Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds

Although extrusion-based three-dimensional (EB-3D) printing technique has been widely used in the complex fabrication of bone tissue-engineered scaffolds, a natural bone-like radial-gradient scaffold by this processing method is of huge challenge and still unmet. Inspired by a typical fractal struct...

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Autores principales: Qu, Huawei, Han, Zhenyu, Chen, Zhigang, Tang, Lan, Gao, Chongjian, Liu, Kaizheng, Pan, Haobo, Fu, Hongya, Ruan, Changshun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: AAAS 2021
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8637129/
https://www.ncbi.nlm.nih.gov/pubmed/34909694
http://dx.doi.org/10.34133/2021/9892689
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author Qu, Huawei
Han, Zhenyu
Chen, Zhigang
Tang, Lan
Gao, Chongjian
Liu, Kaizheng
Pan, Haobo
Fu, Hongya
Ruan, Changshun
author_facet Qu, Huawei
Han, Zhenyu
Chen, Zhigang
Tang, Lan
Gao, Chongjian
Liu, Kaizheng
Pan, Haobo
Fu, Hongya
Ruan, Changshun
author_sort Qu, Huawei
collection PubMed
description Although extrusion-based three-dimensional (EB-3D) printing technique has been widely used in the complex fabrication of bone tissue-engineered scaffolds, a natural bone-like radial-gradient scaffold by this processing method is of huge challenge and still unmet. Inspired by a typical fractal structure of Koch snowflake, for the first time, a fractal-like porous scaffold with a controllable hierarchical gradient in the radial direction is presented via fractal design and then implemented by EB-3D printing. This radial-gradient structure successfully mimics the radially gradual decrease in porosity of natural bone from cancellous bone to cortical bone. First, we create a design-to-fabrication workflow with embedding the graded data on basis of fractal design into digital processing to instruct the extrusion process of fractal-like scaffolds. Further, by a combination of suitable extruded inks, a series of bone-mimicking scaffolds with a 3-iteration fractal-like structure are fabricated to demonstrate their superiority, including radial porosity, mechanical property, and permeability. This study showcases a robust strategy to overcome the limitations of conventional EB-3D printers for the design and fabrication of functionally graded scaffolds, showing great potential in bone tissue engineering.
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spelling pubmed-86371292021-12-13 Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds Qu, Huawei Han, Zhenyu Chen, Zhigang Tang, Lan Gao, Chongjian Liu, Kaizheng Pan, Haobo Fu, Hongya Ruan, Changshun Research (Wash D C) Research Article Although extrusion-based three-dimensional (EB-3D) printing technique has been widely used in the complex fabrication of bone tissue-engineered scaffolds, a natural bone-like radial-gradient scaffold by this processing method is of huge challenge and still unmet. Inspired by a typical fractal structure of Koch snowflake, for the first time, a fractal-like porous scaffold with a controllable hierarchical gradient in the radial direction is presented via fractal design and then implemented by EB-3D printing. This radial-gradient structure successfully mimics the radially gradual decrease in porosity of natural bone from cancellous bone to cortical bone. First, we create a design-to-fabrication workflow with embedding the graded data on basis of fractal design into digital processing to instruct the extrusion process of fractal-like scaffolds. Further, by a combination of suitable extruded inks, a series of bone-mimicking scaffolds with a 3-iteration fractal-like structure are fabricated to demonstrate their superiority, including radial porosity, mechanical property, and permeability. This study showcases a robust strategy to overcome the limitations of conventional EB-3D printers for the design and fabrication of functionally graded scaffolds, showing great potential in bone tissue engineering. AAAS 2021-11-23 /pmc/articles/PMC8637129/ /pubmed/34909694 http://dx.doi.org/10.34133/2021/9892689 Text en Copyright © 2021 Huawei Qu et al. https://creativecommons.org/licenses/by/4.0/Exclusive Licensee Science and Technology Review Publishing House. Distributed under a Creative Commons Attribution License (CC BY 4.0).
spellingShingle Research Article
Qu, Huawei
Han, Zhenyu
Chen, Zhigang
Tang, Lan
Gao, Chongjian
Liu, Kaizheng
Pan, Haobo
Fu, Hongya
Ruan, Changshun
Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds
title Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds
title_full Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds
title_fullStr Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds
title_full_unstemmed Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds
title_short Fractal Design Boosts Extrusion-Based 3D Printing of Bone-Mimicking Radial-Gradient Scaffolds
title_sort fractal design boosts extrusion-based 3d printing of bone-mimicking radial-gradient scaffolds
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8637129/
https://www.ncbi.nlm.nih.gov/pubmed/34909694
http://dx.doi.org/10.34133/2021/9892689
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