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A Multimaterial Scaffold With Tunable Properties: Toward Bone Tissue Repair
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A Multimaterial Scaffold With Tunable Properties: Toward Bone Tissue Repair
A Multimaterial Scaffold With Tunable Properties: Toward Bone Tissue Repair
Journal Article

A Multimaterial Scaffold With Tunable Properties: Toward Bone Tissue Repair

2018
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Overview
Polyetheretherketone (PEEK)/β‐tricalcium phosphate (β‐TCP) scaffolds are expected to be able to combine the excellent mechanical strength of PEEK and the good bioactivity and biodegradability of β‐TCP. While PEEK acts as a closed membrane in which β‐TCP is completely wrapped after the melting/solidifying processing, the PEEK membrane degrades very little, hence the scaffolds cannot display bioactivity and biodegradability. The strategy reported here is to blend a biodegradable polymer with PEEK and β‐TCP to fabricate multi‐material scaffolds via selective laser sintering (SLS). The biodegradable polymer first degrades and leaves caverns on the closed membrane, and then the wrapped β‐TCP is exposed to body fluid. In this study, poly(l‐lactide) (PLLA) is adopted as the biodegradable polymer. The results show that large numbers of caverns form on the membrane with the degradation of PLLA, enabling direct contact between β‐TCP and body fluid, and allowing for their ion‐exchange. As a consequence, the scaffolds display the bioactivity, biodegradability and cytocompatibility. Moreover, bone defect repair studies reveal that new bone tissues grow from the margin towards the center of the scaffolds from the histological analysis. The bone defect region is completely connected to the host bone end after 8 weeks of implantation. The biodegradation test of scaffolds reveals that many caverns form on the closed membrane due to poly(l‐lactide) (PLLA) degradation, and the caverns become larger and deeper with increasing PLLA content. As a result, the wrapped β‐tricalcium phosphate (β‐TCP) particles are exposed from the membrane into body fluid environment.

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