Publication:

The optimal microarchitecture of 3D-printed β-TCP bone substitutes for vertical bone augmentation differs from that for osteoconduction

Date

Date

Date
2021
Journal Article
Published version
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Citation copied

Ghayor, C., Bhattacharya, I., & Weber, F. E. (2021). The optimal microarchitecture of 3D-printed β-TCP bone substitutes for vertical bone augmentation differs from that for osteoconduction. Materials & Design, 204, 109650. https://doi.org/10.1016/j.matdes.2021.109650

Abstract

Abstract

Abstract

Synthetic bone substitutes are used for regeneration of bone defects and for vertical or horizontal bone augmentation. With the development of new manufacturing methodologies such as additive manufacturing, not only can the outer shape of a scaffold (the macroarchitecture) be personalized, but also the microarchitecture, defined as the distribution of material within the scaffold, can be designed and optimized for bone ingrowth. Our study assessed the optimal pore-based microarchitecture for osteoconduction in comparison to vertical b

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Citations

27 in Web of Science Acq. date: 2025-07-24
30 in Scopus Acq. date: 2025-06-11

Additional indexing

Creators (Authors)

  • Ghayor, Chafik
    affiliation.icon.alt
  • Bhattacharya, Indranil
    affiliation.icon.alt
  • Weber, Franz E
    affiliation.icon.alt

Journal/Series Title

Journal/Series Title

Journal/Series Title
Materials & Design

Volume

Volume

Volume
204

Page Range

Page Range

Page Range
109650

Item Type

Item Type

Item Type
Journal Article

In collections

Publications of Clinic of Cranio-Maxillofacial Surgery

Dewey Decimal Classifikation

Dewey Decimal Classifikation

Dewey Decimal Classifikation
610 Medicine & health

Keywords

Mechanical Engineering, Mechanics of Materials, General Materials Science

Language

Language

Language
English

Publication date

Publication date

Publication date
2021-06-01

Date available

Date available

Date available
2021-11-10

Publisher

Publisher

Publisher
Elsevier

ISSN or e-ISSN

ISSN or e-ISSN

ISSN or e-ISSN
0264-1275

OA Status

OA Status

OA Status
Gold

Free Access at

Free Access at

Free Access at
DOI

Publisher DOI

https://doi.org/10.1016/j.matdes.2021.109650

Funder name

Funder name

Funder name
SNSF

Grant ID

Grant ID

Grant ID
310030_197128

Project Title

Project Title

Project Title
Osteoconduction and Exosomes in scaffold-based bone tissue engineering

Metrics

Citations

27 in Web of Science Acq. date: 2025-07-24
30 in Scopus Acq. date: 2025-06-11

Citations

Citation copied

Ghayor, C., Bhattacharya, I., & Weber, F. E. (2021). The optimal microarchitecture of 3D-printed β-TCP bone substitutes for vertical bone augmentation differs from that for osteoconduction. Materials & Design, 204, 109650. https://doi.org/10.1016/j.matdes.2021.109650

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Permanent URL

https://doi.org/10.5167/uzh-209001

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Files available to download:1
2021_Materials_and_Design.pdfview fileDownload PDF|1Download2.16 MB
Content:Published Version
Language:eng
Licence:
CC BY-NC-ND 4.0
2021_Materials_and_Design.pdfview fileDownload PDF|1Download2.16 MB
Content:Published Version
Language:eng
Licence:
CC BY-NC-ND 4.0

Files

Files

Files
Files available to download:1
2021_Materials_and_Design.pdfview fileDownload PDF|1Download2.16 MB
Content:Published Version
Language:eng
Licence:
CC BY-NC-ND 4.0
2021_Materials_and_Design.pdfview fileDownload PDF|1Download2.16 MB
Content:Published Version
Language:eng
Licence:
CC BY-NC-ND 4.0
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