Evaluating Biomaterial- and Microfluidic-Based 3D Tumor Models

Evaluating Biomaterial- and Microfluidic-Based 3D Tumor Models

Cancer is a major cause of morbidity and mortality worldwide, with a disease burden estimated to increase over the coming decades. Disease heterogeneity and limited information on cancer biology and disease mechanisms are aspects that 2D cell cultures fail to address. Here, we review the current ‘st...

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Veröffentlicht in:Trends in biotechnology (Regular ed.) 2015-11, Vol.33 (11), p.667-678
Hauptverfasser: Carvalho, Mariana R, Lima, Daniela, Reis, Rui L, Correlo, Vitor M, Oliveira, Joaquim M
Format: Artikel
Sprache:eng
Schlagworte:
Advantages
Angiogenesis
Biocompatibility
Biomaterials
Biomedical materials
Breast cancer
cancer microenvironment
Cell culture
Collagen
drug discovery
Gene expression
Heterogeneity
Humans
Hydrogels
Internal Medicine
Mechanical properties
Medical research
microfluidics
Microfluidics - methods
Models, Biological
Neoplasms - physiopathology
Ovarian cancer
Physiology
Polyethylene glycol
Prostate cancer
Studies
Synthetic products
Tissue Engineering - methods
Tumors
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Beschreibung
Zusammenfassung:Cancer is a major cause of morbidity and mortality worldwide, with a disease burden estimated to increase over the coming decades. Disease heterogeneity and limited information on cancer biology and disease mechanisms are aspects that 2D cell cultures fail to address. Here, we review the current ‘state-of-the-art’ in 3D tissue-engineering (TE) models developed for, and used in, cancer research. We assess the potential for scaffold-based TE models and microfluidics to fill the gap between 2D models and clinical application. We also discuss recent advances in combining the principles of 3D TE models and microfluidics, with a special focus on biomaterials and the most promising chip-based 3D models.
ISSN:0167-7799
1879-3096
DOI:10.1016/j.tibtech.2015.09.009