Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip Replacements
The current pre-clinical testing standards for total hip replacements (THRs), ISO standards, use simplified loading waveforms that do not fully replicate real-world biomechanics. These standards provide a benchmark of data that may not accurately predict in vivo wear, necessitating the evaluation of...
| Published in: | Bioengineering |
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| Main Authors: | , , , , , , , , , |
| Format: | Article |
| Language: | English |
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MDPI AG
2025-06-01
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| Online Access: | https://www.mdpi.com/2306-5354/12/6/663 |
| _version_ | 1849442623319703552 |
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| author | Benjamin A. Clegg Samuel Perry Enrico De Pieri Anthony C. Redmond Stephen J. Ferguson David E. Lunn Richard M. Hall Michael G. Bryant Nazanin Emami Andrew R. Beadling |
| author_facet | Benjamin A. Clegg Samuel Perry Enrico De Pieri Anthony C. Redmond Stephen J. Ferguson David E. Lunn Richard M. Hall Michael G. Bryant Nazanin Emami Andrew R. Beadling |
| author_sort | Benjamin A. Clegg |
| collection | DOAJ |
| container_title | Bioengineering |
| description | The current pre-clinical testing standards for total hip replacements (THRs), ISO standards, use simplified loading waveforms that do not fully replicate real-world biomechanics. These standards provide a benchmark of data that may not accurately predict in vivo wear, necessitating the evaluation of physiologically relevant loading conditions. Previous studies have incorporated activities of daily living (ADLs) such as walking, jogging and stair negotiation into wear simulations. However, these studies primarily used simplified adaptations that increased axial forces and applied accelerated sinusoidal waveforms, rather than fully replicating the complex kinematics experienced by THR patients. To address this gap, this study applied patient-derived ADL profiles—jogging and stair negotiation—using a three-station hip simulator, obtained through 3D motion analysis of total hip arthroplasty patients, processed via a musculoskeletal multibody modelling approach to derive realistic hip contact forces (HCFs). The results indicate that jogging significantly increased wear rates compared to the ISO walking gait waveform, with wear increasing from 15.24 ± 0.55 to 28.68 ± 0.87 mm<sup>3</sup>/Mc. Additionally, wear was highly sensitive to changes in lubricant protein concentration, with an increase from 17 g/L to 30 g/L reducing wear by over 60%. Contrary to predictive models, stair descent resulted in higher volumetric wear (8.62 ± 0.43 mm<sup>3</sup>/0.5 Mc) compared to stair ascent (4.15 ± 0.31 mm<sup>3</sup>/0.5 Mc), despite both profiles having similar peak torques. These findings underscore the limitations of current ISO standards in replicating physiologically relevant wear patterns. The application of patient-specific loading profiles highlights the need to integrate ADLs into pre-clinical testing protocols, ensuring a more accurate assessment of implant performance and longevity. |
| format | Article |
| id | doaj-art-3630a5cdb74e45e4ab9fa2d49c055b4e |
| institution | Directory of Open Access Journals |
| issn | 2306-5354 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | MDPI AG |
| record_format | Article |
| spelling | doaj-art-3630a5cdb74e45e4ab9fa2d49c055b4e2025-08-20T03:32:27ZengMDPI AGBioengineering2306-53542025-06-0112666310.3390/bioengineering12060663Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip ReplacementsBenjamin A. Clegg0Samuel Perry1Enrico De Pieri2Anthony C. Redmond3Stephen J. Ferguson4David E. Lunn5Richard M. Hall6Michael G. Bryant7Nazanin Emami8Andrew R. Beadling9Division of Machine Element, Department of Engineering Sciences and Mathematics, Luleå University of Technology, 97187 Luleå, SwedenSchool of Engineering, University of Birmingham, Birmingham B15 2TT, UKInstitute for Biomechanics, ETH Zürich, 8092 Zürich, SwitzerlandNIHR Leeds Biomedical Research Centre, Leeds LS7 4SA, UKInstitute for Biomechanics, ETH Zürich, 8092 Zürich, SwitzerlandNIHR Leeds Biomedical Research Centre, Leeds LS7 4SA, UKSchool of Engineering, University of Birmingham, Birmingham B15 2TT, UKSchool of Engineering, University of Birmingham, Birmingham B15 2TT, UKDivision of Machine Element, Department of Engineering Sciences and Mathematics, Luleå University of Technology, 97187 Luleå, SwedenSchool of Engineering, University of Birmingham, Birmingham B15 2TT, UKThe current pre-clinical testing standards for total hip replacements (THRs), ISO standards, use simplified loading waveforms that do not fully replicate real-world biomechanics. These standards provide a benchmark of data that may not accurately predict in vivo wear, necessitating the evaluation of physiologically relevant loading conditions. Previous studies have incorporated activities of daily living (ADLs) such as walking, jogging and stair negotiation into wear simulations. However, these studies primarily used simplified adaptations that increased axial forces and applied accelerated sinusoidal waveforms, rather than fully replicating the complex kinematics experienced by THR patients. To address this gap, this study applied patient-derived ADL profiles—jogging and stair negotiation—using a three-station hip simulator, obtained through 3D motion analysis of total hip arthroplasty patients, processed via a musculoskeletal multibody modelling approach to derive realistic hip contact forces (HCFs). The results indicate that jogging significantly increased wear rates compared to the ISO walking gait waveform, with wear increasing from 15.24 ± 0.55 to 28.68 ± 0.87 mm<sup>3</sup>/Mc. Additionally, wear was highly sensitive to changes in lubricant protein concentration, with an increase from 17 g/L to 30 g/L reducing wear by over 60%. Contrary to predictive models, stair descent resulted in higher volumetric wear (8.62 ± 0.43 mm<sup>3</sup>/0.5 Mc) compared to stair ascent (4.15 ± 0.31 mm<sup>3</sup>/0.5 Mc), despite both profiles having similar peak torques. These findings underscore the limitations of current ISO standards in replicating physiologically relevant wear patterns. The application of patient-specific loading profiles highlights the need to integrate ADLs into pre-clinical testing protocols, ensuring a more accurate assessment of implant performance and longevity.https://www.mdpi.com/2306-5354/12/6/663total hip replacementactivities of daily livingphysiological loadingjoint simulator testing |
| spellingShingle | Benjamin A. Clegg Samuel Perry Enrico De Pieri Anthony C. Redmond Stephen J. Ferguson David E. Lunn Richard M. Hall Michael G. Bryant Nazanin Emami Andrew R. Beadling Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip Replacements total hip replacement activities of daily living physiological loading joint simulator testing |
| title | Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip Replacements |
| title_full | Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip Replacements |
| title_fullStr | Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip Replacements |
| title_full_unstemmed | Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip Replacements |
| title_short | Effects of Physiological Loading from Patient-Derived Activities of Daily Living on the Wear of Metal-on-Polymer Total Hip Replacements |
| title_sort | effects of physiological loading from patient derived activities of daily living on the wear of metal on polymer total hip replacements |
| topic | total hip replacement activities of daily living physiological loading joint simulator testing |
| url | https://www.mdpi.com/2306-5354/12/6/663 |
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