Human endothelial cell growth and phenotypic expression on three dimensional poly(lactide‐co‐glycolide) sintered microsphere scaffolds for bone tissue …
Bone tissue engineering offers promising alternatives to repair and restore tissues. Our
laboratory has employed poly (lactid‐co‐glycolide) PLAGA microspheres to develop a three …
laboratory has employed poly (lactid‐co‐glycolide) PLAGA microspheres to develop a three …
An HA/PEEK scaffold with modified crystallinity via 3D-bioprinting for multiple applications in hard tissue engineering
J Chen, J Xiao, X Han, X Sima, W Guo - Biomedical Materials, 2023 - iopscience.iop.org
Hard tissues, especially teeth and bones, are highly mineralized and the large-scale defect
or total loss of them is irreversible. There is still no ideal strategy for the reconstruction of …
or total loss of them is irreversible. There is still no ideal strategy for the reconstruction of …
Preparation and characterization of tissue engineering scaffolds by composite molding of 3D printing and electrospinning
YM Ma, YY Liu, HP Chen, QX Hu - Key Engineering Materials, 2015 - Trans Tech Publ
Currently, the developed electrospinning technique is capable of producing sub-micron
diameter fibers, has better bionic of the extracellular matrix (ECM) on the size and …
diameter fibers, has better bionic of the extracellular matrix (ECM) on the size and …
[引用][C] Current applications of porous polyethylene in tissue regeneration and future use in alveolar bone defect
T Sosakul, J Suwanprateeb, B Rungroungdouyboon - Asia-Pacific Journal of Science …, 2021
Pre-vascularization of in vitro three-dimensional tissues created by cell sheet engineering
N Asakawa, T Shimizu, Y Tsuda, S Sekiya… - Biomaterials, 2010 - Elsevier
Reconstructing a vascular network is a common task for three-dimensional (3-D) tissue
engineering. Three-dimensional stratified tissues were created by stacking cell sheets, and …
engineering. Three-dimensional stratified tissues were created by stacking cell sheets, and …
Effects of fiber cross-angle structures on the mechanical property of 3D printed scaffolds and performance of seeded MC3T3-E1 cells
H Liu, L Qiu, H Liu, F Li, Y Fan, L Meng, X Sun… - ACS …, 2021 - ACS Publications
The three-dimensional (3D) printing technology combined with bone tissue engineering has
become one of the major methods for mandibular reconstruction. However, the key factor …
become one of the major methods for mandibular reconstruction. However, the key factor …
Three‐dimensional printing of porous polyethylene structure using water‐based binders
J Suwanprateeb… - Journal of Biomedical …, 2006 - Wiley Online Library
This study demonstrated a freeform fabrication of porous hydrophobic polyethylene parts by
three‐dimensional printing technique, using water‐based binder. This involved initially …
three‐dimensional printing technique, using water‐based binder. This involved initially …
Nanocellulose/PEGDA aerogel scaffolds with tunable modulus prepared by stereolithography for three-dimensional cell culture
A Tang, J Li, J Li, S Zhao, W Liu, T Liu… - Journal of Biomaterials …, 2019 - Taylor & Francis
Abstract Three-dimensional (3D) porous scaffolds made of biopolymers have attracted
significant attention in tissue engineering applications. In this study, cellulose-nanofibers …
significant attention in tissue engineering applications. In this study, cellulose-nanofibers …
[引用][C] 3D printing of polylactic acid/poly ethylene glycol/hydroxyapatite porous bone scaffolds and their biocompatibility
Z FAN, X ZHAO, QIU Shuai, W Yan… - Journal of Materials …, 2021 - jme.biam.ac.cn
Polylactic acid (PLA) is a widely used biopolymer material. However, there are
disadvantages such as poor toughness, poor hydrophilicity, and poor biological activity in …
disadvantages such as poor toughness, poor hydrophilicity, and poor biological activity in …