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Three-dimensional cell culture matrices: state of the art

Traditional methods of cell growth and manipulation on 2-dimensional (2D) surfaces have been shown to be insufficient for new challenges of cell biology and biochemistry, as well as in pharmaceutical assays. Advances in materials chemistry, materials fabrication and processing technologies, and deve... Full description

Journal Title: Tissue engineering. Part B Reviews, 2008-03, Vol.14 (1), p.61-86
Main Author: Lee, Jungwoo
Other Authors: Cuddihy, Meghan J , Kotov, Nicholas A
Format: Electronic Article Electronic Article
Language: English
Subjects:
Quelle: Alma/SFX Local Collection
Publisher: United States: Mary Ann Liebert, Inc
ID: ISSN: 1937-3368
Link: https://www.ncbi.nlm.nih.gov/pubmed/18454635
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title: Three-dimensional cell culture matrices: state of the art
format: Article
creator:
  • Lee, Jungwoo
  • Cuddihy, Meghan J
  • Kotov, Nicholas A
subjects:
  • 3-D graphics
  • Animals
  • Biochemistry
  • Biocompatible Materials - chemistry
  • Biology
  • Biomedical Engineering - instrumentation
  • Biomedical Engineering - methods
  • Cell culture
  • Cell Culture Techniques - instrumentation
  • Cell Culture Techniques - methods
  • Cell Proliferation
  • Cells
  • Culture Media - chemistry
  • Culture Techniques - instrumentation
  • Culture Techniques - methods
  • Humans
  • Imaging, Three-Dimensional
  • Materials Testing
  • Matrix
  • Methods
  • Microscopy, Electron, Scanning
  • Nanotechnology - methods
  • Physiological aspects
  • Surface Properties
  • Tissue Engineering - instrumentation
  • Tissue Engineering - methods
ispartof: Tissue engineering. Part B, Reviews, 2008-03, Vol.14 (1), p.61-86
description: Traditional methods of cell growth and manipulation on 2-dimensional (2D) surfaces have been shown to be insufficient for new challenges of cell biology and biochemistry, as well as in pharmaceutical assays. Advances in materials chemistry, materials fabrication and processing technologies, and developmental biology have led to the design of 3D cell culture matrices that better represent the geometry, chemistry, and signaling environment of natural extracellular matrix. In this review, we present the status of state-of-the-art 3D cell-growth techniques and scaffolds and analyze them from the perspective of materials properties, manufacturing, and functionality. Particular emphasis was placed on tissue engineering and in vitro modeling of human organs, where we see exceptionally strong potential for 3D scaffolds and cell-growth methods. We also outline key challenges in this field and most likely directions for future development of 3D cell culture over the period of 5-10 years.
language: eng
source: Alma/SFX Local Collection
identifier: ISSN: 1937-3368
fulltext: fulltext
issn:
  • 1937-3368
  • 1937-3376
url: Link


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descriptionTraditional methods of cell growth and manipulation on 2-dimensional (2D) surfaces have been shown to be insufficient for new challenges of cell biology and biochemistry, as well as in pharmaceutical assays. Advances in materials chemistry, materials fabrication and processing technologies, and developmental biology have led to the design of 3D cell culture matrices that better represent the geometry, chemistry, and signaling environment of natural extracellular matrix. In this review, we present the status of state-of-the-art 3D cell-growth techniques and scaffolds and analyze them from the perspective of materials properties, manufacturing, and functionality. Particular emphasis was placed on tissue engineering and in vitro modeling of human organs, where we see exceptionally strong potential for 3D scaffolds and cell-growth methods. We also outline key challenges in this field and most likely directions for future development of 3D cell culture over the period of 5-10 years.
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subject3-D graphics ; Animals ; Biochemistry ; Biocompatible Materials - chemistry ; Biology ; Biomedical Engineering - instrumentation ; Biomedical Engineering - methods ; Cell culture ; Cell Culture Techniques - instrumentation ; Cell Culture Techniques - methods ; Cell Proliferation ; Cells ; Culture Media - chemistry ; Culture Techniques - instrumentation ; Culture Techniques - methods ; Humans ; Imaging, Three-Dimensional ; Materials Testing ; Matrix ; Methods ; Microscopy, Electron, Scanning ; Nanotechnology - methods ; Physiological aspects ; Surface Properties ; Tissue Engineering - instrumentation ; Tissue Engineering - methods
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abstractTraditional methods of cell growth and manipulation on 2-dimensional (2D) surfaces have been shown to be insufficient for new challenges of cell biology and biochemistry, as well as in pharmaceutical assays. Advances in materials chemistry, materials fabrication and processing technologies, and developmental biology have led to the design of 3D cell culture matrices that better represent the geometry, chemistry, and signaling environment of natural extracellular matrix. In this review, we present the status of state-of-the-art 3D cell-growth techniques and scaffolds and analyze them from the perspective of materials properties, manufacturing, and functionality. Particular emphasis was placed on tissue engineering and in vitro modeling of human organs, where we see exceptionally strong potential for 3D scaffolds and cell-growth methods. We also outline key challenges in this field and most likely directions for future development of 3D cell culture over the period of 5-10 years.
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