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Literature DB >> 21799707

Preface to Special Topic: Microfluidics in cell biology and tissue engineering.

Abstract

In this special issue of Biomicrofluidics, a wide variety of applications of microfluidics to tissue engineering and cell biology are presented. The articles illustrate the benefits of using microfluidics for controlling the cellular environment in a precise yet high rate manner using minimum reagents. The topic is very timely and takes a stab at portraying a glimpse of what is to come in this exciting and emerging field of research.

Year: 2011 PMID： 21799707 PMCID： PMC3145226 DOI： 10.1063/1.3594781

Source DB: PubMed Journal: Biomicrofluidics ISSN： 1932-1058 Impact factor: 2.800

11 in total

1. Generation of dynamic temporal and spatial concentration gradients using microfluidic devices.

Authors: Francis Lin; Wajeeh Saadi; Seog Woo Rhee; Shur-Jen Wang; Sukant Mittal; Noo Li Jeon
Journal: Lab Chip Date: 2004-03-24 Impact factor: 6.799

2. Stem cells in microfluidics.

Authors: Huei-Wen Wu; Chun-Che Lin; Gwo-Bin Lee
Journal: Biomicrofluidics Date: 2011-03-30 Impact factor: 2.800

3. Exploitation of physical and chemical constraints for three-dimensional microtissue construction in microfluidics.

Authors: Deepak Choudhury; Xuejun Mo; Ciprian Iliescu; Loo Ling Tan; Wen Hao Tong; Hanry Yu
Journal: Biomicrofluidics Date: 2011-06-29 Impact factor: 2.800

4. Perfusion systems that minimize vascular volume fraction in engineered tissues.

Authors: James G Truslow; Joe Tien
Journal: Biomicrofluidics Date: 2011-06-29 Impact factor: 2.800

5. Transport and shear in a microfluidic membrane bilayer device for cell culture.

Authors: Niraj K Inamdar; Linda G Griffith; Jeffrey T Borenstein
Journal: Biomicrofluidics Date: 2011-06-29 Impact factor: 2.800

6. Microfluidic wet spinning of chitosan-alginate microfibers and encapsulation of HepG2 cells in fibers.

Authors: Bo Ram Lee; Kwang Ho Lee; Edward Kang; Dong-Sik Kim; Sang-Hoon Lee
Journal: Biomicrofluidics Date: 2011-06-29 Impact factor: 2.800

7. A modular cell culture device for generating arrays of gradients using stacked microfluidic flows.

Authors: Christopher G Sip; Nirveek Bhattacharjee; Albert Folch
Journal: Biomicrofluidics Date: 2011-06-29 Impact factor: 2.800

8. High-throughput size-based rare cell enrichment using microscale vortices.

Authors: Soojung Claire Hur; Albert J Mach; Dino Di Carlo
Journal: Biomicrofluidics Date: 2011-06-29 Impact factor: 2.800

9. Superior oxygen and glucose supply in perfusion cell cultures compared to static cell cultures demonstrated by simulations using the finite element method.

Authors: Shinji Sugiura; Yusuke Sakai; Kohji Nakazawa; Toshiyuki Kanamori
Journal: Biomicrofluidics Date: 2011-06-29 Impact factor: 2.800

10. Endothelialized networks with a vascular geometry in microfabricated poly(dimethyl siloxane).

Authors: Michael Shin; Kant Matsuda; Osamu Ishii; Hidetomi Terai; Mohammed Kaazempur-Mofrad; Jeffrey Borenstein; Michael Detmar; Joseph P Vacanti
Journal: Biomed Microdevices Date: 2004-12 Impact factor: 2.838

1 in total

1. 3D porous chitosan scaffolds suit survival and neural differentiation of dental pulp stem cells.

Authors: Xingmei Feng; Xiaohui Lu; Dan Huang; Jing Xing; Guijuan Feng; Guohua Jin; Xin Yi; Liren Li; Yuanzhou Lu; Dekang Nie; Xiang Chen; Lei Zhang; Zhifeng Gu; Xinhua Zhang
Journal: Cell Mol Neurobiol Date: 2014-05-01 Impact factor: 5.046

1 in total