Establishing a range of motion boundary for total hip arthroplasty

Range of motion of the hip joint is a major contributor to dislocation post total hip replacement. Impingement is often treated as a surrogate for dislocation and occurs – prosthetically – when the neck of the femoral component contacts with the rim of the pelvic acetabular cup. This impingement is...

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Veröffentlicht in:	Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine Journal of engineering in medicine, 2011-08, Vol.225 (8), p.769-782
Hauptverfasser:	Turley, G A, Ahmed, S M Y, Williams, M A, Griffin, D R
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetabular components Acetabulum Acetabulum - physiopathology Activities of daily living Algorithms Arthroplasty, Replacement, Hip - adverse effects Arthroplasty, Replacement, Hip - methods Benchmarking Biomechanical Phenomena Biomedical materials Boundaries Dislocations Femoral components Femur Femur Head - physiopathology Hip dislocation Hip joint Hip Joint - physiopathology Hip Joint - surgery Hip Prosthesis Humans Impingement Joint Dislocations - etiology Joint Instability - etiology Joint Instability - physiopathology Joint surgery Leg Literature reviews Mechanical engineers Necks Orthopaedic implants Orthopedics Range of Motion, Articular Surgical implants Three dimensional motion Total hip arthroplasty
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creator	Turley, G A Ahmed, S M Y Williams, M A Griffin, D R
description	Range of motion of the hip joint is a major contributor to dislocation post total hip replacement. Impingement is often treated as a surrogate for dislocation and occurs – prosthetically – when the neck of the femoral component contacts with the rim of the pelvic acetabular cup. This impingement is caused by movement of the leg during activities of daily living. This article analyses hip joint range of motion and its implication for impingement. A systematic literature review was undertaken with the purpose of establishing a range of motion benchmark for total hip replacement. This paper proposes a method by which a three-dimensional range of motion boundary established from the literature can be presented. The nominal boundary is also validated experimentally using a number of configurations of a neutral hip joint coordinate frame.
doi_str_mv	10.1177/0954411911409306
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Impingement is often treated as a surrogate for dislocation and occurs – prosthetically – when the neck of the femoral component contacts with the rim of the pelvic acetabular cup. This impingement is caused by movement of the leg during activities of daily living. This article analyses hip joint range of motion and its implication for impingement. A systematic literature review was undertaken with the purpose of establishing a range of motion benchmark for total hip replacement. This paper proposes a method by which a three-dimensional range of motion boundary established from the literature can be presented. 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subjects	Acetabular components Acetabulum Acetabulum - physiopathology Activities of daily living Algorithms Arthroplasty, Replacement, Hip - adverse effects Arthroplasty, Replacement, Hip - methods Benchmarking Biomechanical Phenomena Biomedical materials Boundaries Dislocations Femoral components Femur Femur Head - physiopathology Hip dislocation Hip joint Hip Joint - physiopathology Hip Joint - surgery Hip Prosthesis Humans Impingement Joint Dislocations - etiology Joint Instability - etiology Joint Instability - physiopathology Joint surgery Leg Literature reviews Mechanical engineers Necks Orthopaedic implants Orthopedics Range of Motion, Articular Surgical implants Three dimensional motion Total hip arthroplasty
title	Establishing a range of motion boundary for total hip arthroplasty
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