demographics, defect size, prior injury, or surgical history, while the majority of clinical scores were similar preoperatively. All clinical scores significantly improved over time (P < .05), with a significant group effect observed for KOOS activities of daily living (P = .008), quality of life (P = .008), and sport (P = .017), reflecting better postoperative scores in the TF group. While the PF group had significantly lower values at baseline for the KOOS activities of daily living and quality of life subscales, it actually displayed a similar net improvement over time compared with the TF group. At 24 months, 93.7% (n = 119) and 91.0% (n = 61) of patients were satisfied with the ability of MACI to relieve their knee pain, 74.0% (n = 94) and 65.7% (n = 44) with their ability to participate in sport, and 90.5% (n = 115) and 83.6% (n = 56) satisfied overall, in the TF and PF groups, respectively. MRI evaluation via the MOCART score revealed a significant time effect (P < .05) for the MRI composite score and graft infill over the 24-month period. While subchondral lamina scored significantly better (P = .002) in the TF group, subchondral bone scored significantly worse (P < .001). At 24 months, the overall MRI composite score was classified as good/excellent in 98 TF patients (77%) and 54 PF patients (81%). Conclusion: MACI in the PF joint with concurrent correction of PF maltracking if required leads to similar clinical and radiological outcomes compared with MACI on the femoral condyles. [ABSTRACT FROM AUTHOR]

Published

2017