Determination of Reference Geometry for Polyethylene Tibial Insert Wear Analysis

Geometric wear analysis techniques require unworn geometries to serve as a reference in wear measurement. A method to create a reference geometrical model is described for retrieval studies when the actual unworn geometry is unavailable. Never-implanted tibial inserts were scanned with micro–compute...

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Published in:	The Journal of arthroplasty Vol. 26; no. 3; pp. 497 - 503
Main Authors:	Teeter, Matthew G., Naudie, Douglas D.R., Milner, Jaques S., Holdsworth, David W.
Format:	Journal Article
Language:	English
Published:	United States Elsevier Inc 01.04.2011
Subjects:	Arthroplasty, Replacement, Knee - instrumentation Equipment Failure Analysis Humans Knee Prosthesis Materials Testing - methods micro–computed tomography Models, Theoretical Orthopedics Polyethylene polyethylene wear Prosthesis Design Reference Values retrieval studies Tibia Tomography, X-Ray Computed total knee arthroplasty wear analysis micro–computed tomography total knee arthroplasty wear analysis retrieval studies polyethylene wear
ISSN:	0883-5403, 1532-8406, 1532-8406
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Abstract	Geometric wear analysis techniques require unworn geometries to serve as a reference in wear measurement. A method to create a reference geometrical model is described for retrieval studies when the actual unworn geometry is unavailable. Never-implanted tibial inserts were scanned with micro–computed tomography. Two, 3, or 6 insert surfaces were coaligned and averaged to create reference geometries. Individual inserts were compared with each other (manufacturing variability) and with the reference geometries (reference variability). The 3-dimensional deviations between the surfaces were recorded. The reference variability was reduced to 8.3 ± 39 μm, vs manufacturing variability of 15 ± 59 μm. Deviations were smallest on the articular surfaces where most wear occurs and were significantly less than the reported insert wear rate of 20 μm/y.
AbstractList	Abstract Geometric wear analysis techniques require unworn geometries to serve as a reference in wear measurement. A method to create a reference geometrical model is described for retrieval studies when the actual unworn geometry is unavailable. Never-implanted tibial inserts were scanned with micro–computed tomography. Two, 3, or 6 insert surfaces were coaligned and averaged to create reference geometries. Individual inserts were compared with each other (manufacturing variability) and with the reference geometries (reference variability). The 3-dimensional deviations between the surfaces were recorded. The reference variability was reduced to 8.3 ± 39 μ m, vs manufacturing variability of 15 ± 59 μ m. Deviations were smallest on the articular surfaces where most wear occurs and were significantly less than the reported insert wear rate of 20 μ m/y. Geometric wear analysis techniques require unworn geometries to serve as a reference in wear measurement. A method to create a reference geometrical model is described for retrieval studies when the actual unworn geometry is unavailable. Never-implanted tibial inserts were scanned with micro–computed tomography. Two, 3, or 6 insert surfaces were coaligned and averaged to create reference geometries. Individual inserts were compared with each other (manufacturing variability) and with the reference geometries (reference variability). The 3-dimensional deviations between the surfaces were recorded. The reference variability was reduced to 8.3 ± 39 μm, vs manufacturing variability of 15 ± 59 μm. Deviations were smallest on the articular surfaces where most wear occurs and were significantly less than the reported insert wear rate of 20 μm/y. Geometric wear analysis techniques require unworn geometries to serve as a reference in wear measurement. A method to create a reference geometrical model is described for retrieval studies when the actual unworn geometry is unavailable. Never-implanted tibial inserts were scanned with micro-computed tomography. Two, 3, or 6 insert surfaces were coaligned and averaged to create reference geometries. Individual inserts were compared with each other (manufacturing variability) and with the reference geometries (reference variability). The 3-dimensional deviations between the surfaces were recorded. The reference variability was reduced to 8.3 ± 39 μm, vs manufacturing variability of 15 ± 59 μm. Deviations were smallest on the articular surfaces where most wear occurs and were significantly less than the reported insert wear rate of 20 μm/y.Geometric wear analysis techniques require unworn geometries to serve as a reference in wear measurement. A method to create a reference geometrical model is described for retrieval studies when the actual unworn geometry is unavailable. Never-implanted tibial inserts were scanned with micro-computed tomography. Two, 3, or 6 insert surfaces were coaligned and averaged to create reference geometries. Individual inserts were compared with each other (manufacturing variability) and with the reference geometries (reference variability). The 3-dimensional deviations between the surfaces were recorded. The reference variability was reduced to 8.3 ± 39 μm, vs manufacturing variability of 15 ± 59 μm. Deviations were smallest on the articular surfaces where most wear occurs and were significantly less than the reported insert wear rate of 20 μm/y. Geometric wear analysis techniques require unworn geometries to serve as a reference in wear measurement. A method to create a reference geometrical model is described for retrieval studies when the actual unworn geometry is unavailable. Never-implanted tibial inserts were scanned with micro-computed tomography. Two, 3, or 6 insert surfaces were coaligned and averaged to create reference geometries. Individual inserts were compared with each other (manufacturing variability) and with the reference geometries (reference variability). The 3-dimensional deviations between the surfaces were recorded. The reference variability was reduced to 8.3 ± 39 μm, vs manufacturing variability of 15 ± 59 μm. Deviations were smallest on the articular surfaces where most wear occurs and were significantly less than the reported insert wear rate of 20 μm/y.
Author	Naudie, Douglas D.R. Teeter, Matthew G. Milner, Jaques S. Holdsworth, David W.
Author_xml	– sequence: 1 givenname: Matthew G. surname: Teeter fullname: Teeter, Matthew G. organization: Imaging Research Laboratories, Robarts Research Institute, The University of Western Ontario, London, Ontario, Canada – sequence: 2 givenname: Douglas D.R. surname: Naudie fullname: Naudie, Douglas D.R. organization: Imaging Research Laboratories, Robarts Research Institute, The University of Western Ontario, London, Ontario, Canada – sequence: 3 givenname: Jaques S. surname: Milner fullname: Milner, Jaques S. organization: Imaging Research Laboratories, Robarts Research Institute, The University of Western Ontario, London, Ontario, Canada – sequence: 4 givenname: David W. surname: Holdsworth fullname: Holdsworth, David W. organization: Imaging Research Laboratories, Robarts Research Institute, The University of Western Ontario, London, Ontario, Canada
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Keywords	micro–computed tomography total knee arthroplasty wear analysis retrieval studies polyethylene wear
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SubjectTerms	Arthroplasty, Replacement, Knee - instrumentation Equipment Failure Analysis Humans Knee Prosthesis Materials Testing - methods micro–computed tomography Models, Theoretical Orthopedics Polyethylene polyethylene wear Prosthesis Design Reference Values retrieval studies Tibia Tomography, X-Ray Computed total knee arthroplasty wear analysis
Title	Determination of Reference Geometry for Polyethylene Tibial Insert Wear Analysis
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