Fabrication of Porous Tantalum with Low Elastic Modulus and Tunable Pore Size for Bone Repair

Dingshan Liang; Chuanxin Zhong; Feilong Jiang; Junchen Liao; Haixia Ye; Fuzeng Ren

doi:10.1021/acsbiomaterials.2c01239

Fabrication of Porous Tantalum with Low Elastic Modulus and Tunable Pore Size for Bone Repair

Dingshan Liang, Chuanxin Zhong, Feilong Jiang, Junchen Liao, Haixia Ye, Fuzeng Ren^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › peer-review

12 Citations (Scopus)

Abstract

Porous tantalum (Ta) is a potential bone substitute due to its excellent biocompatibility and desirable mechanical properties. In this work, a series of porous Ta materials with interconnected micropores and varying pore sizes from 23 to 210 μm were fabricated using spark plasma sintering. The porous structure was formed by thermal decomposition of ammonium bicarbonate powder premixed in the Ta powder. The pore size and porosity were controlled by the categorized particle size of ammonium bicarbonate. The porous Ta has elastic moduli in the range of 2.1–3.2 GPa and compressive yield strength in the range of 23–34 MPa, which are close to those of human bone. In vitro, as-fabricated porous Ta demonstrates excellent biocompatibility by supporting adhesion and proliferation of preosteoblasts. In vivo studies also validate its bone repair capability after implantation in a rat femur defect model. The study demonstrates a facile strategy to fabricate porous Ta with controllable pore size for bone repair.

Original language	English
Pages (from-to)	1720-1728
Number of pages	9
Journal	ACS Biomaterials Science and Engineering
Volume	9
Issue number	3
DOIs	https://doi.org/10.1021/acsbiomaterials.2c01239
Publication status	Published - 13 Mar 2023

User-Defined Keywords

porous tantalum scaffold
bone repair
osteogenesis
interconnected pore structure
orthopedic implant

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title = "Fabrication of Porous Tantalum with Low Elastic Modulus and Tunable Pore Size for Bone Repair",

abstract = "Porous tantalum (Ta) is a potential bone substitute due to its excellent biocompatibility and desirable mechanical properties. In this work, a series of porous Ta materials with interconnected micropores and varying pore sizes from 23 to 210 μm were fabricated using spark plasma sintering. The porous structure was formed by thermal decomposition of ammonium bicarbonate powder premixed in the Ta powder. The pore size and porosity were controlled by the categorized particle size of ammonium bicarbonate. The porous Ta has elastic moduli in the range of 2.1–3.2 GPa and compressive yield strength in the range of 23–34 MPa, which are close to those of human bone. In vitro, as-fabricated porous Ta demonstrates excellent biocompatibility by supporting adhesion and proliferation of preosteoblasts. In vivo studies also validate its bone repair capability after implantation in a rat femur defect model. The study demonstrates a facile strategy to fabricate porous Ta with controllable pore size for bone repair.",

keywords = "porous tantalum scaffold, bone repair, osteogenesis, interconnected pore structure, orthopedic implant",

author = "Dingshan Liang and Chuanxin Zhong and Feilong Jiang and Junchen Liao and Haixia Ye and Fuzeng Ren",

note = "This work was financially supported by the National Natural Science Foundation of China (Grant 52122102) and the Basic and Applied Basic Research Fundation of Guangdong Province (No. 2022B1515120082). The authors also thank the Microscope and Imaging Center at Southern University of Science and Technology, China. Publisher Copyright: {\textcopyright} 2023 American Chemical Society.",

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AU - Liang, Dingshan

AU - Zhong, Chuanxin

AU - Jiang, Feilong

AU - Liao, Junchen

AU - Ye, Haixia

AU - Ren, Fuzeng

N1 - This work was financially supported by the National Natural Science Foundation of China (Grant 52122102) and the Basic and Applied Basic Research Fundation of Guangdong Province (No. 2022B1515120082). The authors also thank the Microscope and Imaging Center at Southern University of Science and Technology, China. Publisher Copyright: © 2023 American Chemical Society.

PY - 2023/3/13

Y1 - 2023/3/13

N2 - Porous tantalum (Ta) is a potential bone substitute due to its excellent biocompatibility and desirable mechanical properties. In this work, a series of porous Ta materials with interconnected micropores and varying pore sizes from 23 to 210 μm were fabricated using spark plasma sintering. The porous structure was formed by thermal decomposition of ammonium bicarbonate powder premixed in the Ta powder. The pore size and porosity were controlled by the categorized particle size of ammonium bicarbonate. The porous Ta has elastic moduli in the range of 2.1–3.2 GPa and compressive yield strength in the range of 23–34 MPa, which are close to those of human bone. In vitro, as-fabricated porous Ta demonstrates excellent biocompatibility by supporting adhesion and proliferation of preosteoblasts. In vivo studies also validate its bone repair capability after implantation in a rat femur defect model. The study demonstrates a facile strategy to fabricate porous Ta with controllable pore size for bone repair.

AB - Porous tantalum (Ta) is a potential bone substitute due to its excellent biocompatibility and desirable mechanical properties. In this work, a series of porous Ta materials with interconnected micropores and varying pore sizes from 23 to 210 μm were fabricated using spark plasma sintering. The porous structure was formed by thermal decomposition of ammonium bicarbonate powder premixed in the Ta powder. The pore size and porosity were controlled by the categorized particle size of ammonium bicarbonate. The porous Ta has elastic moduli in the range of 2.1–3.2 GPa and compressive yield strength in the range of 23–34 MPa, which are close to those of human bone. In vitro, as-fabricated porous Ta demonstrates excellent biocompatibility by supporting adhesion and proliferation of preosteoblasts. In vivo studies also validate its bone repair capability after implantation in a rat femur defect model. The study demonstrates a facile strategy to fabricate porous Ta with controllable pore size for bone repair.

KW - porous tantalum scaffold

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KW - osteogenesis

KW - interconnected pore structure

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Fabrication of Porous Tantalum with Low Elastic Modulus and Tunable Pore Size for Bone Repair

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