TY - JOUR
T1 - Fabrication of bioactive glass scaffolds by stereolithography
T2 - Influence of particle size and surfactant concentration
AU - Chiu, Kuan Yu
AU - Huang, Chih Ling
AU - Huang, Jian Yuan
AU - Lee, Tzer Min
AU - Dong, Guo Chung
AU - Chen, Ker Kong
AU - Wang, Yan Hsiung
N1 - Funding Information:
The authors gratefully acknowledge the Metal Industries Research & Development Centre for the use of research resources and equipment to support this project. This study was funded by the Ministry of Science and Technology of Taiwan ( NSTC 110-2622-B-037-001 and MOST111-2314-B-037-045 ), Kaohsiung Medical University Research Foundation (grant number KMU- KI109004 ) and Kaohsiung Medical University Hospital (grant number KMUH110-0M64 ).
Publisher Copyright:
© 2023
PY - 2023/5/15
Y1 - 2023/5/15
N2 - For decades, bioactive glass (BAG) has been utilized as a competent bone substitute owing to its intrinsic properties, such as outstanding biocompatibility and bioresorbability. Stereolithography (SL) is an additive manufacturing technology used to produce highly accurate three-dimensional BAG-based bone substitutes. However, the preparation of BAG-based SL resin is always a challenge, especially because of the inevitable sedimentation of BAG particles. In this study, BAG particles with different sizes were prepared by dry grinding (BAGdry, greater particle size) and wet grinding (BAGwet, finer particle size). Then, BAGdry or BAGwet SL resins with various amounts of surfactant were analyzed. The sedimentation rate for BAG powder increased with increasing particle size but decreased with increasing amounts of surfactant added to the resin. BAGwet SL resins had a longer shelf life, so printing could still be finished after 14 days, whereas BAGdry SL resins were no longer useable after 5 days. However, the BAG particle size did not affect the printing accuracy or scaffold strength. According to our results, BAG-based SL resin fabricated with BAGwet (particle size <1.6 μm) and 5 wt% surfactant exhibited better resistance to sedimentation.
AB - For decades, bioactive glass (BAG) has been utilized as a competent bone substitute owing to its intrinsic properties, such as outstanding biocompatibility and bioresorbability. Stereolithography (SL) is an additive manufacturing technology used to produce highly accurate three-dimensional BAG-based bone substitutes. However, the preparation of BAG-based SL resin is always a challenge, especially because of the inevitable sedimentation of BAG particles. In this study, BAG particles with different sizes were prepared by dry grinding (BAGdry, greater particle size) and wet grinding (BAGwet, finer particle size). Then, BAGdry or BAGwet SL resins with various amounts of surfactant were analyzed. The sedimentation rate for BAG powder increased with increasing particle size but decreased with increasing amounts of surfactant added to the resin. BAGwet SL resins had a longer shelf life, so printing could still be finished after 14 days, whereas BAGdry SL resins were no longer useable after 5 days. However, the BAG particle size did not affect the printing accuracy or scaffold strength. According to our results, BAG-based SL resin fabricated with BAGwet (particle size <1.6 μm) and 5 wt% surfactant exhibited better resistance to sedimentation.
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U2 - 10.1016/j.ceramint.2023.01.113
DO - 10.1016/j.ceramint.2023.01.113
M3 - Article
AN - SCOPUS:85146317447
SN - 0272-8842
VL - 49
SP - 15295
EP - 15303
JO - Ceramics International
JF - Ceramics International
IS - 10
ER -