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Literature DB >> 22033488

From 3D cell culture to organs-on-chips.

Dongeun Huh¹, Geraldine A Hamilton, Donald E Ingber.

Abstract

3D cell-culture models have recently garnered great attention because they often promote levels of cell differentiation and tissue organization not possible in conventional 2D culture systems. We review new advances in 3D culture that leverage microfabrication technologies from the microchip industry and microfluidics approaches to create cell-culture microenvironments that both support tissue differentiation and recapitulate the tissue-tissue interfaces, spatiotemporal chemical gradients, and mechanical microenvironments of living organs. These 'organs-on-chips' permit the study of human physiology in an organ-specific context, enable development of novel in vitro disease models, and could potentially serve as replacements for animals used in drug development and toxin testing.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Membranes, Artificial

Year: 2011 PMID： 22033488 PMCID： PMC4386065 DOI： 10.1016/j.tcb.2011.09.005

Source DB: PubMed Journal: Trends Cell Biol ISSN： 0962-8924 Impact factor: 20.808

84 in total

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Journal: Nature Date: 2001-06-28 Impact factor: 49.962

2. Lateral propagation of EGF signaling after local stimulation is dependent on receptor density.

Authors: Asako Sawano; Shuichi Takayama; Michiyuki Matsuda; Atsushi Miyawaki
Journal: Dev Cell Date: 2002-08 Impact factor: 12.270

3. Microfluidic platform for chemotaxis in gradients formed by CXCL12 source-sink cells.

Authors: Yu-Suke Torisawa; Bobak Mosadegh; Tommaso Bersano-Begey; Jessica M Steele; Kathryn E Luker; Gary D Luker; Shuichi Takayama
Journal: Integr Biol (Camb) Date: 2010-09-27 Impact factor: 2.192

4. Gradient generation by an osmotic pump and the behavior of human mesenchymal stem cells under the fetal bovine serum concentration gradient.

Authors: Joong Yull Park; Chang Mo Hwang; Soon Hyuck Lee; Sang-Hoon Lee
Journal: Lab Chip Date: 2007-09-06 Impact factor: 6.799

5. Efficient formation of uniform-sized embryoid bodies using a compartmentalized microchannel device.

Authors: Yu-suke Torisawa; Bor-han Chueh; Dongeun Huh; Poornapriya Ramamurthy; Therese M Roth; Kate F Barald; Shuichi Takayama
Journal: Lab Chip Date: 2007-04-20 Impact factor: 6.799

6. An integrated microfluidic system for long-term perfusion culture and on-line monitoring of intestinal tissue models.

Authors: Hiroshi Kimura; Takatoki Yamamoto; Hitomi Sakai; Yasuyuki Sakai; Teruo Fujii
Journal: Lab Chip Date: 2008-04-04 Impact factor: 6.799

7. In vitro zonation and toxicity in a hepatocyte bioreactor.

Authors: Jared W Allen; Salman R Khetani; Sangeeta N Bhatia
Journal: Toxicol Sci Date: 2004-12-08 Impact factor: 4.849

8. Fluorescence monitoring of ATP-stimulated, endothelium-derived nitric oxide production in channels of a poly(dimethylsiloxane)-based microfluidic device.

Authors: Teresa D'Amico Oblak; Paul Root; Dana M Spence
Journal: Anal Chem Date: 2006-05-01 Impact factor: 6.986

9. Integrated Elastomeric Components for Autonomous Regulation of Sequential and Oscillatory Flow Switching in Microfluidic Devices.

Authors: Bobak Mosadegh; Chuan-Hsien Kuo; Yi-Chung Tung; Yu-Suke Torisawa; Tommaso Bersano-Begey; Hossein Tavana; Shuichi Takayama
Journal: Nat Phys Date: 2010-06-01 Impact factor: 20.034

10. Extracellular matrix controls myosin light chain phosphorylation and cell contractility through modulation of cell shape and cytoskeletal prestress.

Authors: Thomas R Polte; Gabriel S Eichler; Ning Wang; Donald E Ingber
Journal: Am J Physiol Cell Physiol Date: 2004-03 Impact factor: 4.249

430 in total

1. Microphysiological Systems to Assess Nonclinical Toxicity.

Authors: Kirk P Van Ness; Shih-Yu Chang; Elijah J Weber; Danielle Zumpano; David L Eaton; Edward J Kelly
Journal: Curr Protoc Toxicol Date: 2017-08-04

Review 2. Progress in material design for biomedical applications.

Authors: Mark W Tibbitt; Christopher B Rodell; Jason A Burdick; Kristi S Anseth
Journal: Proc Natl Acad Sci U S A Date: 2015-11-24 Impact factor: 11.205

3. Lab-on-a-chip workshop activities for secondary school students.

Authors: Mohammad M N Esfahani; Mark D Tarn; Tahmina A Choudhury; Laura C Hewitt; Ashley J Mayo; Theodore A Rubin; Mathew R Waller; Martin G Christensen; Amy Dawson; Nicole Pamme
Journal: Biomicrofluidics Date: 2016-02-02 Impact factor: 2.800

Review 4. Organ-on-a-chip for assessing environmental toxicants.

Authors: Soohee Cho; Jeong-Yeol Yoon
Journal: Curr Opin Biotechnol Date: 2017-01-11 Impact factor: 9.740

5. Human stroma and epithelium co-culture in a microfluidic model of a human prostate gland.

Authors: L Jiang; F Ivich; S Tahsin; M Tran; S B Frank; C K Miranti; Y Zohar
Journal: Biomicrofluidics Date: 2019-11-20 Impact factor: 2.800

6. Bone-chip system to monitor osteogenic differentiation using optical imaging.

Authors: Dmitriy Sheyn; Doron Cohn-Yakubovich; Shiran Ben-David; Sandra De Mel; Virginia Chan; Christopher Hinojosa; Norman Wen; Geraldine A Hamilton; Dan Gazit; Zulma Gazit
Journal: Microfluid Nanofluidics Date: 2019-07-06 Impact factor: 2.529

7. Integrated Biophysical Characterization of Fibrillar Collagen-Based Hydrogels.

Authors: Alex Avendano; Jonathan J Chang; Marcos G Cortes-Medina; Aaron J Seibel; Bitania R Admasu; Cassandra M Boutelle; Andrew R Bushman; Ayush Arpit Garg; Cameron M DeShetler; Sara L Cole; Jonathan W Song
Journal: ACS Biomater Sci Eng Date: 2020-02-05