Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones

Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones

Objectives: The varying mechanical properties of human bone have influence on the study results. Pullout and shear forces of human bone were compared to different substitutes to evaluate their suitability for biomechanical studies. Methods: After bone mineral density (BMD) determination, axial pullo...

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Main Authors: Mark Lenz, Boyko Gueorguiev, Juan B. Gerstner Garces, Michael P. Swords, Stefan Rammelt, Gunther O. Hofmann, Ivan Zderic, Manuela Ernst, Robert Geoff Richards, Andrew K. Sands
Format: Article
Language:English
Published: Elsevier 2018-07-01
Series:Journal of Orthopaedic Translation
Online Access:http://www.sciencedirect.com/science/article/pii/S2214031X18300226
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spelling doaj-059c0623c20a4d9caf8ba58a42d3005a2020-11-25T00:37:29ZengElsevierJournal of Orthopaedic Translation2214-031X2018-07-01146773Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bonesMark Lenz0Boyko Gueorguiev1Juan B. Gerstner Garces2Michael P. Swords3Stefan Rammelt4Gunther O. Hofmann5Ivan Zderic6Manuela Ernst7Robert Geoff Richards8Andrew K. Sands9AO Research Institute Davos, Clavadelerstrasse 8, CH-7270 Davos-Platz, Switzerland; Dept. of Trauma, Hand and Reconstructive Surgery, University Hospital Jena, Am Klinikum 1, D-07747 Jena, Germany; Corresponding author. Department of Trauma, Hand and Reconstructive Surgery, University Hospital Jena, Am Klinikum 1, D-07747 Jena, Germany.AO Research Institute Davos, Clavadelerstrasse 8, CH-7270 Davos-Platz, SwitzerlandCentro Medico Imbanaco of Cali, Carrera 38 A, No. 5 A 100 Con 233, Cali, ColombiaMid-Michigan Orthopaedic Institute, 830 West Lakee Lansing Road Suite 190, East Lansing, MI 48823, USAUniversity Hospital Carl Gustav Carus, Fetscherstrasse 74, 01307 Dresden, GermanyDept. of Trauma, Hand and Reconstructive Surgery, University Hospital Jena, Am Klinikum 1, D-07747 Jena, GermanyAO Research Institute Davos, Clavadelerstrasse 8, CH-7270 Davos-Platz, SwitzerlandAO Research Institute Davos, Clavadelerstrasse 8, CH-7270 Davos-Platz, SwitzerlandAO Research Institute Davos, Clavadelerstrasse 8, CH-7270 Davos-Platz, SwitzerlandNew York Presbyterian - Lower Manhattan Hospital, 170 William Street, New York, NY 10038, USAObjectives: The varying mechanical properties of human bone have influence on the study results. Pullout and shear forces of human bone were compared to different substitutes to evaluate their suitability for biomechanical studies. Methods: After bone mineral density (BMD) determination, axial pullout tests were performed with cortical 3.5 mm nonlocking (NL) and 2.7 mm head locking (HL) screws on human, porcine and polyurethane composite bones. Porcine and human constructs were additionally loaded in shear direction. Results: Apparent BMD was significantly lower in osteoporotic (159 mgHA/ccm ± 56) and nonosteoporotic (229 mgHA/ccm ± 25) human bone than that in porcine bone (325 mgHA/ccm ± 42; p < 0.01). Axial construct stiffness and ultimate pullout force of porcine bone (NL: 666N/mm ± 226, 910N ± 140; HL: 309N/mm ± 88, 744N ± 185) was significantly different from composite bone (NL: 1284N/mm ± 161; 1175N ± 116; HL: 1241N/mm ± 172, 1185N ± 225) and osteoporotic human bone (NL: 204N/mm ± 121, 185N ± 113; HL: 201N/mm ± 65; 189N ± 58) but not from nonosteoporotic human bone (NL: 620N/mm ± 205, 852N ± 281; HL: 399N/mm ± 224; 567N ± 242). Porcine bone exhibited an ultimate shear force (NL: 278N ± 99; HL: 431N ± 155) comparable to nonosteoporotic human bone (NL: 207 ± 68: HL: 374N ± 137). Conclusion: Screw pullout and shear forces of porcine bone are close to nonosteoporotic human bone. The translational potential of this article: Human bone specimens used in biomechanical studies are predominantly of osteoporotic bone quality. Conclusions on nonosteoporotic human bone behaviour are difficult. Alternatives such as porcine bone and composite bone were investigated, and it could be shown that screw pullout and screw shear forces of porcine bone are close to nonosteoporotic human bone. Keywords: Biomechanical testing, Bone substitute, Bone quality, Composite bone, Human bone, Porcine bonehttp://www.sciencedirect.com/science/article/pii/S2214031X18300226
collection DOAJ
language English
format Article
sources DOAJ
author Mark Lenz
Boyko Gueorguiev
Juan B. Gerstner Garces
Michael P. Swords
Stefan Rammelt
Gunther O. Hofmann
Ivan Zderic
Manuela Ernst
Robert Geoff Richards
Andrew K. Sands
spellingShingle Mark Lenz
Boyko Gueorguiev
Juan B. Gerstner Garces
Michael P. Swords
Stefan Rammelt
Gunther O. Hofmann
Ivan Zderic
Manuela Ernst
Robert Geoff Richards
Andrew K. Sands
Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones
Journal of Orthopaedic Translation
author_facet Mark Lenz
Boyko Gueorguiev
Juan B. Gerstner Garces
Michael P. Swords
Stefan Rammelt
Gunther O. Hofmann
Ivan Zderic
Manuela Ernst
Robert Geoff Richards
Andrew K. Sands
author_sort Mark Lenz
title Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones
title_short Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones
title_full Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones
title_fullStr Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones
title_full_unstemmed Axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones
title_sort axial and shear pullout forces of composite, porcine and human metatarsal and cuboid bones
publisher Elsevier
series Journal of Orthopaedic Translation
issn 2214-031X
publishDate 2018-07-01
description Objectives: The varying mechanical properties of human bone have influence on the study results. Pullout and shear forces of human bone were compared to different substitutes to evaluate their suitability for biomechanical studies. Methods: After bone mineral density (BMD) determination, axial pullout tests were performed with cortical 3.5 mm nonlocking (NL) and 2.7 mm head locking (HL) screws on human, porcine and polyurethane composite bones. Porcine and human constructs were additionally loaded in shear direction. Results: Apparent BMD was significantly lower in osteoporotic (159 mgHA/ccm ± 56) and nonosteoporotic (229 mgHA/ccm ± 25) human bone than that in porcine bone (325 mgHA/ccm ± 42; p < 0.01). Axial construct stiffness and ultimate pullout force of porcine bone (NL: 666N/mm ± 226, 910N ± 140; HL: 309N/mm ± 88, 744N ± 185) was significantly different from composite bone (NL: 1284N/mm ± 161; 1175N ± 116; HL: 1241N/mm ± 172, 1185N ± 225) and osteoporotic human bone (NL: 204N/mm ± 121, 185N ± 113; HL: 201N/mm ± 65; 189N ± 58) but not from nonosteoporotic human bone (NL: 620N/mm ± 205, 852N ± 281; HL: 399N/mm ± 224; 567N ± 242). Porcine bone exhibited an ultimate shear force (NL: 278N ± 99; HL: 431N ± 155) comparable to nonosteoporotic human bone (NL: 207 ± 68: HL: 374N ± 137). Conclusion: Screw pullout and shear forces of porcine bone are close to nonosteoporotic human bone. The translational potential of this article: Human bone specimens used in biomechanical studies are predominantly of osteoporotic bone quality. Conclusions on nonosteoporotic human bone behaviour are difficult. Alternatives such as porcine bone and composite bone were investigated, and it could be shown that screw pullout and screw shear forces of porcine bone are close to nonosteoporotic human bone. Keywords: Biomechanical testing, Bone substitute, Bone quality, Composite bone, Human bone, Porcine bone
url http://www.sciencedirect.com/science/article/pii/S2214031X18300226
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