Micro-Engineered 3D Scaffolds for Cell Culture Studies

被引：114

作者：

Greiner, Alexandra M. ^{[1
]}

Richter, Benjamin ^{[1
,2
]}

Bastmeyer, Martin ^{[1
,2
]}

机构：

[1] KIT, Dept Cell & Neurobiol, D-76131 Karlsruhe, Germany

[2] KIT, DFG Ctr Funct Nanostruct, D-76131 Karlsruhe, Germany

来源：

MACROMOLECULAR BIOSCIENCE | 2012年 / 12卷 / 10期

关键词：

bioengineering; biological applications of polymers; direct laser writing; three-dimensional cell cultures; two-photon polymerization; 2-PHOTON POLYMERIZATION; EXTRACELLULAR-MATRIX; SUBSTRATE TOPOGRAPHY; FIBROBLAST CELLS; SOFT LITHOGRAPHY; MIGRATION; CHEMISTRY; HYDROGELS; PROTEINS; MECHANOTRANSDUCTION;

D O I：

10.1002/mabi.201200132

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Cells in physiological 3D environments differ considerably in morphology and differentiation from those in 2D tissue culture. Naturally derived polymer systems are frequently used to study cells in 3D. These 3D matrices are complex with respect to their chemical composition, mechanical properties, and geometry. Therefore, there is a demand for well-defined 3D scaffolds to systematically investigate cell behavior in 3D. Here, fabrication techniques, materials, architectures, biochemical functionalizations, and mechanical properties of 3D scaffolds are discussed. In particular, work focusing on single cells and small cell assemblies grown in tailored synthetic 3D scaffolds fabricated by computer-based techniques are reviewed and the influence of these environments on cell behavior is evaluated.

引用

页码：1301 / 1314

页数：14

共 50 条

[31] Design And Development Of Microfluidic Devices With Internal Scaffolds For 3D Cell Culture
Monge, R.
Vigueras, A.
Esteve, V.
Movilla, N.
Moroni, L.
Laouenan, F.
Berganzo, J.
Santolaria, J.
Doblare, M.
Ochoa, I.
Fernandez, L. J.
MOLECULAR BIOLOGY OF THE CELL, 2013, 24
[32] Technology platform for facile handling of 3D hydrogel cell culture scaffolds
Pohlit, Hannah
Bohlin, Jan
Katiyar, Neeraj
Hilborn, Joens
Tenje, Maria
SCIENTIFIC REPORTS, 2023, 13 (01)
[33] Development of nanocellulose scaffolds with tunable structures to support 3D cell culture
Liu, Jun
Cheng, Fang
Grenman, Henrik
Spoljaric, Steven
Seppala, Jukka
Eriksson, John E.
Willfor, Stefan
Xu, Chunlin
CARBOHYDRATE POLYMERS, 2016, 148 : 259 - 271
[34] High-Transconductance, Highly Elastic, Durable and Recyclable All-Polymer Electrochemical Transistors with 3D Micro-Engineered Interfaces
Wenjin Wang
Zhaoxian Li
Mancheng Li
Lvye Fang
Fubin Chen
Songjia Han
Liuyuan Lan
Junxin Chen
Qize Chen
Hongshang Wang
Chuan Liu
Yabin Yang
Wan Yue
Zhuang Xie
Nano-Micro Letters, 2022, 14 (11) : 243 - 261
[35] High-Transconductance, Highly Elastic, Durable and Recyclable All-Polymer Electrochemical Transistors with 3D Micro-Engineered Interfaces
Wang, Wenjin
Li, Zhaoxian
Li, Mancheng
Fang, Lvye
Chen, Fubin
Han, Songjia
Lan, Liuyuan
Chen, Junxin
Chen, Qize
Wang, Hongshang
Liu, Chuan
Yang, Yabin
Yue, Wan
Xie, Zhuang
NANO-MICRO LETTERS, 2022, 14 (01)
[36] Developing Decellularized Plant Scaffolds as a 3D in vitro Cell Culture Platform
Sword, C. A.
Kubow, K. E.
MOLECULAR BIOLOGY OF THE CELL, 2023, 34 (02) : 759 - 759
[37] 3D Printed Nanocellulose Scaffolds as a Cancer Cell Culture Model System
Rosendahl, Jennifer
Svanstrom, Andreas
Berglin, Mattias
Petronis, Sarunas
Bogestal, Yalda
Stenlund, Patrik
Standoft, Simon
Stahlberg, Anders
Landberg, Goran
Chinga-Carrasco, Gary
Hakansson, Joakim
BIOENGINEERING-BASEL, 2021, 8 (07):
[38] Optimization of Poli(ε-caprolactone) scaffolds suitable for 3D cancer cell culture
Ariadna, Giro-Perafita
Marc, Rabionet
Teresa, Puig
Joaquim, Ciurana
SECOND CIRP CONFERENCE ON BIOMANUFACTURING, 2016, 49 : 61 - 66
[39] Self-folding photopatterned hydrogel scaffolds for 3D cell culture
Kwag, Hye Rin
Serbo, Janna
Romer, Lewis
Gracias, David
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2015, 249
[40] TISSUE ENGINEERED SCAFFOLDS FOR STUDYING GLIOBLASTOMA INVASION IN 3D
Sirianni, Rachael W.
Heffernan, John M.
Overstreet, Derek J.
NEURO-ONCOLOGY, 2013, 15 : 239 - 239

← 1 2 3 4 5 →