Microfibers as Physiologically Relevant Platforms for Creation of 3D Cell Cultures
Abstract
Microfibers have received much attention due to their promise for creating flexible and highly relevant tissue models for use in biomedical applications such as 3D cell culture, tissue modeling, and clinical treatments. A generated tissue or implanted material should mimic the natural microenvironment in terms of structural and mechanical properties as well as cell adhesion, differentiation, and growth rate. Therefore, the mechanical and biological properties of the fibers are of importance. This paper briefly introduces common fiber fabrication approaches, provides examples of polymers used in biomedical applications, and then reviews the methods applied to modify the mechanical and biological properties of fibers fabricated using different approaches for creating a highly controlled microenvironment for cell culturing. It is shown that microfibers are a highly tunable and versatile tool with great promise for creating 3D cell cultures with specific properties.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Nov 17, 2017
- Source ID
- 10.1002/mabi.201700279
Entities
People
- Alex H. Wrede
- Daniel F. Kimlinger
- Deepakāgeorge Thomas
- Farrokh Sharifi
- Jonathan B. Vander Wiel
- Marilyn C McNamara
- Nicole Hashemi
- Reza Montazami
- Yuanfen Chen
Organizations
- Iowa State University
- Office of Naval Research