Automated range-of-motion device for total hip arthroplasty prosthesis

Prashanth P. Prabhakar; Qingshan Chen; Fredrick Schultz; Jean Yves Lazennec; Kai Nan An

doi:10.1142/S0218957706001790

Automated range-of-motion device for total hip arthroplasty prosthesis

Prashanth P. Prabhakar, Qingshan Chen, Fredrick Schultz, Jean Yves Lazennec, Kai Nan An

Orthopedic Surgery

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Hip simulators are regularly used by researchers to assess total hip arthroplasty (THA) implants, range of motion, stability, and alignment of acetabular cup and stem. Previous papers have described three types of simulators: three-dimensional protractors, biaxial rocking motion (BRM) protractors, and single-axis prosthetic range-of-motion (PROM) devices. We have developed a new hip simulator in which the ROM device is completely automated in three independent axes (elevation, internal/ external rotation, and plane of elevation). Coupled with the simulator, we used a FaroArm Gold Series coordinate measuring machine (CMM) to accurately align the implant components. The results show that the methodology and alignment setup are accurate and repeatable. With this simulator and digitizer, we are able to study the characteristics of numerous THA implants at various orientations of the pelvis, acetabular cup, stem, and femur.

Original language	English (US)
Pages (from-to)	151-155
Number of pages	5
Journal	Journal of Musculoskeletal Research
Volume	10
Issue number	3
DOIs	https://doi.org/10.1142/S0218957706001790
State	Published - Sep 2006

Keywords

Hip simulator
Mechanical device
Multidirectional motion
Range of motion
Total hip arthroplasty

ASJC Scopus subject areas

Orthopedics and Sports Medicine

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10.1142/S0218957706001790

Cite this

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title = "Automated range-of-motion device for total hip arthroplasty prosthesis",

abstract = "Hip simulators are regularly used by researchers to assess total hip arthroplasty (THA) implants, range of motion, stability, and alignment of acetabular cup and stem. Previous papers have described three types of simulators: three-dimensional protractors, biaxial rocking motion (BRM) protractors, and single-axis prosthetic range-of-motion (PROM) devices. We have developed a new hip simulator in which the ROM device is completely automated in three independent axes (elevation, internal/ external rotation, and plane of elevation). Coupled with the simulator, we used a FaroArm Gold Series coordinate measuring machine (CMM) to accurately align the implant components. The results show that the methodology and alignment setup are accurate and repeatable. With this simulator and digitizer, we are able to study the characteristics of numerous THA implants at various orientations of the pelvis, acetabular cup, stem, and femur.",

keywords = "Hip simulator, Mechanical device, Multidirectional motion, Range of motion, Total hip arthroplasty",

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AU - Chen, Qingshan

AU - Schultz, Fredrick

AU - Lazennec, Jean Yves

AU - An, Kai Nan

PY - 2006/9

Y1 - 2006/9

N2 - Hip simulators are regularly used by researchers to assess total hip arthroplasty (THA) implants, range of motion, stability, and alignment of acetabular cup and stem. Previous papers have described three types of simulators: three-dimensional protractors, biaxial rocking motion (BRM) protractors, and single-axis prosthetic range-of-motion (PROM) devices. We have developed a new hip simulator in which the ROM device is completely automated in three independent axes (elevation, internal/ external rotation, and plane of elevation). Coupled with the simulator, we used a FaroArm Gold Series coordinate measuring machine (CMM) to accurately align the implant components. The results show that the methodology and alignment setup are accurate and repeatable. With this simulator and digitizer, we are able to study the characteristics of numerous THA implants at various orientations of the pelvis, acetabular cup, stem, and femur.

AB - Hip simulators are regularly used by researchers to assess total hip arthroplasty (THA) implants, range of motion, stability, and alignment of acetabular cup and stem. Previous papers have described three types of simulators: three-dimensional protractors, biaxial rocking motion (BRM) protractors, and single-axis prosthetic range-of-motion (PROM) devices. We have developed a new hip simulator in which the ROM device is completely automated in three independent axes (elevation, internal/ external rotation, and plane of elevation). Coupled with the simulator, we used a FaroArm Gold Series coordinate measuring machine (CMM) to accurately align the implant components. The results show that the methodology and alignment setup are accurate and repeatable. With this simulator and digitizer, we are able to study the characteristics of numerous THA implants at various orientations of the pelvis, acetabular cup, stem, and femur.

KW - Hip simulator

KW - Mechanical device

KW - Multidirectional motion

KW - Range of motion

KW - Total hip arthroplasty

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Automated range-of-motion device for total hip arthroplasty prosthesis

Abstract

Keywords

ASJC Scopus subject areas

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