Decreasing Error in Functional Hip Joint Center Calculation using Ultrasound Imaging

Upadhyaya, Swati

16 September 2013

The hip joint center (HJC) is needed for calculation of hip kinematics in various applications. In the functional method, the center is determined by moving femur with respect to acetabulum. A popular way for measuring this movement is through an optical motion capture system. This method is fast and economical for most applications where we require an instant HJC even though the reconstruction error in bone position calculation exists due to skin artifact. This error is caused by movement of markers placed on skin rather than on actual bone. Here we introduce ultrasound imaging as an additional modality to measure the change in soft tissue thickness above bone while hip is flexed. We use this information on the tissue thickness change to recalculate position of markers placed on skin to match the movement of bone. A good advantage of using ultrasound machine is its non-invasiveness. We calculated HJC using a symmetric center of rotation estimation (SCoRE) algorithm, which uses the concept of coordinate transformation on 3D marker position data. The algorithm gives the 3D position of two centers, one for each hip bone. The distance between these two centers (SCoRE residual) gives us a hint on the accuracy of the HJC calculation and has been proved to be proportional to the error with respect to actual center in previous studies. These two centers should ideally coincide as they collectively form a spherical joint. Our new algorithm for HJC calculation with tissue thickness compensation, measured using ultrasound imaging shows the error has been reduced from 9.13 mm to 4.87 mm

Functional Hip Joint Center

Ultrasound

Decreasing Error in Functional Hip Joint Center Calculation using Ultrasound Imaging

Upadhyaya, Swati

January 2013

The hip joint center (HJC) is needed for calculation of hip kinematics in various applications. In the functional method, the center is determined by moving femur with respect to acetabulum. A popular way for measuring this movement is through an optical motion capture system. This method is fast and economical for most applications where we require an instant HJC even though the reconstruction error in bone position calculation exists due to skin artifact. This error is caused by movement of markers placed on skin rather than on actual bone. Here we introduce ultrasound imaging as an additional modality to measure the change in soft tissue thickness above bone while hip is flexed. We use this information on the tissue thickness change to recalculate position of markers placed on skin to match the movement of bone. A good advantage of using ultrasound machine is its non-invasiveness. We calculated HJC using a symmetric center of rotation estimation (SCoRE) algorithm, which uses the concept of coordinate transformation on 3D marker position data. The algorithm gives the 3D position of two centers, one for each hip bone. The distance between these two centers (SCoRE residual) gives us a hint on the accuracy of the HJC calculation and has been proved to be proportional to the error with respect to actual center in previous studies. These two centers should ideally coincide as they collectively form a spherical joint. Our new algorithm for HJC calculation with tissue thickness compensation, measured using ultrasound imaging shows the error has been reduced from 9.13 mm to 4.87 mm

Functional Hip Joint Center

Ultrasound

Evaluation Of Sensitivity Of Metu Gait Analysis System

Kafali, Pinar

01 June 2007

Gait analysis is one of the primary applications of biomechanics and deals with scientific description of human locomotion, which is a qualitative concept as observed through the human eye. METU Gait Analysis Laboratory has been operating in various fields of gait and motion analyses since 1999. Although several studies have previously been undertaken about METU Gait Analysis System, until now, the effects of methodology and protocol related system parameters on kinematic analysis results have not been fully and exhaustively investigated. This thesis presents an assessment on sensitivity and compatibility of METU Gait Analysis Protocol to variations in experimental methodology and implementation of various joint center estimation methods, performed through investigation of the resulting joint kinematics. It is believed that the performance and reliability of METU Gait Analysis System will be improved based on the findings of this study.

Joint center estimation by single-frame optimization

Frick, Eric

01 December 2018

Joint center location is the driving parameter for determining the kinematics, and later kinetics, associated with human motion capture. Therefore the accuracy with which said location is determined is of great import to any and all subsequent calculation and analysis. The most significant barrier to accurate determination of this parameter is soft tissue artifact, which contaminates the measurements of on-body measurement devices by allowing them to move relative to the underlying rigid bone. This leads to inaccuracy in both bone pose estimation and joint center location. The complexity of soft tissue artifact (it is nonlinear, multimodal, subject-specific, and trial specific) makes it difficult to model, and therefore difficult to mitigate. This thesis proposes a novel method, termed Single Frame Optimization, for determining joint center location (though mitigation of soft tissue artifact) via a linearization approach, in which the optimal vector relating a joint center to a corresponding inertial sensor is calculated at each time frame. This results in a time-varying joint center location vector that captures the relative motion due to soft tissue artifact, from which the relative motion could be isolated and removed. The method’s, and therefore the optimization’s, driving assumption is that the derivative terms in the kinematic equation are negligible relative to the rigid terms. More plainly, it is assumed that any relative motion can be assumed negligible in comparison with the rigid body motion in the chosen data frame. The validity of this assumption is investigated in a series of numerical simulations and experimental investigations. Each item in said series is presented as a chapter in this thesis, but retains the format of a standalone article. This is intended to foment critical analysis of the method at each stage in its development, rather than solely in its practical (and more developed) form.

inertial motion capture

joint center

optical motion capture

single frame optimization

soft tissue artifact

Évaluation biomécanique de la locomotion à la suite d'une arthroplastie de la hanche

Bouffard, Vicky

04 1900

Depuis les dernières années, la prévalence de personnes souffrant de dégénérescence des cartilages articulaires, communément appelée ostéoarthrite (OA), ne cesse d’augmenter. Les douleurs articulaires et les raideurs musculaires associées à cette pathologie mènent à des limitations des capacités fonctionnelles, à une perte de mobilité et d’autonomie affectant grandement la qualité de vie de ces personnes. Afin de soulager les personnes souffrant de cette pathologie, l’arthroplastie de la hanche est une procédure chirurgicale fréquemment utilisée. À la suite de cette chirurgie, une amélioration de la qualité de vie et une reprise des capacités fonctionnelles sont souvent observées. Cependant, comparativement à des sujets sains, la vitesse de marche est diminuée, une faiblesse des muscles abducteurs de la hanche est constatée et des mouvements compensatoires au niveau du tronc sont persistants. L’objectif de cette thèse est d’évaluer le patron locomoteur chez des patients qui subiront une arthroplastie de la hanche. Plus spécifiquement, les adaptations locomotrices pré et post-opératoires seront quantifiées dans le but d’apporter des modifications aux programmes de réhabilitation pour ainsi favoriser un patron locomoteur sans déficit. Afin de répondre à cet objectif, trois études distinctes ont été effectuées. Dans le cadre de la première étude, l’impact de l’implantation d’une prothèse totale de la hanche avec une tête fémorale de large diamètre et une prothèse de resurfaçage a été évalué par rapport aux sujets sains lors de la locomotion. Au cours de cette étude, le contrôle du tronc a été analysé en utilisant la distance entre le centre de masse corporel et le centre articulaire de la hanche opérée. Suite aux résultats obtenus, aucune différence majeure n’existe entre les deux types de prothèses en ce qui a trait au contrôle du tronc et ce, à un an post-opératoire. Lors de la deuxième étude, la symétrie des paramètres biomécaniques des membres inférieurs lors de la locomotion chez des patients ayant bénéficié de l’implantation d’une prothèse de la hanche a été caractérisée suite à un programme d’exercices péri-opératoires (pré et post-opératoire). Lors de cette étude, le programme d’exercices péri-opératoires était complémentaire au protocole de réadaptation du centre hospitalier. D’après les résultats obtenus lors de cette étude exploratoire, ce programme d’exercices péri-opératoires semble permettre d’améliorer la symétrie de la puissance et du travail musculaire au niveau de la hanche, du genou et de la cheville favorisant ainsi un patron de marche avec de minimes compensations. Finalement, dans le cadre de la troisième étude, l’approche prédictive et l’approche fonctionnelle, utilisées pour localiser le centre articulaire de la hanche, ont été comparées aux mesures radiographiques, chez des patients à la suite d’un remplacement articulaire de la hanche. À la suite de cette étude, les résultats démontrent que l’utilisation de l’approche fonctionnelle est plus appropriée chez des patients ayant bénéficié d’une arthroplastie de la hanche. En effet, cette approche individualisée est plus précise ce qui, par conséquent, permettra d’obtenir des résultats de plus grande qualité lors d’analyses biomécaniques de la locomotion. / In recent years, the prevalence of people suffering from joint cartilage degeneration, called osteoarthritis (OA), still increases. The joint pain and muscle stiffness related to this pathology have an impact on patients’ quality of life by limiting their functional capacities, mobility and autonomy. In order to relieve these patients, hip arthroplasty is a frequently used surgical procedure. Even if there is an improvement in quality of life and a restoration of functional capacities in these patients, some impairment seem to persist during the post-operative period. The walking velocity is slower when compared to healthy subjects, a hip abductor muscle weakness is observed and trunk compensations lasted during the post-operative period. The aim of this thesis is to evaluate patients undergoing hip arthroplasty during locomotion. More specifically, gait pattern adaptations will be quantified pre and post-operatively to revise rehabilitation programs in order to promote a healthy gait pattern. Three separate studies were conducted to meet this objective. The first study compared the effect of a large femoral head hip prosthesis and a hip resurfacing prosthesis to healthy subjects. During this study, the trunk control was analyzed using the distance between the body center of mass and the hip prosthetic joint center. The results obtained show no major difference between the two types of prosthesis and the healthy control one year post-operatively. During the second study, biomechanics parameter symmetry of the lower limb of gait pattern in patients undergoing hip arthroplasty was characterized following a peri-operative (pre and post-operatively) exercise program. The exercise program was complementary to the medical center standard rehabilitation program. Based on the results of this exploratory study, the peri-operative exercise program seems to improve the symmetry of the muscular power and work of the hip, knee and ankle which promote a healthy gait pattern without compensations. Finally, for the third study, the predictive and the functional approaches, used to locate the hip joint center, were compared to radiographic measurements in patients undergoing hip arthroplasty. The results of this study demonstrated that the functional approach was more appropriate for these patients. This individualized approach is more accurate which leads to quality improvement during biomechanical analysis of gait pattern.

Arthroplastie de la hanche

Prothèse totale de la hanche

Resurfaçage

Locomotion

Entraînement péri-opératoire

Centre articulaire de la hanche

Hip arthroplasty

Total hip arthroplasty

Hip resurfacing

Peri-operative training

Hip joint center

Évaluation biomécanique de la locomotion à la suite d'une arthroplastie de la hanche

Bouffard, Vicky

04 1900

Depuis les dernières années, la prévalence de personnes souffrant de dégénérescence des cartilages articulaires, communément appelée ostéoarthrite (OA), ne cesse d’augmenter. Les douleurs articulaires et les raideurs musculaires associées à cette pathologie mènent à des limitations des capacités fonctionnelles, à une perte de mobilité et d’autonomie affectant grandement la qualité de vie de ces personnes. Afin de soulager les personnes souffrant de cette pathologie, l’arthroplastie de la hanche est une procédure chirurgicale fréquemment utilisée. À la suite de cette chirurgie, une amélioration de la qualité de vie et une reprise des capacités fonctionnelles sont souvent observées. Cependant, comparativement à des sujets sains, la vitesse de marche est diminuée, une faiblesse des muscles abducteurs de la hanche est constatée et des mouvements compensatoires au niveau du tronc sont persistants. L’objectif de cette thèse est d’évaluer le patron locomoteur chez des patients qui subiront une arthroplastie de la hanche. Plus spécifiquement, les adaptations locomotrices pré et post-opératoires seront quantifiées dans le but d’apporter des modifications aux programmes de réhabilitation pour ainsi favoriser un patron locomoteur sans déficit. Afin de répondre à cet objectif, trois études distinctes ont été effectuées. Dans le cadre de la première étude, l’impact de l’implantation d’une prothèse totale de la hanche avec une tête fémorale de large diamètre et une prothèse de resurfaçage a été évalué par rapport aux sujets sains lors de la locomotion. Au cours de cette étude, le contrôle du tronc a été analysé en utilisant la distance entre le centre de masse corporel et le centre articulaire de la hanche opérée. Suite aux résultats obtenus, aucune différence majeure n’existe entre les deux types de prothèses en ce qui a trait au contrôle du tronc et ce, à un an post-opératoire. Lors de la deuxième étude, la symétrie des paramètres biomécaniques des membres inférieurs lors de la locomotion chez des patients ayant bénéficié de l’implantation d’une prothèse de la hanche a été caractérisée suite à un programme d’exercices péri-opératoires (pré et post-opératoire). Lors de cette étude, le programme d’exercices péri-opératoires était complémentaire au protocole de réadaptation du centre hospitalier. D’après les résultats obtenus lors de cette étude exploratoire, ce programme d’exercices péri-opératoires semble permettre d’améliorer la symétrie de la puissance et du travail musculaire au niveau de la hanche, du genou et de la cheville favorisant ainsi un patron de marche avec de minimes compensations. Finalement, dans le cadre de la troisième étude, l’approche prédictive et l’approche fonctionnelle, utilisées pour localiser le centre articulaire de la hanche, ont été comparées aux mesures radiographiques, chez des patients à la suite d’un remplacement articulaire de la hanche. À la suite de cette étude, les résultats démontrent que l’utilisation de l’approche fonctionnelle est plus appropriée chez des patients ayant bénéficié d’une arthroplastie de la hanche. En effet, cette approche individualisée est plus précise ce qui, par conséquent, permettra d’obtenir des résultats de plus grande qualité lors d’analyses biomécaniques de la locomotion. / In recent years, the prevalence of people suffering from joint cartilage degeneration, called osteoarthritis (OA), still increases. The joint pain and muscle stiffness related to this pathology have an impact on patients’ quality of life by limiting their functional capacities, mobility and autonomy. In order to relieve these patients, hip arthroplasty is a frequently used surgical procedure. Even if there is an improvement in quality of life and a restoration of functional capacities in these patients, some impairment seem to persist during the post-operative period. The walking velocity is slower when compared to healthy subjects, a hip abductor muscle weakness is observed and trunk compensations lasted during the post-operative period. The aim of this thesis is to evaluate patients undergoing hip arthroplasty during locomotion. More specifically, gait pattern adaptations will be quantified pre and post-operatively to revise rehabilitation programs in order to promote a healthy gait pattern. Three separate studies were conducted to meet this objective. The first study compared the effect of a large femoral head hip prosthesis and a hip resurfacing prosthesis to healthy subjects. During this study, the trunk control was analyzed using the distance between the body center of mass and the hip prosthetic joint center. The results obtained show no major difference between the two types of prosthesis and the healthy control one year post-operatively. During the second study, biomechanics parameter symmetry of the lower limb of gait pattern in patients undergoing hip arthroplasty was characterized following a peri-operative (pre and post-operatively) exercise program. The exercise program was complementary to the medical center standard rehabilitation program. Based on the results of this exploratory study, the peri-operative exercise program seems to improve the symmetry of the muscular power and work of the hip, knee and ankle which promote a healthy gait pattern without compensations. Finally, for the third study, the predictive and the functional approaches, used to locate the hip joint center, were compared to radiographic measurements in patients undergoing hip arthroplasty. The results of this study demonstrated that the functional approach was more appropriate for these patients. This individualized approach is more accurate which leads to quality improvement during biomechanical analysis of gait pattern.

Arthroplastie de la hanche

Prothèse totale de la hanche

Resurfaçage

Locomotion

Entraînement péri-opératoire

Centre articulaire de la hanche

Hip arthroplasty

Total hip arthroplasty

Hip resurfacing

Peri-operative training

Hip joint center