Your search keyword '"Patellofemoral Joint physiology"' showing total 320 results

1. Geez, Knees! Understanding patellofemoral pain syndrome.

Author

BRESS, SOPHIE

Subjects

*PATELLOFEMORAL joint physiology, *PLICA syndrome, *PATELLOFEMORAL joint, *REHABILITATION, *EXERCISE

Abstract

The article provides an overview of patellofemoral pain syndrome (PFPS), highlighting its prevalence among dancers and emphasizing the importance of early identification and targeted rehabilitation strategies. Topics include the symptoms and causes of PFPS, recommended exercises for prevention and treatment, and the necessity of individualized care from medical professionals to maintain joint health and support a sustainable dance career.

Published

2024

2. Arthroscopic Medial Patellofemoral Ligament Reconstruction with a Double Suspension Technique.

Author

Başal, Özgür and Dinçer, Recep

Subjects

*LIGAMENT surgery, *PATELLOFEMORAL joint physiology, *OPERATIVE surgery

Abstract

Surgical treatment of recurrent patella dislocations is difficult, and combined techniques are required in most cases. To overcome this issue, we present the preliminary results of a novel alternative fixation technique for the medial patellofemoral ligament (MPFL) reconstruction with using a looped semitendinosus tendon autograft. Between January 2018 and January 2020, five cases with isolated MPFL injury were treated with a double-suspension technique. The double suspension technique describes the fixation of the semitendinosus autograft into the single femoral and patellar tunnels using the adjustable and fixed loop-button technique arthroscopically. Tips and tendon fixation with a double suspension technique are described here in cases applied with MPFL reconstruction using semitendinosus autograft with this technique. An evaluation was made of five patients with an average age of 25 (range 18-33) years, followed up for a mean of 16.8 months. There was a statistically significant improvement in all patient-reported outcomes from baseline to the final follow-up examination. In the clinical outcomes, the mean modified Lysholm knee score increased significantly from 48 preoperatively to 95.2 at the final follow-up examination (p<0.001). All cases returned to their daily activities and amateur sports in an average of 4±0.2 (4-6) months. Anatomic MPFL reconstruction with a double-suspension technique provides biomechanical stability closest to the tensile strength of the natural MPFL. The reconstruction of this ligament forms the main leg of the treatment. Although several different methods have been described, failure and complications are seen as related to technique inadequacies. [ABSTRACT FROM AUTHOR]

Published

2023

3. Automatic measurement of the patellofemoral joint parameters in the Laurin view: a deep learning–based approach.

Author

E, Tuya, Nai, Rile, Liu, Xiang, Wang, Cen, Liu, Jing, Li, Shijia, Huang, Jiahao, Yu, Junhua, Zhang, Yaofeng, Liu, Weipeng, Zhang, Xiaodong, and Wang, Xiaoying

Subjects

*DEEP learning, *PATELLOFEMORAL joint, *PATELLOFEMORAL joint physiology, *KNEE joint, *RADIOLOGY

Abstract

Objectives: To explore the performance of a deep learning–based algorithm for automatic patellofemoral joint (PFJ) parameter measurements from the Laurin view. Methods: A total of 1431 consecutive Laurin views of the PFJ were retrospectively collected and divided into two parts: (1) the model development dataset (dataset 1, n = 1230) and (2) the hold-out test set (dataset 2, n = 201). Dataset 1 was used to develop the U-shaped fully convolutional network (U-Net) model to segment the landmarks of the PFJ. Based on the predicted landmarks, the PFJ parameters were calculated, including the sulcus angle (SA), congruence angle (CA), patellofemoral ratio (PFR), and lateral patellar tilt (LPT). Dataset 2 was used to assess the model performance. The mean of three radiologists who independently measured the PFJ parameters was defined as the reference standard. Model performance was assessed by the intraclass correlation coefficient (ICC), mean absolute difference (MAD), and root mean square (RMS) compared to the reference standard. Ninety-five percent limits of agreement (95% LoA) were calculated pairwise for each radiologist, reference standard, and model. Results: Compared with the reference standard, U-Net showed good performance for predicting SA, CA, PFR, and LPT, with ICC = 0.85–0.97, MAD = 0.06–5.09, and RMS = 0.09–6.90 in the hold-out test set. Except for the PFR, the remaining parameters measured between the reference standard and the model were within the 95% LoA in the hold-out test dataset. Conclusions: The U-Net-based deep learning approach had a relatively high model performance in automatically measuring SA, CA, PFR, and LPT. Key Points: • The U-Net model could be used to segment the landmarks of the PFJ and calculate the SA, CA, PFR, and LPT, which could be used to evaluate the patellar instability. • In the hold-out test, the automatic measurement model yielded comparable performance with reference standard. • The automatic measurement model could still accurately predict SA, CA, PFR, and LPT in patients with PI and/or PFOA. [ABSTRACT FROM AUTHOR]

Published

2023

4. Does high-intensity running to fatigue influence lower limb injury risk?

Author

Rice H, Starbuck C, Willer J, Allen S, Bramah C, Jones R, Herrington L, and Folland J

Subjects

Humans, Female, Biomechanical Phenomena, Male, Adult, Young Adult, Tibia physiology, Lower Extremity physiology, Muscle Fatigue physiology, Risk Factors, Athletic Injuries physiopathology, Exercise Test, Running physiology, Achilles Tendon injuries, Achilles Tendon physiology, Patellofemoral Joint physiology, Patellofemoral Joint physiopathology

Abstract

Objectives: The aim of this study was to quantify changes in peak bending moments at the distal tibia, peak patellofemoral joint contact forces and peak Achilles tendon forces during a high-intensity run to fatigue at middle-distance speed., Design: Observational study., Methods: 16 high-level runners (7 female) ran on a treadmill at the final speed achieved during a preceding maximum oxygen uptake test until failure (~3 min). Three-dimensional kinetics and kinematics were used to derive and compare tibial bending moments, patellofemoral joint contact forces and Achilles tendon forces at the start, 33 %, 67 % and the end of the run., Results: Average running speed was 5.7 (0.4) m·s -1 . There was a decrease in peak tibial bending moments (-6.8 %, p = 0.004) from the start to the end of the run, driven by a decrease in peak bending moments due to muscular forces (-6.5 %, p = 0.001), whilst there was no difference in peak bending moments due to joint reaction forces. There was an increase in peak patellofemoral joint forces (+8.9 %, p = 0.026) from the start to the end of the run, but a decrease in peak Achilles tendon forces (-9.1 %, p < 0.001)., Conclusions: Running at a fixed, high-intensity speed to failure led to reduced tibial bending moments and Achilles tendon forces, and increased patellofemoral joint forces. Thus, the altered neuromechanics of high-intensity running to fatigue may increase patellofemoral joint injury risk, but may not be a mechanism for tibial or Achilles tendon overuse injury development., Competing Interests: Declaration of interest statement There are no reported conflicts of interest., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2025

5. Open wedge high tibial osteotomy alters patellofemoral joint kinematics: A multibody simulation study.

Author

Schroeder L, Grothues S, Brunner J, Radermacher K, Holzapfel BM, Jörgens M, and Fuermetz J

Subjects

Humans, Biomechanical Phenomena, Middle Aged, Female, Male, Aged, Computer Simulation, Osteotomy methods, Patellofemoral Joint physiology, Patellofemoral Joint surgery, Tibia surgery

Abstract

Changes in lower limb alignment after open-wedge high tibial osteotomy (owHTO) influence joint kinematics. The aim of this study was to investigate the morphological and kinematic changes of the knee joint, in particular the patellofemoral joint, using a multibody simulation model. OwHTO with an open tibial wedge of 6-12 mm (1 mm intervals) was virtually performed on each of 13 three-dimensional (3D) computer-aided design models (CAD models) derived from computer tomography scans of full-leg cadaver specimens. For each owHTO, an individual biomechanical simulation model was built and knee flexion from 5° to 100° was simulated using a multibody simulation model of the native knee. Morphologic and alignment parameters as well as tibiofemoral and patellofemoral kinematic parameters were evaluated. Almost linear changes in tibial tuberosity trochlea groove (TT-TG) (0.42 mm/1 mm wedge height) were observed which led to pathological values (TT-TG > 20 mm) in 3 out of 13 knees. Furthermore, a 6 mm increase in osteotomy wedge height increased lateral patellofemoral rotation by 0.8° (range: 0.39° to 1.11°) and led to a lateral patellar translation of 0.8 mm (range: 0.37-3.11 mm) on average. Additionally, valgisation led to a medial translation of the tibia and a decrease in the degree of tibial internal rotation during knee flexion of approximately 0.3°/1 mm increase in osteotomy wedge height. The increase in TT-TG and the biomechanical effects observed influence patellofemoral tracking, which may increase retropatellar pressure and are potential risk factors for the development of anterior knee pain., (© 2024 The Author(s). Journal of Orthopaedic Research® published by Wiley Periodicals LLC on behalf of Orthopaedic Research Society.)

Published

2024

6. Sex and body height influences on patellofemoral joint reaction force during stair ascent.

Author

Atkins LT, Davis R, DiMercurio J, Harrison C, Ebmeyer J, and Roger James C

Subjects

Humans, Female, Male, Biomechanical Phenomena, Adult, Young Adult, Sex Factors, Stair Climbing physiology, Quadriceps Muscle physiology, Quadriceps Muscle physiopathology, Patellofemoral Joint physiology, Patellofemoral Joint physiopathology, Body Height

Abstract

Background: Females are at greater risk of developing patellofemoral pain (PFP) than males, and an excessive patellofemoral joint reaction force (PFJRF) may contribute to this discrepancy. It is unknown if the PFJRF differs between males and females during stair ascent. Additionally, body height may also influence the PFJRF. This study investigated PFJRF differences between males and females and explored relationships between body height and PFJRF during stair ascent., Methods: Thirty males (25.6 (2.7) yr) and thirty females (23.7 (2.2) yr) ascended stairs (96 steps/min). Three-dimensional kinematics (200 Hz) and kinetics (2000 Hz) were recorded and used to calculate biomechanical dependent variables., Results: Females experienced a greater PFJRF magnitude (mean difference (MD) = 3.2 N/kg; 95% CI = 0.5, 5.9; p = 0.022) and rate (MD = 23.8 N/kg/sec; 95% CI = 2.7, 45.1; p = 0.029), quadriceps muscle force (3.1 N/kg; 95% CI = 0.2, 6.0; p = 0.036), and knee flexion angle (MD = 2.3°; 95% CI = 0.3, 4.3; p = 0.026). Females exhibited shorter quadriceps lever arm length (MD = -0.1 cm; 95% CI = -0.2, 0.0; p = 0.024) and body height (MD = -16.9 cm; 95% CI = -20.5, -13.2, p < 0.001) compared to males. Body height was inversely correlated with PFJRF magnitude (r = -0.31; p = 0.017), rate (r = -0.28; p = 0.032), and knee flexion angle (r = -0.54; p < 0.001)., Conclusion: Females experienced a greater PFJRF than males. Additionally, the PFJRF and body height were inversely correlated. This observed difference may contribute to the PFP sex discrepancy and be due, at least in part, to body height differences., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

7. Patellar tilt, congruence angle, and tibial tubercle-trochlear groove distance are correlated with positive J-sign in adolescents.

Author

Tan SHS, Kwan YT, Lee JZJ, Yeo LKP, Lim AKS, and Hui JH

Subjects

Humans, Retrospective Studies, Adolescent, Male, Female, Tibia diagnostic imaging, Tibia anatomy & histology, Patellar Dislocation diagnostic imaging, Patellar Dislocation physiopathology, Patellofemoral Joint diagnostic imaging, Patellofemoral Joint anatomy & histology, Patellofemoral Joint physiology, Patella diagnostic imaging, Patella anatomy & histology, Tomography, X-Ray Computed

Abstract

Purpose: The J-sign is a clinical evaluation tool that assesses for patellar maltracking and is considered positive if lateral translation of the patella in extension, in the pattern of an inverted J is observed. This study aims to determine the association of clinical J-sign with imaging features noted on dynamic kinematic computed tomography (DKCT)., Methods: A retrospective review was conducted by reviewing the clinical records of all patients aged 18 years or younger who had a CT patellar tracking scan done between 1 January 2005 to 31 December 2016 in a single institution. Patients who had the presence or absence of a 'J-sign' evaluated clinically were included. Radiographic parameters evaluated using the axial cuts include the patellar tilt angle, congruence angle, Dejour's classification, femoral sulcus angle, trochlear groove depth, and Wiberg's classification. Patients were then divided into two groups based on the presence or absence of J-sign on clinical examination. The radiographic measurements were then analyzed for association with the presence or absence of J-sign on clinical examination., Results: Patients with a positive J-sign had an increased patellar tilt of 23.3° ± 14.2° and an increased congruence angle of 47.1° ± 28.5° when measured in extension as compared to a patellar tilt of 18.3° ± 10.8° and a congruence angle of 32.1° ± 20.8° in patients with a negative J-sign ( p  = 0.024 and 0.004, respectively). Comparisons of the change in congruence angles with the knee in full extension and at 20° flexion also yielded significantly higher change of 28.0° ± 20.4° in patients with a positive J-sign as compared to 11.9° ± 17.5° in patients with a negative J-sign. Patients with a positive J-sign also had an increased TT-TG distance of 17.6 ± 5.6 mm as compared to a TT-TG distance of 14.7 ± 6.9 mm in patients with a negative J-sign ( p  = 0.01)., Conclusion: Patients with a positive J-sign had an increased patellar tilt and an increased congruence angle when measured in extension. Increased TT-TG distance was also significantly associated with positive J-sign. Patients with a positive J-sign also had a greater change in their congruence angle when measured with the knee in full extension and at 20° of flexion.

Published

2024

8. Predicting Musculoskeletal Loading at Common Running Injury Locations Using Machine Learning and Instrumented Insoles.

Author

VAN Hooren B, VAN Rengs L, and Meijer K

Subjects

Humans, Male, Female, Biomechanical Phenomena, Adult, Young Adult, Neural Networks, Computer, Patellofemoral Joint injuries, Patellofemoral Joint physiology, Weight-Bearing, Foot Orthoses, Athletic Injuries prevention & control, Shoes, Wearable Electronic Devices, Running injuries, Running physiology, Machine Learning, Achilles Tendon injuries, Achilles Tendon physiology, Tibia injuries, Tibia physiology

Abstract

Introduction: Wearables have the potential to provide accurate estimates of tissue loads at common running injury locations. Here we investigate the accuracy by which commercially available instrumented insoles (ARION; ATO-GEAR, Eindhoven, The Netherlands) can predict musculoskeletal loading at common running injury locations., Methods: Nineteen runners (10 males) ran at five different speeds, four slopes, with different step frequencies, and forward trunk lean on an instrumented treadmill while wearing instrumented insoles. The insole data were used as input to an artificial neural network that was trained to predict the Achilles tendon strain, and tibia and patellofemoral stress impulses and weighted impulses (damage proxy) as determined with musculoskeletal modeling. Accuracy was investigated using leave-one-out cross-validation and correlations. The effect of different input metrics was also assessed., Results: The neural network predicted tissue loading with overall relative percentage errors of 1.95 ± 8.40%, -7.37 ± 6.41%, and -12.8 ± 9.44% for the patellofemoral joint, tibia, and Achilles tendon impulse, respectively. The accuracy significantly changed with altered running speed, slope, or step frequency. Mean (95% confidence interval) within-individual correlations between modeled and predicted impulses across conditions were generally nearly perfect, being 0.92 (0.89 to 0.94), 0.95 (0.93 to 0.96), and 0.95 (0.94 to 0.96) for the patellofemoral, tibial, and Achilles tendon stress/strain impulses, respectively., Conclusions: This study shows that commercially available instrumented insoles can predict loading at common running injury locations with variable absolute but (very) high relative accuracy. The absolute error was lower than the methods that measure only the step count or assume a constant load per speed or slope. This developed model may allow for quantification of in-field tissue loading and real-time tissue loading-based feedback to reduce injury risk., (Copyright © 2024 by the American College of Sports Medicine.)

Published

2024

9. Patellar articular overlap is better associated with patellar alignment during weight-bearing than traditional measures of patellar height.

Author

Demirjian T, Crues J 3rd, Ho KY, Tsai LC, and Powers C

Subjects

Humans, Female, Cross-Sectional Studies, Adult, Young Adult, Range of Motion, Articular physiology, Patella diagnostic imaging, Weight-Bearing physiology, Patellofemoral Joint diagnostic imaging, Patellofemoral Joint physiopathology, Patellofemoral Joint physiology, Magnetic Resonance Imaging

Abstract

Background: A consequence of a high riding patella is reduced osseous stability and malalignment of the patella (i.e., lateral patellar tilt and displacement). Although quantification of patellar height is a routine part of the radiographic examination of the patellofemoral joint, it is not clear which measure of patellar height is best associated with patella alignment., Hypothesis/purpose: To determine if patellar articular overlap (PAO) is better associated with lateral patellar tilt and lateral patellar displacement compared to traditional measures of patellar height., Study Design: Cross-sectional., Methods: Magnetic resonance images were obtained from 50 female participants (21 with patellofemoral pain and 29 healthy controls) under loaded conditions (25-35% bodyweight) at 15-20 degrees of knee flexion. Measurements of lateral patellar tilt and displacement as well as the PAO, Insall-Salvati ratio (ISV), Caton Deschamps-index (CD-index), or the Blacburn Peel-index (BP-index) were obtained from sagittal and axial plane images., Results: The PAO was found to significantly correlated with lateral patellar tilt (r = -0.77, p < 0.001). In contrast, the ISV, CD-index, or the BP-index were not found to be associated with lateral patellar tilt (r = 0.13, p = 0.34; r = -0.14, p = 0.33; r = -0.08, p = 0.56, respectively). Both the PAO and ISV were found to be significantly correlated with lateral patellar displacement (r = -0.52, p < 0.001; r = 0.43, p = 0.002, respectively). Conversely, the CD-index and BP-index were not found to be associated with lateral patellar displacement (r = 0.03 p = 0.83; r = 0.05 p = 0.74, respectively)., Conclusion: Of the measures of patellar height evaluated, the PAO was found to provide the greatest association with lateral patellar tilt and displacement., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

10. Load-Dependent Characteristics of Cruciate-Retaining and Posterior-Stabilized Total Knee Arthroplasty: A Biomechanical Study.

Author

Lee JH, Schwarzkopf R, Fraipont G, Bouzarif G, McGarry MH, and Lee TQ

Subjects

Humans, Aged, Biomechanical Phenomena, Aged, 80 and over, Middle Aged, Adult, Male, Female, Cadaver, Knee Joint surgery, Knee Joint physiology, Knee Prosthesis, Patellofemoral Joint surgery, Patellofemoral Joint physiology, Range of Motion, Articular, Arthroplasty, Replacement, Knee, Weight-Bearing physiology, Posterior Cruciate Ligament surgery

Abstract

Background: Increased load bearing across the patellofemoral and tibiofemoral articulations has been associated with total knee arthroplasty (TKA) complications. Therefore, the purpose of this study was to quantify the biomechanical characteristics of the patellofemoral and tibiofemoral joints and simulate varying weight-bearing demands after posterior cruciate ligament-retaining (CR) and posterior-stabilized (PS) TKAs., Methods: Eight fresh-frozen cadaveric knees (average age, 68.4 years; range, 40-86 years) were tested using a custom knee system with muscle-loading capabilities. The TKA knees were tested with a CR and then a PS TKA implant and were loaded at 6 different flexion angles from 15° to 90° with progressively increasing loads. The independent variables were the implant types (CR and PS TKA), progressively increased loading, and knee flexion angle (KFA). The dependent variables were the patellofemoral and tibiofemoral kinematics and contact characteristics., Results: The results showed that at higher KFAs, the position of the femur translated significantly more posterior in CR implants than in PS implants (36.6 ± 5.2 mm and 32.5 ± 5.7 mm, respectively). The patellofemoral contact force and contact area were significantly greater in PS than in CR implants at higher KFAs and loads (102.4 ± 12.5 N and 88.1 ± 10.9 N, respectively). Lastly, the tibiofemoral contact force was significantly greater in the CR than the PS implant at flexion angles of 45°, 60°, 75°, and 90° KFA, the average at these flexion angles for all loads tested being 246.1 ± 42.1 N and 192.8 ± 54.8 N for CR and PS implants, respectively., Conclusions: In this biomechanical study, CR TKAs showed less patellofemoral contact force, but more tibiofemoral contact force than PS TKAs. For higher loads across the joint and at increased flexion angles, there was significantly more posterior femur translation in the CR design with a preserved posterior cruciate ligament and therefore significantly less patellofemoral contact area and force than in the PS design. The different effects of loading on implants are an important consideration for physicians as patients with higher load demands should consider the significantly greater patellofemoral contact force and area of the PS over the CR design., Competing Interests: CONFLICT OF INTEREST: No potential conflict of interest relevant to this article was reported., (Copyright © 2024 by The Korean Orthopaedic Association.)

Published

2024

11. Time-Resolved Quantification of Patellofemoral Cartilage Deformation in Response to Loading and Unloading via Dynamic MRI With Prospective Motion Correction.

Author

Rovedo P, Meine H, Hucker P, Taghizadeh E, Izadpanah K, Zaitsev M, and Lange T

Subjects

Humans, Male, Adult, Prospective Studies, Patellofemoral Joint diagnostic imaging, Patellofemoral Joint physiology, Motion, Healthy Volunteers, Knee Joint diagnostic imaging, Knee Joint physiology, Image Processing, Computer-Assisted methods, Biomechanical Phenomena, Stress, Mechanical, Magnetic Resonance Imaging methods, Cartilage, Articular diagnostic imaging, Cartilage, Articular physiology, Weight-Bearing physiology

Abstract

Background: In vivo cartilage deformation has been studied by static magnetic resonance imaging (MRI) with in situ loading, but knowledge about strain dynamics after load onset and release is scarce., Purpose: To measure the dynamics of patellofemoral cartilage deformation and recovery in response to in situ loading and unloading by using MRI with prospective motion correction., Study Type: Prospective., Subjects: Ten healthy male volunteers (age: [31.4 ± 3.2] years)., Field Strength/sequence: T1-weighted RF-spoiled 2D gradient-echo sequence with a golden angle radial acquisition scheme, augmented with prospective motion correction, at 3 T., Assessment: In situ knee loading was realized with a flexion angle of approximately 40° using an MR-compatible pneumatic loading device. The loading paradigm consisted of 2 minutes of unloaded baseline followed by a 5-minute loading bout with 50% body weight and an unloading period of 38 minutes. The cartilage strain was assessed as the mean distance between patellar and femoral bone-cartilage interfaces as a percentage of the initial (pre-load) distance., Statistical Tests: Wilcoxon signed-rank tests (significance level: P < 0.05), Pearson correlation coefficient (r)., Results: The cartilage compression and recovery behavior was characterized by a viscoelastic response. The elastic compression ([-12.5 ± 3.1]%) was significantly larger than the viscous compression ([-7.6 ± 1.5]%) and the elastic recovery ([10.5 ± 2.1]%) was significantly larger than the viscous recovery ([6.1 ± 1.8]%). There was a significant residual offset strain ([-3.6 ± 2.3]%) across the cohort. A significant negative correlation between elastic compression and elastic recovery was observed (r = -0.75)., Data Conclusion: The in vivo cartilage compression and recovery time course in response to loading was successfully measured via dynamic MRI with prospective motion correction. The clinical relevance of the strain characteristics needs to be assessed in larger subject and patient cohorts., Level of Evidence: 2 TECHNICAL EFFICACY: Stage 1., (© 2023 The Authors. Journal of Magnetic Resonance Imaging published by Wiley Periodicals LLC on behalf of International Society for Magnetic Resonance in Medicine.)

Published

2024

12. Higher frequency of osteoarthritis in patients with ACL graft rupture than in those with intact ACL grafts 30 years after reconstruction.

Author

Söderman, Tomas, Wretling, Marie-Louise, Hänni, Mari, Mikkelsen, Christina, Johnson, Robert J., Werner, Suzanne, Sundin, Anders, and Shalabi, Adel

Subjects

*ANTERIOR cruciate ligament surgery, *OSTEOARTHRITIS diagnosis, *PATELLOFEMORAL joint physiology, *MAGNETIC resonance imaging, *KNEE physiology

Abstract

Purpose: The aim was to assess the results of anterior cruciate ligament (ACL) reconstruction regarding graft failure, knee laxity, and osteoarthritis (OA) from a longterm perspective. It was hypothesized that intact ACL graft reduces the risk for increased OA development.Methods: The cohort comprised 60 patients with a median follow-up 31 (range 28-33) years after ACL reconstruction. They were evaluated with magnetic resonance imaging, radiography, KT-1000 arthrometer and the pivot shift test.Results: Out of the 60 patients, 30 (50%) showed an intact ACL graft and 30 (50%) a ruptured or absent ACL graft. Patients with ruptured ACL grafts had more medial tibiofemoral compartment OA than those with an intact ACL graft (p = 0.0003). OA was asymmetric in patients with ruptured ACL grafts with more OA in the medial than in the lateral tibiofemoral compartment (p = 0.013) and the patellofemoral compartment (p = 0.002). The distribution of OA between compartments was similar in patients with an intact ACL graft. KT-1000 values of anterior knee laxity were higher in patients with ruptured compared to those with intact ACL grafts (p = 0.012). Side-to-side comparisons of anterior knee laxity showed higher KT-1000 values in patients with ruptured ACL graft (p = 0.0003) and similar results in those with intact graft (p = 0.09). The pivot shift grade was higher in the group with a ruptured ACL graft (p < 0.0001).Conclusions: Median 31 (range 28-33) years after ACL reconstruction, 50% of the patients showed an intact ACL graft and no side-to-side difference regarding anterior knee laxity. Patients with ruptured ACL grafts had more OA of the medial tibiofemoral compartment than those with intact ACL grafts.Level Of Evidence: Retrospective cohort study, Level III. [ABSTRACT FROM AUTHOR]

Published

2020

13. Development of a return to play checklist following patellar instability surgery: a Delphi-based consensus.

Author

White, Alex E., Chatterji, Rishi, Zaman, Saif U., Hadley, Christopher J., Cohen, Steven B., Freedman, Kevin B., and Dodson, Christopher C.

Subjects

*PATELLOFEMORAL joint physiology, *PATELLOFEMORAL joint injuries, *SPORTS injuries, *ATHLETES, *PATELLA, *KNEE

Abstract

Purpose: To date, there is no consensus for the appropriate timing or functional evaluation for safe return to play following patellar instability surgery. The purpose of this study is to develop a consensus-based return to play checklist following patellar stabilization surgery using the Delphi method.Methods: A 3-part survey series was conducted following the systematic guidelines of the Delphi technique for gathering consensus from experts in the management of patellofemoral instability. All surveys were completed between July and November of 2017. A literature search was performed in SCOPUS and PubMed to identify existing sources on return to play following patellar instability surgery and determining patellofemoral joint strength in athletes, which served as the basis for the surveys.Results: 12 of the 19 selected participants (63%) completed the first-round survey, 11 of those 12 participants (92%) completed the second-round survey, and 10 of these 11 participants (91%) completed the final survey. Of the final ten participants, there was representation from seven different states in the USA. Nine of the ten (90%) respondents endorsed the final checklist. The final checklist included eight overarching domains with defined and reproducible objective criteria.Conclusion: The standardized list of objective and reproducible criteria for rehabilitation outlined below should help practitioners focus more on patient-centred factors and less on arbitrary timelines. No prior study has gathered consensus from experts on this topic; therefore, this study should serve as a benchmark to help guide patients back to sport safely.Level Of Evidence: V. [ABSTRACT FROM AUTHOR]

Published

2020

14. 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

15. Comparison of Lower Extremity Kinematic Curves During Overground and Treadmill Running.

Author

Fellin, Rebecca E., Manal, Kurt, and Davis, Irene S.

Subjects

FOOT physiology, KNEE physiology, HIP joint physiology, PATELLOFEMORAL joint physiology, BIOLOGICAL models, DIAGNOSIS, EXERCISE physiology, GAIT in humans, KINEMATICS, LEG, RESEARCH funding, RUNNING, TREADMILLS

Abstract

Researchers conduct gait analyses utilizing both overground and treadmill modes of running. Previous studies comparing these modes analyzed discrete variables. Recently, techniques involving quantitative pattern analysis have assessed kinematic curve similarity in gait. Therefore, the purpose of this study was to compare hip, knee and rearfoot 3-D kinematics between overground and treadmill running using quantitative kinematic curve analysis. Twenty runners ran at 3.35 m/s ± 5% during treadmill and overground conditions while right lower extremity kinematics were recorded. Kinematics of the hip, knee and rearfoot at footstrike and peak were compared using intraclass correlation coefficients. Kinematic curves during stance phase were compared using the trend symmetry method within each subject. The overall average trend symmetry was high, 0.94 ( 1.0 is perfect symmetry) between running modes. The transverse plane and knee frontal plane exhibited lower similarity (0.86-0.90). Other than a 4.5 degree reduction in rearfoot dorsiflexion at footstrike during treadmill running, all differences were ≤1.5 degrees. 17/18 discrete variables exhibited modest correlations (>0.6) and 8/18 exhibited strong correlations (>0.8). In conclusion, overground and treadmill running kinematic curves were generally similar when averaged across subjects. Although some subjects exhibited differences in transverse plane curves, overall, treadmill running was representative of overground running for most subjects. [ABSTRACT FROM AUTHOR]

Published

2010

16. Application of a Full Body Inertial Measurement System in Alpine Skiing: A Comparison With an Optical Video Based System.

Author

Krüger, Andreas and Edelmann-Nusser, Jürgen

Subjects

KNEE physiology, PATELLOFEMORAL joint physiology, BIOMECHANICS, COMPARATIVE studies, GEOGRAPHIC information systems, KINEMATICS, SKIING, SIGNAL processing, PRODUCT design, BODY movement

Abstract

This study aims at determining the accuracy of a full body inertial measurement system in a real skiing environment in comparison with an optical video based system. Recent studies have shown the use of inertial measurement systems for the determination of kinematical parameters in alpine skiing. However, a quantitative validation of a full body inertial measurement system for the application in alpine skiing is so far not available. For the purpose of this study, a skier performed a test-run equipped with a full body inertial measurement system in combination with a DGPS. In addition, one turn of the test-run was analyzed by an optical video based system. With respect to the analyzed angles, a maximum mean difference of 4.9° was measured. No differences in the measured angles between the inertial measurement system and the combined usage with a DGPS were found. Concerning the determination of the skier's trajectory, an additional system (e.g., DGPS) must be used. As opposed to optical methods, the main advantages of the inertial measurement system are the determination of kinematical parameters without the limitation of restricted capture volume, and small time costs for the measurement preparation and data analysis. [ABSTRACT FROM AUTHOR]

Published

2010

17. Kinematic and Kinetic Analysis of the Fouetté Turn in Classical Ballet.

Author

Imura, Akiko, Iino, Yoichi, and Kojima, Takeji

Subjects

KNEE physiology, LEG physiology, ANKLE physiology, HIP joint physiology, PATELLOFEMORAL joint physiology, BALLET, BIOLOGICAL models, DIAGNOSTIC imaging, DYNAMICS, KINEMATICS, PROBABILITY theory, STATISTICAL hypothesis testing, T-test (Statistics), TORQUE, MOTION capture (Human mechanics)

Abstract

The fouetté turn in classical ballet dancing is a continuous turn with the whipping of the gesture leg and the arms and the bending and stretching of the supporting leg. The knowledge of the movement intensities of both legs for the turn would be favorable for the conditioning of the dancer's body. The purpose of this study was to estimate the intensities. The hypothesis of this study was that the intensities were higher in the supporting leg than in the gesture leg. The joint torques of both legs were determined in the turns performed by seven experienced female classical ballet dancers with inverse dynamics using three high-speed cine cameras and a force platform. The hip abductor torque, knee extensor and plantar flexor torques of the supporting leg were estimated to be exerted up to their maximum levels and the peaks of the torques were larger than the peaks of their matching torques of the gesture leg. Thus, the hypothesis was partly supported. Training of the supporting leg rather than the gesture leg would help ballet dancers perform many revolutions of the fouetté turn continuously. [ABSTRACT FROM AUTHOR]

Published

2010

18. Gender Comparisons Between Unilateral and Bilateral Landings.

Author

Weinhandl, Joshua T., Joshi, Mukta, and O'Connor, Kristian M.

Subjects

KNEE physiology, ANKLE physiology, HIP joint physiology, PATELLOFEMORAL joint physiology, ANALYSIS of variance, ANTERIOR cruciate ligament injuries, ATHLETIC ability, COMPARATIVE studies, COMPUTER software, DYNAMICS, RANGE of motion of joints, JUMPING, KINEMATICS, KNEE injuries, PROBABILITY theory, RESEARCH funding, SEX distribution, STATISTICS, DATA analysis, MOTION capture (Human mechanics)

Abstract

The increased number of women participating in sports has led to a higher knee injury rate in women compared with men. Among these injuries, those occurring to the ACL are commonly observed during landing maneuvers. The purpose of this study was to determine gender differences in landing strategies during unilateral and bilateral landings. Sixteen male and 17 female recreational athletes were recruited to perform unilateral and bilateral landings from a raised platform, scaled to match their individual jumping abilities. Three-dimensional kinematics and kinetics of the dominant leg were calculated during the landing phase and reported as initial ground contact angle, ranges of motion (ROM) and peak moments. Lower extremity energy absorption was also calculated for the duration of the landing phase. Results showed that gender differences were only observed in sagittal plane hip and knee ROM, potentially due to the use of a relative drop height versus the commonly used absolute drop height. Unilateral landings were characterized by significant differences in hip and knee kinematics that have been linked to increased injury risk and would best be classified as "stiff" landings. The ankle musculature was used more for impact absorption during unilateral landing, which required increased joint extension at touchdown and may increase injury risk during an unbalanced landing. In addition, there was only an 11% increase in total energy absorption during unilateral landings, suggesting that there was a substantial amount of passive energy transfer during unilateral landings. [ABSTRACT FROM AUTHOR]

Published

2010

19. Quantification of Patellofemoral Joint Reaction Forces During Functional Activities Using a Subject-Specific Three-Dimensional Model.

Author

Chen, Yu-Jen, Scher, Irving, and Powers, Christopher M.

Subjects

KNEE physiology, PATELLOFEMORAL joint physiology, ALGORITHMS, ANALYSIS of variance, BIOLOGICAL models, DIAGNOSIS, ELECTROMYOGRAPHY, GAIT in humans, GROUND reaction forces (Biomechanics), KINEMATICS, MAGNETIC resonance imaging, RUNNING, STATISTICS, INTER-observer reliability, STAIR climbing, MOTION capture (Human mechanics)

Abstract

The purpose of this study was to describe an imaging based, subject specific model that was developed to quantify patellofemoral joint reaction forces (PFJRF's). The secondary purpose was to test the model in a group of healthy individuals while performing various functional tasks. Twenty healthy subjects (10 males, 10 females) were recruited. All participants underwent two phases of data collection: 1) magnetic resonance imaging of the knee, patellofemoral joint, and thigh, and 2) kinematic, kinetic and EMG analysis during walking, running, stair ascent, and stair descent. Using data obtained from MRI, a subject specific representation of the extensor mechanism was created. Individual gait data were used to drive the model (via an optimization routine) and three-dimensional vasti muscle forces and subsequent three-dimensional PFJRF's were computed. The average peak PFJRF was found to be highest during running (58.2 N/kg-bwt), followed by stair ascent (33.9 N/kg-bwt), stair descent (27.9 N/kg-bwt), and walking (10.1 N/kg-bwt). No differences were found between males and females. For all conditions, the direction of the PFJRF was always in the posterior, superior, and lateral directions. The posterior component of the PFJRF always had the greatest magnitude, followed by superior and lateral components. Our results indicate that estimates of the magnitude and direction of the PFJRF during functional tasks can be obtained using a 3D-imaging based model. [ABSTRACT FROM AUTHOR]

Published

2010

20. Patellar Tendinopathy Alters the Distribution of Lower Extremity Net Joint Moments During Hopping.

Author

Souza, Richard B., Arya, Shruti, Pollard, Christine D., Salem, George, and Kulig, Kornelia

Subjects

KNEE physiology, LEG physiology, HIP joint physiology, PATELLOFEMORAL joint physiology, ANALYSIS of variance, ANTHROPOMETRY, BIOMECHANICS, COMPARATIVE studies, COMPUTER software, EXERCISE physiology, GROUND reaction forces (Biomechanics), RANGE of motion of joints, KINEMATICS, MATHEMATICS, MULTIVARIATE analysis, OVERUSE injuries, PATELLA, T-test (Statistics), VOLLEYBALL, DATA analysis, BODY movement, ELITE athletes, REPEATED measures design, MOTION capture (Human mechanics), EVALUATION

Abstract

The purpose of the current investigation was to test the hypothesis that subjects with patellar tendinopathy would demonstrate altered sagittal plane joint moment contributions during hopping tasks. Fourteen subjects (7 patellar tendinopathy, 7 controls) participated. Sagittal net joint moments of the lower extremity, total support moment, and joint contributions to the total support moment were calculated while subjects hopped continuously at a self-selected frequency and at 1.67 Hz. Significant differences were observed for contributions to the total support moment (p = .022). When averaged across hopping frequencies, subjects with patellar tendinopathy demonstrated greater hip contribution (p = .030) and lesser knee contribution (p = .006) compared with the control subjects. Shifting the workload away from the knee and toward the hip may result in a detrimental increase in hip demand and potentially harmful long-term effects on the articular cartilage of the hip. [ABSTRACT FROM AUTHOR]

Published

2010

21. Relationship between trochlear morphology and lateral patellar cartilage defect using MR Imaging.

Author

Duran, Semra and Günaydın, Elif

Subjects

PATELLOFEMORAL joint physiology, CHONDROMALACIA patellae, AGE factors in disease, CARTILAGE, CONTROL groups

Abstract

Copyright of Archives of Clinical & Experimental Medicine is the property of Archives of Clinical & Experimental Medicine and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

22. Dynamic knee valgus kinematics and their relationship to pain in women with patellofemoral pain compared to women with chronic hip joint pain.

Author

Schmidt, Eric, Harris-Hayes, Marcie, and Salsich, Gretchen B.

Subjects

HUMAN kinematics, PATELLOFEMORAL joint physiology, HIP joint physiology

Abstract

Dynamic knee valgus (DKV) is an abnormal movement pattern visually characterized by excessive medial movement of the lower extremity during weight bearing. Differences in hip and knee kinematic components of DKV may explain the emergence of different pain problems in people who exhibit the same observed movement impairment. Using a secondary analysis of exiting data sets, we sought to determine whether hip and knee frontal and transverse plane angles during a functional task differed between women with patellofemoral pain and women with chronic hip joint pain and the relationship between joint-specific kinematics and pain in these 2 pain populations. In the original studies, 3-dimensional hip and knee kinematics during a single-limb squat were obtained in 20 women with patellofemoral pain and 14 women with chronic hip joint pain who demonstrated visually classified DKV. Pain intensity during the squat was assessed in both groups. For the secondary analysis, kinematic data were compared between pain groups using their respective control groups as a reference. Within each pain group, correlation coefficients were used to determine the relationship between kinematics and pain during the squat. Hip adduction and contralateral pelvic drop were greater in those with chronic hip joint pain compared to those with patellofemoral pain (effect sizes ≥0.40). Greater knee external rotation (r = 0.47, p = 0.04) was correlated with greater knee pain in those with patellofemoral pain, while greater hip adduction (r = 0.53, p = 0.05) and greater hip internal rotation (r = 0.55, p = 0.04) were correlated with greater hip pain in those with chronic hip joint pain. Hip frontal plane motion was greater in those with chronic hip joint pain compared to those with patellofemoral pain. In both groups, greater abnormal movement at the respective joint (e.g., knee external rotation in the patellofemoral pain group and hip adduction and internal rotation in the chronic hip joint pain group) was associated with greater pain at that joint during a single-limb squat. [ABSTRACT FROM AUTHOR]

Published

2019

23. High heterogeneity in in vivo instrumented-assisted patellofemoral joint stress testing: a systematic review.

Author

Leal, Ana, Andrade, Renato, Flores, Paulo, Silva, Filipe Samuel, Espregueira-Mendes, João, and Arendt, Elizabeth

Subjects

*PATELLOFEMORAL joint physiology, *PHYSIOLOGICAL stress testing, *IN vivo studies, *RANGE of motion of joints, *MEDICAL equipment, *KNEE physiology, *DATABASES, *JOINT hypermobility, *RESEARCH funding, *PHYSIOLOGICAL stress, *SYSTEMATIC reviews

Abstract

Purpose: Summarize the in vivo instrumented-assisted patellofemoral evaluation methods for quantifying the patellar mobility in response to a known external force.Methods: A systematic review using PubMed, EMBASE, Cochrane Library, and SPORTDiscus electronic databases was conducted to search for studies reporting in vivo instrumented-assisted patellofemoral evaluation of patellar mobility. Searches were conducted in duplicate up to October 2017. Methodologic quality of included articles was assessed using a modified version of the Critical Appraisal Skills Program (CASP) critical appraisal tool.Results: From the original 2614 records, 9 studies comprising 568 individuals (24 ± 4.8 years old, 51.4% females)-355 (62.5%) asymptomatic individuals, 87 (15.3%) patellofemoral pain, and 126 (22.2%) patellofemoral instability patients-were included. The average maximum force applied by the instruments to the patella was 38.9 ± 27.7 N (range 11.25 to 80 N). Patellar displacement ranged from 3.9 to 10.4 mm, medially, and 3.5 to 14.8 mm, laterally, for asymptomatic individuals. For patellofemoral instability patients, these values were higher, ranging from 3.8 to 22.1 mm, medially, and 7.0 to 21.9 mm, laterally, being these mean values similar across the instability subgroups (medial, lateral, or multidirectional). Patellofemoral pain had a mean of 10 mm and 10.9 mm for medial and lateral displacements, respectively. Mean methodological quality score was 9.8 ± 2.6 (range 6-13) out of 18 possible points.Conclusions: There is high heterogeneity within the available instrumented assessment methods and respective measurement outcomes, highlighting the need for better methodological standardization and further developments in this field. This would allow a more accurate and reliable quantification of patellar movement and, subsequently, improve diagnosis, and refine treatment.Level Of Evidence: Systematic review of level II-IV studies, Level IV. [ABSTRACT FROM AUTHOR]

Published

2019

24. In vivo comparison of medialized dome and anatomic patellofemoral geometries using subject‐specific computational modeling.

Author

Ali, Azhar A., Mannen, Erin M., Rullkoetter, Paul J., and Shelburne, Kevin B.

Subjects

*PATELLOFEMORAL joint, *GEOMETRIC analysis, *PATELLOFEMORAL joint physiology, *TOTAL knee replacement, *HEALTH outcome assessment, *COMPUTATIONAL biology, *BIOMECHANICS, *ANATOMY

Abstract

ABSTRACT: Successful outcome following total knee arthroplasty (TKA) with patella resurfacing is partly determined by the restoration of patellofemoral (PF) function and recovery of the quadriceps mechanism. The current study compared two patellar TKA geometries (medialized dome and anatomic) to determine their impact on PF mechanics and quadriceps function. In‐vivo, subject‐specific patellar mechanics were evaluated using a sequential experimental and modeling approach. First, stereo radiography, marker‐based motion capture, and force plate data were collected for TKA patients (10 dome, 10 anatomic) performing a knee extension and lunge. Second, subject‐specific, whole‐body, musculoskeletal models, including 6 degrees‐of‐freedom (DOF) knee joint kinematics, were created for each subject and activity to predict quadriceps forces. Last, finite element models of each subject and activity were created to predict PF kinematics, patellar loading, moment arm, and patellar tendon angle. Differences in mechanics between dome and anatomic patients were highlighted during load‐bearing (lunge) activity. Anatomic subjects demonstrated greater PF flexion angles (avg. 11 ± 3°) compared to dome subjects during lunge. Similar to the natural knee, contact locations on the patella migrated inferior to superior as the knee flexed in anatomic subjects, but remained relatively superior in dome subjects. Differences in kinematics and contact location likely contributed to altered mechanics with anatomic subjects presenting greater load transfer from the quadriceps to the patellar tendon in deep flexion (>75°), and dome subjects demonstrating larger contact forces during lunge. Although there was substantial patient variability, evaluations of PF mechanics suggested improved quadriceps function and more natural kinematics in the anatomic design. © 2018 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 36:1910–1918, 2018. [ABSTRACT FROM AUTHOR]

Published

2018

25. Effect of Loading on In Vivo Tibiofemoral and Patellofemoral Kinematics of Healthy and ACL-Reconstructed Knees.

Author

Kaiser, Jarred M., Vignos, Michael F., Kijowski, Richard, Baer, Geoffrey, and Thelen, Darryl G.

Subjects

*MECHANICAL loads, *PATELLOFEMORAL joint physiology, *HUMAN kinematics, *KNEE physiology, *ANTERIOR cruciate ligament surgery, *IN vivo studies, *TIBIA physiology, *FEMUR physiology, *RANGE of motion of joints, *ANALYSIS of variance, *COMPARATIVE studies, *CONFIDENCE intervals, *DIGITAL image processing, *KINEMATICS, *MAGNETIC resonance imaging, *PROBABILITY theory, *RESEARCH funding, *STATISTICS, *DATA analysis, *REPEATED measures design, *MOTION capture (Human mechanics), *DESCRIPTIVE statistics

Abstract

Background: Although knees that have undergone anterior cruciate ligament reconstruction (ACLR) often exhibit normal laxity on clinical examination, abnormal kinematic patterns have been observed when the joint is dynamically loaded during whole body activity. This study investigated whether abnormal knee kinematics arise with loading under isolated dynamic movements. Hypothesis: Tibiofemoral and patellofemoral kinematics of ACLR knees will be similar to those of the contralateral uninjured control knee during passive flexion-extension, with bilateral differences emerging when an inertial load is applied. Study Design: Controlled laboratory study. Methods: The bilateral knees of 18 subjects who had undergone unilateral ACLR within the past 4 years were imaged by use of magnetic resonance imaging (MRI). Their knees were cyclically (0.5 Hz) flexed passively. Subjects then actively flexed and extended their knees against an inertial load that induced stretch-shortening quadriceps contractions, as seen during the load acceptance phase of gait. A dynamic, volumetric, MRI sequence was used to track tibiofemoral and patellofemoral kinematics through 6 degrees of freedom. A repeated-measures analysis of variance was used to compare secondary tibiofemoral and patellofemoral kinematics between ACLR and healthy contralateral knees during the passive and active extension phases of the cyclic motion. Results: Relative to the passive motion, inertial loading induced significant shifts in anterior and superior tibial translation, internal tibial rotation, and all patellofemoral degrees of freedom. As hypothesized, tibiofemoral and patellofemoral kinematics were bilaterally symmetric during the passive condition. However, inertial loading induced bilateral differences, with the ACLR knees exhibiting a significant shift toward external tibial rotation. A trend toward greater medial and anterior tibial translation was seen in the ACLR knees. Conclusion: This study demonstrates that abnormal knee kinematic patterns in ACLR knees emerge during a simple, active knee flexion-extension task that can be performed in an MRI scanner. Clinical Relevance: It is hypothesized that abnormal knee kinematics may alter cartilage loading patterns and thereby contribute to increased risk for osteoarthritis. Recent advances in quantitative MRI can be used to detect early cartilage degeneration in ACLR knees. This study demonstrates the feasibility of identifying abnormal ACLR kinematics by use of dynamic MRI, supporting the combined use of dynamic and quantitative MRI to investigate the proposed link between knee motion, cartilage contact, and early biomarkers of cartilage degeneration. [ABSTRACT FROM AUTHOR]

Published

2017

26. Surgical treatment of patellar instability: clinical and radiological outcome after medial patellofemoral ligament reconstruction and tibial tuberosity medialisation.

Author

Lobner, Stefan, Krauss, Christine, Reichwein, Frank, Patzer, Thilo, Nebelung, Wolfgang, Venjakob, Arne, and Venjakob, Arne J

Subjects

*PATELLOFEMORAL joint diseases, *PATELLOFEMORAL joint physiology, *PATIENT acceptance of health care, *PATIENT selection, *KNEE injuries, *KNEE injury treatment, *PROGNOSIS, *THERAPEUTICS, *TIBIA surgery, *ARTICULAR ligament surgery, *JOINT hypermobility, *PATELLA, *PLASTIC surgery, *TIBIA, *ARTICULAR ligaments, *RETROSPECTIVE studies, *SURGERY

Abstract

Introduction: The aim of this retrospective study was to analyse clinical and radiological outcome after medial patellofemoral ligament reconstruction (MPFLR) and tibial tuberosity medialisation (TTM) in patients with recurrent patellar instability.Materials and Methods: Thirty-five patients were included between 2008 and 2012. According to defined criteria such as tibial tuberosity-trochlear groove (TTTG) distance, hyperpression on the lateral patella facet and lateral retropatellar cartilage damage either MPFLR (group A) or TTM (group B) was performed: 18 patients underwent TTM, the other 17 patients underwent MPFLR. At a mean of 25.4 ± 9.7 (group A) and 35.2 ± 17.6 months (group B) patients were clinically and radiologically reviewed. Validated knee scores such as Kujala, Lysholm and Tegner score were evaluated.Results: In both groups one patient reported of a non-traumatic patellar redislocation. Patients who underwent MPFLR (group A) had less pain postoperatively during activity according to the Visual Analogue Scale (group A: 2.0 ± 2.1 points, group B: 3.9 ± 2.3 points). Retropatellar cartilage damage increased in group B from grade 1 (range: 1-3) preoperatively to grade 2 (range 1-3) postoperatively (p > 0.05). All other clinically evaluated items, as well as the applied knee scoring systems, indicated no significant difference (p > 0.05) and displayed good to excellent results.Conclusions: MPFLR and TTM leed to good clinical results despite its own indications. For this reason-in selected cases-TTM may still be a suitable procedure for surgical treatment of patellar instability. However, patients treated by TTM (group B) revealed an increased retropatellar cartilage damage as well as significantly more pain during activity. [ABSTRACT FROM AUTHOR]

Published

2017

27. Statistical shape modeling predicts patellar bone geometry to enable stereo-radiographic kinematic tracking.

Author

Smoger, Lowell M., Shelburne, Kevin B., Cyr, Adam J., Rullkoetter, Paul J., and Laz, Peter J.

Subjects

*PATELLOFEMORAL joint physiology, *KNEE, *SUBLUXATION, *ACQUISITION of data, *STATISTICAL shape analysis, *TRANSPLANTATION of organs, tissues, etc.

Abstract

Complications in the patellofemoral (PF) joint of patients with total knee replacements include patellar subluxation and dislocation, and remain a cause for revision. Kinematic measurements to assess these complications and evaluate implant designs require the accuracy of dynamic stereo-radiographic systems with 3D-2D registration techniques. While tibiofemoral kinematics are typically derived by tracking metallic implants, PF kinematic measurements are difficult as the patellar implant is radiotransparent and a representation of the resected patella bone requires either pre-surgical imaging and precise implant placement or post-surgical imaging. Statistical shape models (SSMs), used to characterize anatomic variation, provide an alternative means to obtain the representation of the resected patella for use in kinematic tracking. Using a virtual platform of a stereo-radiographic system, the objectives of this study were to evaluate the ability of an SSM to predict subject-specific 3D implanted patellar geometries from simulated 2D image profiles, and to formulate an effective data collection methodology for PF kinematics by considering accuracy for a variety of patient pose scenarios. An SSM of the patella was developed for 50 subjects and a leave-one-out approach compared SSM-predicted and actual geometries; average 3D errors were 0.45 ± 0.07 mm (mean ± standard deviation), which is comparable to the accuracy of traditional segmentation. Further, initial imaging of the patella in five unique stereo radiographic perspectives yielded the most accurate representation. The ability to predict the remaining patellar geometry of the implanted PF joint with radiographic images and SSM, instead of CT, can reduce radiation exposure and streamline in vivo kinematic evaluations. [ABSTRACT FROM AUTHOR]

Published

2017

28. Accuracy of mobile biplane X-ray imaging in measuring 6-degree-of-freedom patellofemoral kinematics during overground gait.

Author

Gray, Hans A., Guan, Shanyuanye, and Pandy, Marcus G.

Subjects

*PATELLOFEMORAL joint physiology, *PATELLAR tendon, *X-ray imaging, *VOLUMETRIC analysis, *BIOMECHANICS

Abstract

The aim of this study was to evaluate the accuracy with which mobile biplane X-ray imaging can be used to measure patellofemoral kinematics of the intact knee during overground gait. A unique mobile X-ray imaging system tracked and recorded biplane fluoroscopic images of two human cadaver knees during simulated overground walking at a speed of 0.7 m/s. Six-degree-of-freedom patellofemoral kinematics were calculated using a bone volumetric model-based method and the results then compared against those derived from a gold-standard bead-based method. RMS errors for patellar anterior translation, superior translation and lateral shift were 0.19 mm, 0.34 mm and 0.37 mm, respectively. RMS errors for patellar flexion, lateral tilt and lateral rotation were 1.08°, 1.15° and 1.46°, respectively. The maximum RMS error for patellofemoral translations was approximately one-half that reported previously for tibiofemoral translations using the same mobile X-ray imaging system while the maximum RMS error for patellofemoral rotations was nearly two times larger than corresponding errors reported for tibiofemoral rotations. The lower accuracy in measuring patellofemoral rotational motion is likely explained by the symmetric nature of the patellar geometry and the smaller size of the patella compared to the tibia. [ABSTRACT FROM AUTHOR]

Published

2017

29. Surface Area of Patellar Facets: Inferential Statistics in the Iraqi Population.

Author

Al-Imam, Ahmed, Al-Zamili, Zaid, and Omar, Rawan

Subjects

*PATELLA, *BIOMECHANICS, *PATELLOFEMORAL joint physiology, *KNEE surgery, *ARTIFICIAL implants, *PHYSIOLOGY, DESIGN & construction

Abstract

Background. The patella is the largest sesamoid bone in the body; its three-dimensional complexity necessitates biomechanical perfection. Numerous pathologies occur at the patellofemoral unit which may end in degenerative changes. This study aims to test the presence of statistical correlation between the surface areas of patellar facets and other patellar morphometric parameters. Materials and Methods. Forty dry human patellae were studied. The morphometry of each patella was measured using a digital Vernier Caliper, electronic balance, and image analyses software known as ImageJ. The patellar facetal surface area was correlated with patellar weight, height, width, and thickness. Results. Inferential statistics proved the existence of linear correlation of total facetal surface area and patellar weight, height, width, and thickness. The correlation was strongest for surface area versus patellar weight. The lateral facetal area was found persistently larger than the medial facetal area, the p value was found to be <0.001 (one-tailed t-test) for right patellae, and another significant p value of < 0.001 (one-tailed t-test) was found for left patellae. Conclusion. These data are vital for the restoration of the normal biomechanics of the patellofemoral unit; these are to be consulted during knee surgeries and implant designs and can be of an indispensable anthropometric, interethnic, and biometric value. [ABSTRACT FROM AUTHOR]

Published

2017

30. Lower Patellofemoral Joint Contact Force During Side-Step Cutting After Return-to-Sports Clearance Following Anterior Cruciate Ligament Reconstruction.

Author

San Jose AJ, Maniar N, Whiteley R, Opar DA, Timmins RG, and Kotsifaki R

Subjects

Humans, Male, Return to Sport, Biomechanical Phenomena, Knee Joint surgery, Patellofemoral Joint surgery, Patellofemoral Joint physiology, Anterior Cruciate Ligament Injuries surgery, Osteoarthritis, Knee surgery, Anterior Cruciate Ligament Reconstruction methods

Abstract

Background: Low patellofemoral joint (PFJ) contact force has been associated with PFJ osteoarthritis. Quadriceps force and knee flexion angles, which are typically altered after an anterior cruciate ligament reconstruction (ACLR), primarily influence PFJ contact forces. It is still inconclusive whether differences in PFJ contact forces are present during high knee flexion tasks such as side-step cutting after clearance to return to sports (RTS) after ACLR., Purpose: To explore PFJ contact forces in the ACLR limb and compare them with those of the contralateral and control limbs during side-step cutting tasks after clearance to RTS., Study Design: Controlled laboratory study., Methods: A total of 26 male athletes with ACLR who were previously cleared to RTS were matched with 23 healthy men serving as the control group. Three-dimensional motion capture and force plate data were collected while both groups performed anticipated side-step cutting tasks. Joint kinematics, kinetics, muscle forces, and PFJ contact forces were calculated using musculoskeletal modeling., Results: Peak PFJ force was lower in the ACLR limbs compared with the contralateral limbs (mean difference [MD], 5.89 body weight [BW]; 95% CI, 4.7-7.1 BW; P < .001) and the control limbs (MD, 4.44 BW; 95% CI, 2.1-6.8 BW; P < .001). During peak PFJ force, knee flexion angle was lower in ACLR limbs compared with the contralateral (MD, 4.88°; 95% CI, 3.0°-6.7°; P < .001) and control (MD, 6.01°; 95% CI, 2.0°-10.0°; P < .002) limbs. A lower quadriceps force compared with the contralateral (MD, 4.14 BW; 95% CI, 3.4-4.9 BW; P < .001) and control (MD, 2.83 BW; 95% CI, 1.4-4.3 BW; P < .001) limbs was also found., Conclusion: Lower PFJ contact forces and a combination of quadriceps force deficits and smaller knee flexion angle were found in the ACLR compared with the contralateral and control limbs even after clearance to RTS., Clinical Relevance: Despite rehabilitation and subsequent clearance to RTS, differences in PFJ contact forces are present after ACLR. Current rehabilitation and RTS battery may not be effective and sensitive enough to identify and address these differences.

Published

2023

31. Normal patellofemoral kinematic patterns during daily activities in dogs.

Author

Moore, Erica J., Kim, Stanley E., Banks, Scott A., Pozzi, Antonio, Coggeshall, Jason D., and Jones, Stephen C.

Subjects

*PATELLOFEMORAL joint physiology, *MAMMAL kinematics, *LAMENESS in dogs, *PAIN in animals, *BIOMECHANICS

Abstract

Background: Patellar abnormalities are a common cause of pain and lameness in dogs; however, in vivo the relative motion between the femur and patella in dogs is not well described. The objective of this study was to define normal in vivo sagittal plane patellofemoral kinematics in three axes of motion using non-invasive methods. We hypothesized patellofemoral alignment in the sagittal plane would tightly correlate with the femorotibial flexion angle. Six healthy dogs without orthopedic disease underwent computed tomography (CT) of their hind limbs to create 3-D models of the patella and femur. Normal stifle joint motion was captured via flat-panel imaging while each dog performed a series of routine activities, including sitting, walking, and trotting. The 3-D models of the patella and femur were digitally superimposed over the radiographic images with shape-matching software and the precise movement of the patella relative to the femur was calculated. Results: As the femorotibial joint flexed, the patellofemoral joint also flexed and the patella moved caudally and distally within the femoral trochlea during each activity. Patellar flexion and distal translation during walk and sit were linearly coupled with the femorotibial flexion angle. Offset was evident while trotting, where patella poses were significantly different between early and late swing phase (p = 0.003). Patellar flexion ranged from 51 to 6° while trotting. The largest flexion angle (92°) occurred during sit. The patella traversed the entire proximodistal length of the femoral trochlea during these daily activities. Conclusions: Using single-plane flat-panel imaging, we demonstrated normal in vivo patellofemoral kinematics is tightly coupled with femorotibial kinematics; however, trot kinematic patterns did not follow the path defined by walking and stand-to-sit motions. Our normal data can be used in future studies to help define patellofemoral joint kinematics in dogs with stifle abnormalities. [ABSTRACT FROM AUTHOR]

Published

2016

32. Characterization of patellar maltracking using dynamic kinematic CT imaging in patients with patellar instability.

Author

Tanaka, Miho, Elias, John, Williams, Ariel, Demehri, Shadpour, Cosgarea, Andrew, Tanaka, Miho J, Elias, John J, Williams, Ariel A, and Cosgarea, Andrew J

Subjects

*PATELLAR tendon, *COMPUTED tomography, *PATELLOFEMORAL joint physiology, *PATELLA, *JOINT hypermobility, *PHYSIOLOGY, *THERAPEUTICS

Abstract

Purpose: Little has been reported on the relationship between patellar maltracking and instability. Patellar maltracking has been subjectively described with the "J sign" but is difficult to assess objectively using traditional imaging. Dynamic kinematic computed tomography (DKCT) allows dynamic assessment of the patellofemoral joint. DKCT was used to visualize and quantify patellar maltracking patterns, and severity of maltracking was correlated with the presence or absence of patellar instability symptoms.Methods: Seventy-six knees in 38 patients were analysed using DKCT. Maltracking was defined as deviation of the patella from the trajectory of the trochlear groove and was characterized by patellar bisect offset, which was measured at 10° intervals of knee flexion during active flexion and extension. Bisect offset measurements were grouped by number of quadrants of maximum lateral patellar motion, with one, two, and three quadrants corresponding to 75-99, 100-125, and >125 %, respectively. Patellar instability symptoms were correlated with maltracking severity.Results: Two knees were excluded because of poor imaging quality. Fifty of 74 knees had patellar instability, and 13 patients had bilateral symptoms. Of these, four (8 %) had normal tracking patterns; 41 (82 %) had increased lateral translation in extension, which we termed the J-sign pattern; 4 (8 %) had persistent lateralization of the patella throughout range of motion; and 1 had increased lateral translation in flexion. In knees with the J-sign pattern, degree of maltracking was graded by severity: J1 (n = 24), J2 (n = 19), and J3 (n = 15). The sensitivities of J-sign grades in predicting patellar instability symptoms were 50 % (J1), 80 % (J2), and 93 % (J3) (p < 0.01). There were significant differences in sensitivity between knees with no J sign or J1 versus J2 or J3 (p = 0.02).Conclusion: DKCT showed several patellar maltracking patterns in patients with patellar instability. A J-sign pattern with more than two quadrants of lateral translation correlated with the presence of patellar instability symptoms. Incorporation of this approach of objectively quantifying maltracking patterns is recommended in the evaluation of patellofemoral instability.Level Of Evidence: IV. [ABSTRACT FROM AUTHOR]

Published

2016

33. Structural Abnormalities on Magnetic Resonance Imaging in Patients With Patellofemoral Pain.

Author

van der Heijden, Rianne A., de Kanter, Janneke L. M., Bierma-Zeinstra, Sita M. A., Verhaar, Jan A. N., van Veldhoven, Peter L. J., Krestin, Gabriel P., Oei, Edwin H. G., and van Middelkoop, Marienke

Subjects

*PATELLOFEMORAL joint injuries, *JOINT pain, *PATELLOFEMORAL joint, *PATELLOFEMORAL joint physiology, *KNEE, *MAGNETIC resonance imaging, *CROSS-sectional method, *PLICA syndrome, *CASE-control method, *DISEASE progression

Abstract

Background: Structural abnormalities of the patellofemoral joint might play a role in the pathogenesis of patellofemoral pain (PFP), a common knee problem among young and physically active individuals. No previous study has investigated if PFP is associated with structural abnormalities of the patellofemoral joint using high-resolution magnetic resonance imaging (MRI). Purpose: To investigate the presence of structural abnormalities of the patellofemoral joint on high-resolution MRI in patients with PFP compared with healthy control subjects. Study Design: Cross-sectional study; Level of evidence, 3. Methods: Patients with PFP and healthy control subjects between 14 and 40 years of age underwent high-resolution 3-T MRI. All images were scored using the Magnetic Resonance Imaging Osteoarthritis Knee Score with the addition of specific patellofemoral features. Associations between PFP and the presence of structural abnormalities were analyzed using logistic regression analyses adjusted for age, body mass index (BMI), sex, and sports participation. Results: A total of 64 patients and 70 control subjects were included in the study. Mean ± SD age was 23.2 ± 6.4 years, mean BMI ± SD was 22.9 ± 3.4 kg/m2, and 56.7% were female. Full-thickness cartilage loss was not present. Minor patellar cartilage defects, patellar bone marrow lesions, and high signal intensity of the Hoffa fat pad were frequently seen in both patients (23%, 53%, and 58%, respectively) and control subjects (21%, 51%, and 51%, respectively). After adjustment for age, BMI, sex, and sports participation, none of the structural abnormalities were statistically significantly associated with PFP. Conclusion: Structural abnormalities of the patellofemoral joint have been hypothesized as a factor in the pathogenesis of PFP, but the study findings suggest that structural abnormalities of the patellofemoral joint on MRI are not associated with PFP. [ABSTRACT FROM AUTHOR]

Published

2016

34. THE ANALYSIS OF PATELLA FEMORAL (Q) ANGLE’S CORRELATION BETWEEN LEG STRENGTH AND BALANCE IN ATHLETES.

Author

Hazar, Kürşat, Gürsoy, Recep, and Günay, Ahmet Rahmi

Subjects

PATELLOFEMORAL joint physiology, ATHLETES, PHYSICAL fitness

Abstract

Copyright of Nigde University Journal of Physical Education & Sport Sciences / Nigde Üniversitesi Beden Egitimi ve Spor Bilimleri Dergisi is the property of Journal of Physical Education & Sports Science and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2016

35. The patellofemoral joint alignment in patients with symptomatic accessory navicular bone.

Author

Kalbouneh, Heba M., Alkhawaldah, Abdullah O., Alajoulin, Omar A., and Alsalem, Mohammad I.

Subjects

*PATELLOFEMORAL joint physiology, *PATELLOFEMORAL joint, *JOINT physiology, *NAVICULAR disease, *CLINICAL medicine, *ANATOMY

Abstract

Quadriceps angle (Q angle) provides useful information about the alignment of the patellofemoral joint. The aim of the present study was to assess a possible link between malalignment of the patellofemoral joint and symptomatic accessory navicular (AN) bone as an underlying cause in early adolescence using Q angle measurements. This study was performed on patients presenting to the Foot and Ankle Clinic at the Jordanian Royal Medical Services because of pain on the medial side of the foot that worsened with activities or shoe wearing, with no history of knee pain, between September 2013 and April 2015. The Q angle was measured using a goniometer in 27 early adolescents aged 10-18 years diagnosed clinically and radiologically with symptomatic AN bone, only seven patients had associated pes planus deformity; the data were compared with age appropriate normal arched feet without AN. Navicular drop test (NDT) was used to assess the amount of foot pronation. The mean Q angle value among male and female patients with symptomatic AN with/without pes planus was signifcantly higher than in controls with normal arched feet without AN (p<0.05). Symptomatic AN feet were also associated with higher NDT values (p<0.001). The present fndings suggest an early change in patellofemoral joint alignment in patients with symptomatic AN bone with/without arch collapse. Therefore, it is recommended that Q angle assessment should be an essential component of the examination in patients with symptomatic AN bone. [ABSTRACT FROM AUTHOR]

Published

2016

36. Biomechanical Comparison of 3 Medial Patellofemoral Complex Reconstruction Techniques Shows Medial Overconstraint but No Significant Difference in Patella Lateralization and Contact Pressure.

Author

Dahm F, Syed H, Tomescu S, Lin HA, Haimovich Y, Chandrashekar N, Whyne C, and Wasserstein D

Subjects

Humans, Biomechanical Phenomena, Knee Joint surgery, Tendons, Ligaments, Articular surgery, Cadaver, Patella surgery, Patellofemoral Joint surgery, Patellofemoral Joint physiology

Abstract

Purpose: The purpose of this study was to investigate biomechanical differences of medial patellofemoral ligament (MPFL) reconstruction, medial quadriceps tendon femoral ligament (MQTFL) reconstruction, and a combination of these techniques to restore lateral patellar constraint and contact pressures., Methods: Eight fresh frozen cadaver knees were mounted to a custom jig with physiological quadriceps tendon loading. Flexion angles and contact pressure (CP) were dynamically measured using Tekscan® pressure sensors and Polhemus® Liberty 6 degree of freedom (6DOF) positioning sensors in the following conditions: 1) intact 2) MPFL and MQTFL deficient, 3) MPFL reconstructed, 4) Combined MPFL + MQTFL reconstructed, and 5) MQTFL reconstructed. Lateral patellar translation was tested using horizontally directed 30 N force applied at 30° of knee flexion. The knees were flexed in dynamic fashion, and CP values were recorded for 10°, 20°, 30°, 50°, 70°, and 90° degrees of flexion. Group differences were assessed with ANOVA's followed by pairwise comparisons with Bonferroni correction., Results: MPFL (P = .002) and combined MPFL/MQTFL (P = .034) reconstruction significantly reduced patellar lateralization from +19.28% (9.78%, 28.78%) in the deficient condition to -17.57% (-27.84%, -7.29%) and -15.56% (-33.61%, 2.30%), respectively. MPFL reconstruction was most restrictive and MQTFL reconstruction the least -7.29% (-22.01%, 7.45%). No significant differences were found between the three reconstruction techniques. Differences in CP between the three reconstruction techniques were not significant (<.02 MPa) at all flexion angles., Conclusion: The present study found no significant difference for patellar lateralization and patellofemoral CP between MPFL, combined MPFL/MQTFL, and MQTFL reconstruction. All 3 techniques resulted in stronger lateral patellar constraint compared to the native state, while the MQTFL reconstruction emulated the intact state the closest., Clinical Relevance: Various surgical techniques for medial patellofemoral complex reconstruction can restore patellar stability with similar patellofemoral articular pressures., (Copyright © 2022 Arthroscopy Association of North America. Published by Elsevier Inc. All rights reserved.)

Published

2023

37. No difference in anterior knee pain after medial unicompartmental knee arthroplasty in patients with or without patellofemoral osteoarthritis.

Author

Song, Eun-Kyoo, Park, Ju-Kwon, Park, Chan-Hee, Kim, Min-Cheol, Agrawal, Pranav, Seon, Jong, Agrawal, Pranav R, and Seon, Jong Keun

Subjects

*KNEE pain, *TOTAL knee replacement, *PATELLOFEMORAL joint physiology, *OSTEOARTHRITIS, *ORTHOPEDIC surgery complications, *ARTIFICIAL joints, *CONVALESCENCE, *KNEE, *KNEE diseases, *TREATMENT effectiveness, *JOINT pain

Abstract

Purpose: The purpose of the present study was to compare functional outcomes of medial unicompartmental knee arthroplasty (UKA) in patients with patellofemoral osteoarthritis (PF OA) and those without PF OA and to evaluate the effect of PF OA on functional outcomes after UKA.Methods: The outcomes of 48 knees in patients without PF OA who underwent medial UKA (non-PF OA group) were compared to the outcomes of 57 knees in patients with PF OA [Kellgren-Lawrence (K-L) grade ≤ 2] who underwent medial UKA (PF OA group) with a median follow-up of 5.4 years (range 3.1-10.2 years). Clinical outcomes including anterior knee pain, HSS scores, radiological parameters, and the progression of patellofemoral osteoarthritis were compared, and their effects on functional outcomes were evaluated at the final follow-up visits.Results: At final follow-up visits, no significant inter-group difference was found in terms of anterior knee pain (1.9 vs. 1.9 in non-PF OA and PF OA groups, respectively), HSS score, or range of motion. Preoperative anterior knee pain and patellofemoral joint degeneration were found to be unrelated to poor outcome in patients that underwent medial UKA. Furthermore, no correlation was found between any functional outcome variable and chondral lesion pattern.Conclusions: The result of UKA for medial unicompartmental knee osteoarthritis was excellent regardless of PF OA (K-L grade ≤ 2). Hence, the patients with medial unicompartmental OA combined with a moderate degree of anterior knee pain or patellofemoral arthritis should be viewed as appropriate candidates for medial UKA.Level Of Evidence: III. [ABSTRACT FROM AUTHOR]

Published

2016

38. Fracture of the Tibial Baseplate in Bicompartmental Knee Arthroplasty.

Author

Stuyts, Bart, Vandenberghe, Melanie, Van der Bracht, Hans, Fortems, Yves, Van den Eeden, Elke, and Cuypers, Luc

Subjects

*TOTAL knee replacement, *METALS in surgery, *FRACTURE fixation, *KNEE diseases, *PATELLOFEMORAL joint physiology, *PATIENTS

Abstract

Introduction. Bicompartmental knee arthroplasty (BKA) addresses combined medial and patellofemoral compartment osteoarthritis, which is relatively common, and has been proposed as a bridge between unicompartmental and total knee arthroplasty (TKA). Case Presentation. We present the case report of a young active man treated with BKA after unsuccessful conservative therapy. Four years later, loosening with fracture of the tibial baseplate was identified and the patient was revised to TKA. Discussion. Although our case is only the second fractured tibial baseplate to be reported, we believe that the modular titanium design, with two fixation pegs, is too thin to withstand daily cyclic loading powers. Light daily routine use, rather than high-impact sports, is therefore advised. Failures may also be related to the implant being an early generation and known to be technically complex, with too few implant sizes. We currently use TKA for the treatment of medial and patellofemoral compartment osteoarthritis. [ABSTRACT FROM AUTHOR]

Published

2015

39. Sex differences in running mechanics and patellofemoral joint kinetics following an exhaustive run.

Author

Willson, John D., Loss, Justin R., Willy, Richard W., and Meardon, Stacey A.

Subjects

*GENDER differences (Psychology), *PHYSIOLOGICAL aspects of running, *HUMAN mechanics, *HUMAN kinematics, *PATELLOFEMORAL joint physiology

Abstract

Patellofemoral joint pain (PFP) is a common running-related injury that is more prevalent in females and thought to be associated with altered running mechanics. Changes in running mechanics have been observed following an exhaustive run but have not been analyzed relative to the sex bias for PFP. The purpose of this study was to test if females demonstrate unique changes in running mechanics associated with PFP following an exhaustive run. For this study, 18 females and 17 males ran to volitional exhaustion. Peak PFJ contact force and stress, PFJ contact force and stress loading rates, hip adduction excursion, and hip and knee joint frontal plane angular impulse were analyzed between females and males using separate 2 factor ANOVAs (2 (male/female)×2 (before/after exhaustion)). We observed similar changes in running mechanics among males and females over the course of the exhaustive run. Specifically, greater peak PFJ contact force loading rate (5%, P =.01), PFJ stress loading rate (5%, P <.01), hip adduction excursion (1.3°, P <.01), hip abduction angular impulse (4%, P <.01), knee abduction angular impulse (5%, P =.03), average vertical ground reaction force loading rate (10%, P <.01) and step length (2.1 cm, P =.001) were observed during exhausted running. These small changes in suspected PFP pathomechanical factors may increase a runner׳s propensity for PFP. However, unique changes in female running mechanics due to exhaustion do not appear to contribute to the sex bias for PFP. [ABSTRACT FROM AUTHOR]

Published

2015

40. Effect of change in patellofemoral joint contact area by the decrease in vastus medialis muscle activation on joint stress.

Author

Tomoya T, Mutsuaki E, Takuma I, and Masayoshi K

Subjects

Humans, Quadriceps Muscle, Biomechanical Phenomena, Knee Joint physiology, Patellofemoral Joint physiology, Patellofemoral Pain Syndrome

Abstract

Purpose: Patellofemoral pain syndrome is a common orthopedic trauma among runners. It is unclear whether patellofemoral joint stress (PFJS) is the highest (or lowest) when the knee joint flexion angle and extension moment are in combination under the condition that vastus medialis (VM) activation decreases. This study aimed to investigate the effects of changes in the PFJ contact area by decreasing the activation of the VM muscle on PFJS., Methods: A PFJ sagittal model was used to quantify PFJ reaction force and PFJS. The PFJ model and mathematical modelling procedure were used to quantify PFJS based on previous studies. The simulation ranges were set to knee joint flexion angles of 10-45° and extension moments of 0-240 Nm. PFJS was calculated for the normal condition (NC) and decrease condition (DC) in VM activation., Results: When the knee joint angle and knee joint moment were at the maximum, the PFJS showed the maximum value under both conditions (NC; 14.9 N/cm2, DC; 16.4 N/cm2). PFJS was found to be higher in DC than that in NC for all simulation ranges., Conclusion: Decreased VM activation may be involved in the mechanism of patellofemoral pain syndrome. In addition, the results of this study provide evidence that clinicians can enhance VM to relieve pain in patients with patellofemoral pain syndrome.

Published

2023

41. Variation in patellofemoral kinematics due to changes in quadriceps loading configuration during in vitro testing.

Author

Shalhoub, Sami and Maletsky, Lorin P.

Subjects

*KINEMATICS, *QUADRICEPS muscle physiology, *MECHANICAL loads, *PATELLOFEMORAL joint physiology, *SAGITTAL curve

Abstract

This study investigated changes in patellofemoral (PF) kinematics for different loading configurations of the quadriceps muscle: single line of action (SL), physiological-based multiple lines of action (ML), weak vastus medialis (WVM), and weak vastus lateralis (WVL). Fourteen cadaveric knees were flexed from 15° to 120° knee flexion using a loading rig with the ability to load different heads of the quadriceps and hamstring muscles in their anatomical orientation. PF rotation in the sagittal plane) and medial lateral translation were significantly different (p < 0.05) for SL and ML, with maximum differences of 2.8° and 0.9 mm at 15° and 45° knee flexion, respectively. Compared to the ML, the WVM induced an average lateral shift of 1.5 mm and an abduction rotation of 0.8°, whereas a 0.9 mm medial shift and 0.6° adduction rotation was seen when simulating a WVL. The difference in the sagittal plane resultant force orientation of 26° between SL and ML was the major contributor to the change in PF rotation in the sagittal plane, while the difference in the frontal plane resultant force orientation of both the WVM and WVL from the ML (17° medial and 8° lateral, respectively) were the primary reasons for the change in PF frontal plane rotation and medial lateral translation. The two PF kinematic were significantly different from the ML for WVM and WVL (p < 0.05). The results suggest that quadriceps muscle loading configuration can have a large influence on PF kinematics during full extension but less in deeper flexion. Therefore, using quadriceps single line loading for simulating activities with low flexion angles might not be sufficient to accurately replicate the physiological condition. [ABSTRACT FROM AUTHOR]

Published

2014

42. Patellar Fracture After Medial Patellofemoral Ligament Surgery. A Report of Five Cases.

Author

Parikh, Shital N. and Wall, Eric J.

Subjects

*TENDON surgery, *FRACTURE fixation complications, *PATELLA injuries, *PATELLOFEMORAL joint physiology, *ORTHOPEDIC surgery complications, *MEDICAL rehabilitation, *KNEE injuries, *MAGNETIC resonance imaging, *PHYSICAL therapy

Abstract

The article presents five case reports of patients experiencing fractures of the patella following medial patellofemoral ligament (MPFL) reconstruction or repair surgery. Topics include the use of grafts and fixation methods, rehabilitation and physical therapy, and radiography and magnetic resonance imaging (MRI) of the patellar fractures. Also noted are treatment and rehabilitation protocols for patellar fracture.

Published

2011

43. Medical Imaging and Osteoarthritis of the Knee.

Author

SHAGAM, JANET YAGODA

Subjects

THERAPEUTIC use of glucocorticoids, KNEE physiology, OSTEOARTHRITIS diagnosis, SURGERY, RHEUMATOID arthritis diagnosis, PATELLOFEMORAL joint physiology, KNEE surgery, MAGNETIC resonance imaging, KNEE anatomy, PATELLOFEMORAL joint, ACETAMINOPHEN, AGING, ALTERNATIVE medicine, ARTHROSCOPY, ARTIFICIAL joints, BIOMARKERS, REGULATION of body weight, CHRONIC pain, DIFFERENTIAL diagnosis, CLINICAL pathology, EXERCISE, GLUCOCORTICOIDS, KNEE diseases, MEDICAL history taking, NONSTEROIDAL anti-inflammatory agents, OSTEOARTHRITIS, PATIENT positioning, PHYSICAL diagnosis, RADIOGRAPHY, RADIONUCLIDE imaging, RISK assessment, HEALTH self-care, SURGICAL complications, SYNOVIAL fluid, POSITRON emission tomography, TOTAL knee replacement, CONTINUING education units, SEVERITY of illness index, ANATOMY, DIAGNOSIS, DISEASE risk factors

Abstract

Studies indicate that by 2030, more than 67 million people in the United States will have osteoarthritis. Of these, many will have osteoarthritis in weight-bearing joints such as the knees. Currently, people rely on behavioral modifications, medication, and surgery to reduce pain and to improve mobility. However, with recent focus on osteoarthritis prevention and articular cartilage restoration, other options may become available. Finding new ways to prevent and treat osteoarthritis include contributions from researchers, clinicians, physical therapists, materials and computer scientists, bioengineers, and medical imaging professionals. Radiography and magnetic resonance imaging can play an important role in helping clinicians diagnose, treat, and monitor patients with osteoarthritis. [ABSTRACT FROM AUTHOR]

Published

2011

44. Valgus Plus Internal Rotation Moments Increase Anterior Cruciate Ligament Strain More Than Either Alone.

Author

SHIN, CHOONGSOO S., CHAUDHARI, AJIT M., and ANDRIACCHI, THOMAS P.

Subjects

*KNEE physiology, *PATELLOFEMORAL joint physiology, *ANTERIOR cruciate ligament injuries, *COMPUTER simulation, *HUMAN anatomical models, *RANGE of motion of joints, *RESEARCH funding, *INJURY risk factors

Abstract

SHIN, C. S., A. M. CHAUDHARJ, and T. P. ANDRIACCHI. Valgus Plus Internal Rotation Moments Increase Anterior Cruciate Ligament Strain More Than Either Alone. Med. Sci. Sports Exerc, Vol. 43, No. 8, pp. 1484-1491,2011. Purpose: To test the influence of combined knee valgus and interna] tibial rotation moment on anterior cruciate ligament (ACL) strain during single-leg landing. We tested the following hypotheses: the combination of the valgus and internal rotation moments observed during single-leg landing produces a higher ACL strain than either moment applied individually, the combined rotational moments at the physiological levels observed could theoretically increase strain in the ACL high enough to rupture the ACL, and the location of the peak contact force was at the posterior-lateral side for combined loading. Methods: The study was conducted by applying in vivo human loading data to a validated simulation model of the three-dimensional dynamic knee joint to predict ACL strains. Results: The peak ACL strain increased nonlinearly when either applied valgus moment or internal rotation moment was increased in the model. When the two rotational moments were applied individually, neither caused ACL strain >0.077. However, when applied in combination, the two rotational moments had a much larger effect, and the predicted peak ACL strain increased up to 0.105. During landing, the peak contact force occurred at the posterior-lateral side of the tibial cartilage in the model when the combined maximum valgus moment and tibial internal rotation moments were applied. Conclusions: Combined knee valgus and internal rotation moments increases ACL strain more than either alone. The combination of a valgus and internal rotational moment at magnitudes that occurs in vivo during landing can cause ACL strains that may be high enough to cause ACL rupture. This predicted high ACL strain and the contact force location suggest that combined valgus and internal tibial rotational moments during single-leg landing are relevant to ACL injuries. [ABSTRACT FROM AUTHOR]

Published

2011

45. Correlation of axial impact forces with knee joint forces and kinematics during simulated ski-landing.

Author

Yeow, Chen-Hua, Kong, Chin-Yang, Lee, PeterVee-Sin, and Goh, JamesCho-Hong

Subjects

*KNEE physiology, *PATELLOFEMORAL joint physiology, *ANALYSIS of variance, *ANTERIOR cruciate ligament, *ANTERIOR cruciate ligament injuries, *STATISTICAL correlation, *DEAD, *KINEMATICS, *SKIING, *PROBABILITY theory, *STATISTICS, *DATA analysis, *REPEATED measures design

Abstract

Anterior cruciate ligament (ACL) rupture, during ski-landing, is caused by excessive knee joint forces and kinematics, like anterior tibial translation, internal tibial rotation, and valgus rotation. It is not well understood how these forces/kinematics are directly related to ski-landing impact. In the present study, we applied simulated ski-landing impact to knee specimens, and examined joint force/kinematic responses and their correlations with impact force. Ten human cadaveric knees were subjected to axial impact loading at 70° of flexion to simulate ski-landing impact. Impact was repeated with incremental magnitude until ACL failure. Axial impact forces, anterior-posterior and medial-lateral tibial forces were measured using a tri-axial load cell. Anterior-posterior tibial translation, internal-external tibial rotation, and valgus-varus rotation were determined using a motion-capture system. We found positive correlations of axial impact force with anterior tibial force, medial tibial force, anterior tibial translation, internal tibial rotation, and valgus joint rotation. Axial impact forces were more strongly correlated with anterior tibial forces (R2 = 0.937 ± 0.050), anterior tibial translation (R2 = 0.916 ± 0.059), and internal tibial rotation (R2 = 0.831 ± 0.141) than medial tibial force (R2 = 0.677 ± 0.193) and valgus joint rotation (R2 = 0.630+0.271). During ski-landing, these joint forces/kinematics can synergistically act to increase ACL injury risk, whereby the failure mechanism would be dominated by anterior tibial forces, anterior tibial translation, and internal tibial rotation. [ABSTRACT FROM AUTHOR]

Published

2011

46. Effect of alpine skiing training on tendon mechanical properties in older men and women.

Author

Seynnes, O. R., Koesters, A., Gimpl, M., Reifberger, A., Niederseer, D., Niebauer, J., Pirich, C., Müller, E., and Narici, M. V.

Subjects

*PHYSIOLOGICAL stress, *KNEE physiology, *PATELLOFEMORAL joint physiology, *TENDON physiology, *PHYSIOLOGICAL adaptation, *ANALYSIS of variance, *STATISTICAL correlation, *ESTRADIOL, *EXERCISE tests, *SKIING, *MUSCLE contraction, *PROBABILITY theory, *SOMATOMEDIN, *STATISTICS, *T-test (Statistics), *TORQUE, *DATA analysis, *HUMAN growth hormone, *CASE-control method, *OLD age

Abstract

Strain is one of the parameters determining tendon adaptation to mechanical stimuli. The aim of this study was to test whether the patellar tendon strain induced during recreational alpine skiing would affect tendon mechanical properties in older individuals. Twenty-two older males and females (67 ± 2 years) were assigned to a 12-week guided skiing programe (IG) and 20 aged-matched volunteers served as controls (CG). Patellar tendon mechanical properties and cross-sectional area (CSA) were measured before and after training, with combined dynamometry and ultrasonography scanning. None of the variables changed significantly in the CG after training. In the IG, tendon stiffness and Young's modulus were increased (respectively, 14% and 12%, P<0.01), without any significant change in tendon CSA. In addition, changes in tendon stiffness were blunted in women (9%) compared with men (19%). Serum IGF-1 concentration tended to be lower in women (−19%, P=0.07). These results demonstrate that the mechanical stimulus induced by alpine skiing is sufficient to elicit adaptive changes in patellar tendon mechanical and material properties in older subjects. Furthermore, the present sex-specific adaptations are consistent with previous reports of lower collagen metabolic responsiveness in women and may be underpinned by anthropometric and metabolic differences. [ABSTRACT FROM AUTHOR]

Published

2011

47. Influence of test temperature on biomechanical properties of all-inside meniscal repair devices and inside-out meniscus sutures—Evaluation of an isolated distraction loading, worst-case scenario

Author

Brucker, Peter U., Favre, Philippe, Puskas, Gabor J., von Campe, Arndt, Koch, Peter P., and Meyer, Dominik C.

Subjects

*KNEE physiology, *KNEE surgery, *PATELLOFEMORAL joint, *PATELLOFEMORAL joint physiology, *ANALYSIS of variance, *ANIMAL experimentation, *BIOMECHANICS, *BODY temperature, *CATTLE, *COMPUTER software, *MENISCECTOMY, *ORTHOPEDIC implants, *HEALTH outcome assessment, *STATISTICS, *TEMPERATURE, *DATA analysis, *TREATMENT effectiveness, *SURGERY

Abstract

Abstract: Background: Studies on the biomechanical properties of meniscus repairs are usually performed at room instead of body temperature. However, various all-inside meniscal repair devices include bioabsorbable materials, which are mechanically sensitive to higher environmental temperatures. Therefore, we hypothesize that current test standards may systematically lead to a false overestimation of their performance. Methods: In 84 cadaveric bovine lateral menisci, an artificial vertical lesion was repaired with different all-inside meniscal repair devices (FasT-Fix, FasT-Fix AB, RapidLoc, Meniscus Arrow, Meniscus Screw) compared to a vertical inside-out Ethibond Excel 2.0 suture loop. Maximum load-to-failure, stiffness, and failure mode were tested in a uniaxial distraction loading at 20°C and 37°C. Findings: Most of the tested implants were not susceptible to the higher environmental test temperature with respect to maximum load-to-failure, stiffness, and failure mode. Only the RapidLoc showed a significantly decreased stiffness (-28.1%) and a statistical trend to lower maximum load-to-failure (-20.6%) at 37°C compared to 20°C. Interpretation: 20°C environmental temperature seems to be an acceptable test condition for the most meniscal repair devices. However, if the bioabsorbable part of the implant is the weakest link, body temperature may be considered for testing to prevent false overestimation of the biomechanical properties. For future biomechanical in vitro testing of meniscal repair devices, this study may provide novel insight into biomechanical test protocols for considering the environmental test temperature as an influencing factor of the biomechanical properties of especially bioabsorbable meniscal repair devices. [Copyright &y& Elsevier]

Published

2011

48. Sex Differences in Proximal Control of the Knee Joint.

Author

Mendiguchia, Jurdan, Ford, Kevin R., Quatman, Carmen E., Alentorn-Geli, Eduard, and Hewett, Timothy E.

Subjects

*KNEE physiology, *STRIATED muscle physiology, *PELVIC physiology, *QUADRICEPS muscle physiology, *HIP joint physiology, *PATELLOFEMORAL joint physiology, *TORSO physiology, *ANTERIOR cruciate ligament injury prevention, *ANTERIOR cruciate ligament injuries, *LUMBAR vertebrae physiology, *BUTTOCKS, *ANALYSIS of variance, *ASTHENIA, *BIOMECHANICS, *EXERCISE physiology, *GROUND reaction forces (Biomechanics), *RANGE of motion of joints, *JUMPING, *KNEE injuries, *LIGAMENT injuries, *ADDUCTION, *MEDLINE, *MUSCLE contraction, *MUSCLES, *NEUROPHYSIOLOGY, *ONLINE information services, *POSTURE, *RESEARCH funding, *ROTATIONAL motion, *RUNNING, *SEX distribution, *EVIDENCE-based medicine, *NEUROMUSCULAR system, *PHYSICAL training & conditioning, *BODY movement, *ABDUCTION (Kinesiology), *PHYSIOLOGY, *INJURY risk factors

Abstract

Following the onset of maturation, female athletes have a significantly higher risk for anterior cruciate ligament (ACL) injury compared with male athletes. While multiple sex differences in lower-extremity neuromuscular control and biomechanics have been identified as potential risk factors for ACL injury in females, the majority of these studies have focused specifically on the knee joint. However, increasing evidence in the literature indicates that lumbo-pelvic (core) control may have a large effect on knee-joint control and injury risk. This review examines the published evidence on the contributions of the trunk and hip to knee-joint control. Specifically, the sex differences in potential proximal controllers of the knee as risk factors for ACL injury are identified and discussed. Sex differences in trunk and hip biomechanics have been identified in all planes of motion (sagittal, coronal and transverse). Essentially, female athletes show greater lateral trunk displacement, altered trunk and hip ulexion angles, greater ranges of trunk motion, and increased hip adduction and internal rotation during sport manoeuvres, compared with their male counterparts. These differences may increase the risk of ACL injury among female athletes. Prevention programmes targeted towards trunk and hip neuromuscular control may decrease the risk for ACL injuries. [ABSTRACT FROM AUTHOR]

Published

2011

49. Effects of Bicycle Saddle Height on Knee Injury Risk and Cycling Performance.

Author

Bini, Rodrigo, Hume, Patria A., and Croft, James L.

Subjects

*KNEE physiology, *LEG physiology, *KNEE injuries, *PATELLOFEMORAL joint physiology, *CYCLING accidents, *ANALYSIS of variance, *ANTHROPOMETRY, *ATHLETIC ability, *BIOMECHANICS, *BIOPHYSICS, *CYCLING, *EXERCISE physiology, *KINEMATICS, *LEG, *MEDLINE, *MUSCLE contraction, *RESEARCH funding, *EVIDENCE-based medicine, *PRODUCT design, *OXYGEN consumption, *EXERCISE intensity, *INJURY risk factors

Abstract

Incorrect bicycle configuration may predispose athletes to injury and reduce their cycling performance. There is disagreement within scientific and coaching communities regarding optimal configuration of bicycles for athletes. This review summarizes literature on methods for determining bicycle saddle height and the effects of bicycle saddle height on measures of cycling performance and lower limb injury risk. Peer-reviewed journals, books, theses and conference proceedings published since 1960 were searched using MEDLINE, Scopus, ISI Web of Knowledge, EBSCO and Google Scholar databases, resulting in 62 references being reviewed. Keywords searched included `body positioning', 'saddle', `posture, `cycling' and `injury'. The review revealed that methods for determining optimal saddle height are varied and not well established, and have been based on relationships between saddle height and lower limb length (Hamley and Thomas, trochanteric length, length from ischial tuberosity to floor, LeMond, heel methods) or a reference range of knee joint flexion. There is limited information on the effects of saddle height on lower limb injury risk (lower limb kinematics, knee joint forces and moments and muscle mechanics), but more information on the effects of saddle height on cycling performance (performance time, energy expenditure/oxygen uptake, power output, pedal force application). Increasing saddle height can cause increased shortening of the vastii muscle group, but no change in hamstring length. Length and velocity of contraction in the soleus seems to be more affected by saddle height than that in the gastrocnemius. The majority of evidence suggested that a 5% change in saddle height affected knee joint kinematics by 35% and moments by 16%. Patellofemoral compressive force seems to be inversely related to saddle height but the effects on tibiofemoral forces are uncertain. Changes of less than 4% in trochanteric length do not seem to affect injury risk or performance. The main limitations from the reported studies are that different methods have been employed for determining saddle height, small sample sizes have been used, cyclists with low levels of expertise have mostly been evaluated and different outcome variables have been measured. Given that the occurrence of overuse knee joint pain is 50% in cyclists, future studies may focus on how saddle height can be optimized to improve cycling performance and reduce knee joint forces to reduce lower limb injury risk. On the basis of the conflicting evidence on the effects of saddle height changes on performance and lower limb injury risk in cycling, we suggest the saddle height may be set using the knee flexion angle method (25-30°) to reduce the risk of knee injuries and to minimize oxygen uptake. [ABSTRACT FROM AUTHOR]

Published

2011

50. Kinematic characteristics of elite men's and women's 20 km race walking and their variation during the race.

Author

Hanley, Brian, Bissas, Athanassios, and Drake, Andrew

Subjects

*ELBOW physiology, *FOOT physiology, *KNEE physiology, *PELVIC physiology, *PATELLOFEMORAL joint physiology, *ANALYSIS of variance, *ANTHROPOMETRY, *BIOMECHANICS, *CONFIDENCE intervals, *STATISTICAL correlation, *EXERCISE physiology, *KINEMATICS, *ROTATIONAL motion, *SHOULDER, *STATISTICS, *T-test (Statistics), *VIDEO recording, *WALKING (Sports), *SPORTS events, *INTER-observer reliability, *ELITE athletes, *REPEATED measures design, *MOTION capture (Human mechanics)

Abstract

The aim of this study was to analyse the important kinematic variables in elite men's and women's 20 km race walking. Thirty men and 30 women were analysed from video data recorded during the World Race Walking Cup. Video data were also recorded at four points during the European Cup Race Walking and 12 men and 12 women analysed from these data. Two camcorders operating at 50 Hz recorded at each race for 3D analysis. The two main performance determinants of speed were step length and cadence. Men were faster than women because of their greater step lengths but there was no difference in cadence. A reduction in step length was the initial cause of slowing down with later decreases in speed caused by reductions in cadence. Shorter contact times were important in optimising both step length and cadence, and faster athletes tended to have longer flight times than slower athletes. It was less clear which other kinematic variables were critical for successful walking, particularly with regard to joint angles. Different associations were found for some key variables in men and women, suggesting that their techniques may differ due to differences in height and mass. [ABSTRACT FROM AUTHOR]

Published

2011