Improving biocompatibility for next generation of metallic implants

The increasing need for joint replacement surgeries, musculoskeletal repairs, and orthodontics worldwide prompts emerging technologies to evolve with healthcare's changing landscape. Metallic orthopaedic materials have a shared application history with the aerospace industry, making them only p...

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Published inProgress in materials science Vol. 133; p. 101053
Main Authors Bandyopadhyay, Amit, Mitra, Indranath, Goodman, Stuart B., Kumar, Mukesh, Bose, Susmita
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.03.2023
Subjects
3D printing
Additive manufacturing
Alloys
Biocompatibility
Implants
Metals
Biocompatibility
Additive manufacturing
Metals
3D printing
Implants
Alloys
3D Printing
additive manufacturing
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Abstract The increasing need for joint replacement surgeries, musculoskeletal repairs, and orthodontics worldwide prompts emerging technologies to evolve with healthcare's changing landscape. Metallic orthopaedic materials have a shared application history with the aerospace industry, making them only partly efficient in the biomedical domain. However, suitability of metallic materials in bone tissue replacements and regenerative therapies remains unchallenged due to their superior mechanical properties, eventhough they are not perfectly biocompatible. Therefore, exploring ways to improve biocompatibility is the most critical step toward designing the next generation of metallic biomaterials. This review discusses methods of improving biocompatibility of metals used in biomedical devices using surface modification, bulk modification, and incorporation of biologics. Our investigation spans multiple length scales, from bulk metals to the effect of microporosities, surface nanoarchitecture, and biomolecules such as DNA incorporation for enhanced biological response in metallic materials. We examine recent technologies such as 3D printing in alloy design and storing surface charge on nanoarchitecture surfaces, metal-on-metal, and ceramic-on-metal coatings to present a coherent and comprehensive understanding of the subject. Finally, we consider the advantages and challenges of metallic biomaterials and identify future directions.
AbstractList The increasing need for joint replacement surgeries, musculoskeletal repairs, and orthodontics worldwide prompts emerging technologies to evolve with healthcare’s changing landscape. Metallic orthopaedic materials have a shared application history with the aerospace industry, making them only partly efficient in the biomedical domain. However, suitability of metallic materials in bone tissue replacements and regenerative therapies remains unchallenged due to their superior mechanical properties, eventhough they are not perfectly biocompatible. Therefore, exploring ways to improve biocompatibility is the most critical step toward designing the next generation of metallic biomaterials. This review discusses methods of improving biocompatibility of metals used in biomedical devices using surface modification, bulk modification, and incorporation of biologics. Our investigation spans multiple length scales, from bulk metals to the effect of microporosities, surface nanoarchitecture, and biomolecules such as DNA incorporation for enhanced biological response in metallic materials. We examine recent technologies such as 3D printing in alloy design and storing surface charge on nanoarchitecture surfaces, metal-on-metal, and ceramic-on-metal coatings to present a coherent and comprehensive understanding of the subject. Finally, we consider the advantages and challenges of metallic biomaterials and identify future directions.
The increasing need for joint replacement surgeries, musculoskeletal repairs, and orthodontics worldwide prompts emerging technologies to evolve with healthcare's changing landscape. Metallic orthopaedic materials have a shared application history with the aerospace industry, making them only partly efficient in the biomedical domain. However, suitability of metallic materials in bone tissue replacements and regenerative therapies remains unchallenged due to their superior mechanical properties, eventhough they are not perfectly biocompatible. Therefore, exploring ways to improve biocompatibility is the most critical step toward designing the next generation of metallic biomaterials. This review discusses methods of improving biocompatibility of metals used in biomedical devices using surface modification, bulk modification, and incorporation of biologics. Our investigation spans multiple length scales, from bulk metals to the effect of microporosities, surface nanoarchitecture, and biomolecules such as DNA incorporation for enhanced biological response in metallic materials. We examine recent technologies such as 3D printing in alloy design and storing surface charge on nanoarchitecture surfaces, metal-on-metal, and ceramic-on-metal coatings to present a coherent and comprehensive understanding of the subject. Finally, we consider the advantages and challenges of metallic biomaterials and identify future directions.The increasing need for joint replacement surgeries, musculoskeletal repairs, and orthodontics worldwide prompts emerging technologies to evolve with healthcare's changing landscape. Metallic orthopaedic materials have a shared application history with the aerospace industry, making them only partly efficient in the biomedical domain. However, suitability of metallic materials in bone tissue replacements and regenerative therapies remains unchallenged due to their superior mechanical properties, eventhough they are not perfectly biocompatible. Therefore, exploring ways to improve biocompatibility is the most critical step toward designing the next generation of metallic biomaterials. This review discusses methods of improving biocompatibility of metals used in biomedical devices using surface modification, bulk modification, and incorporation of biologics. Our investigation spans multiple length scales, from bulk metals to the effect of microporosities, surface nanoarchitecture, and biomolecules such as DNA incorporation for enhanced biological response in metallic materials. We examine recent technologies such as 3D printing in alloy design and storing surface charge on nanoarchitecture surfaces, metal-on-metal, and ceramic-on-metal coatings to present a coherent and comprehensive understanding of the subject. Finally, we consider the advantages and challenges of metallic biomaterials and identify future directions.
ArticleNumber 101053
Author Mitra, Indranath
Bandyopadhyay, Amit
Kumar, Mukesh
Goodman, Stuart B.
Bose, Susmita
AuthorAffiliation 2 Department of Orthopedic Surgery, Stanford University Medical Center, Redwood City, CA 94063
1 W. M. Keck Biomedical Materials Research Laboratory, School of Mechanical and Materials Engineering, Washington State University, Pullman, WA 99164-2920
3 Lincotek Medical, Bartlett, TN, USA
AuthorAffiliation_xml – name: 1 W. M. Keck Biomedical Materials Research Laboratory, School of Mechanical and Materials Engineering, Washington State University, Pullman, WA 99164-2920
– name: 3 Lincotek Medical, Bartlett, TN, USA
– name: 2 Department of Orthopedic Surgery, Stanford University Medical Center, Redwood City, CA 94063
Author_xml – sequence: 1
  givenname: Amit
  orcidid: 0000-0003-0992-5387
  surname: Bandyopadhyay
  fullname: Bandyopadhyay, Amit
  email: amitband@wsu.edu
  organization: W. M. Keck Biomedical Materials Research Laboratory, School of Mechanical and Materials Engineering, Washington State University, Pullman, WA 99164-2920, USA
– sequence: 2
  givenname: Indranath
  surname: Mitra
  fullname: Mitra, Indranath
  email: indranath.mitra@wsu.edu
  organization: W. M. Keck Biomedical Materials Research Laboratory, School of Mechanical and Materials Engineering, Washington State University, Pullman, WA 99164-2920, USA
– sequence: 3
  givenname: Stuart B.
  orcidid: 0000-0002-1919-3717
  surname: Goodman
  fullname: Goodman, Stuart B.
  email: goodbone@stanford.edu
  organization: Department of Orthopedic Surgery, Stanford University Medical Center, Redwood City, CA 94063, USA
– sequence: 4
  givenname: Mukesh
  surname: Kumar
  fullname: Kumar, Mukesh
  email: Mukesh.Kumar@lincotek.com
  organization: Lincotek Medical, Bartlett, TN, USA
– sequence: 5
  givenname: Susmita
  surname: Bose
  fullname: Bose, Susmita
  email: sbose@wsu.edu
  organization: W. M. Keck Biomedical Materials Research Laboratory, School of Mechanical and Materials Engineering, Washington State University, Pullman, WA 99164-2920, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/36686623$$D View this record in MEDLINE/PubMed
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Keywords Biocompatibility
Additive manufacturing
Metals
3D printing
Implants
Alloys
3D Printing
additive manufacturing
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Stuart B Goodman
School of Mechanical and Materials Engineering, Affiliate Professor, Elson S. Floyd College of Medicine, Washington State University, Pullman, WA 99164-2920, Fellow SME, WSAS, NAI, AAAS, ASM International, AIMBE, and ACerS, Phone: (509) 336-9187 (cell), https://mme.wsu.edu/amit-bandyopadhyay/, Google Scholar: https://scholar.google.com/citations?user=CWnufe8AAAAJ&hl=en
School of Mechanical and Materials Engineering, Affiliate faculty, Department of Chemistry, Affiliate faculty, Elson Floyd College of Medicine, Washington State University, Pullman, WA 99164-2920, Phone: (509) 335-7461; https://mme.wsu.edu/susmita-bose/, Google scholar: https://scholar.google.com/citations?user=vO3tQrkAAAAJ&hl=en
Susmita Bose
Mukesh Kumar
Information about the authors
Robert L. and Mary Ellenburg Professor of Surgery, Professor, Department of Orthopaedic Surgery and (by courtesy) Bioengineering, Stanford University Medical Center Outpatient Center, 450 Broadway St., M/C 6342; Redwood City, CA 94063, USA. Phone: 650-721-7662, Google scholar: https://scholar.google.com/citations?user=k-0L5NAAAAAJ&hl=en&oi=sra
Indranath Mitra
Lead author: Amit Bandyopadhyay
School of Mechanical and Materials Engineering, Washington State University, Pullman, WA 99164-2920, Google Scholar: https://scholar.google.com/citations?user=4ANCbeAAAAAJ&hl=en&oi=ao
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Snippet The increasing need for joint replacement surgeries, musculoskeletal repairs, and orthodontics worldwide prompts emerging technologies to evolve with...
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SubjectTerms 3D printing
Additive manufacturing
Alloys
Biocompatibility
Implants
Metals
Title Improving biocompatibility for next generation of metallic implants
URI https://dx.doi.org/10.1016/j.pmatsci.2022.101053
https://www.ncbi.nlm.nih.gov/pubmed/36686623
https://www.proquest.com/docview/2768812497
https://pubmed.ncbi.nlm.nih.gov/PMC9851385
Volume 133
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