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Literature DB >> 25792263

Organs-on-chips at the frontiers of drug discovery.

Eric W Esch¹, Anthony Bahinski², Dongeun Huh¹.

Abstract

Improving the effectiveness of preclinical predictions of human drug responses is critical to reducing costly failures in clinical trials. Recent advances in cell biology, microfabrication and microfluidics have enabled the development of microengineered models of the functional units of human organs - known as organs-on-chips - that could provide the basis for preclinical assays with greater predictive power. Here, we examine the new opportunities for the application of organ-on-chip technologies in a range of areas in preclinical drug discovery, such as target identification and validation, target-based screening, and phenotypic screening. We also discuss emerging drug discovery opportunities enabled by organs-on-chips, as well as important challenges in realizing the full potential of this technology.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Year: 2015 PMID： 25792263 PMCID： PMC4826389 DOI： 10.1038/nrd4539

Source DB: PubMed Journal: Nat Rev Drug Discov ISSN： 1474-1776 Impact factor: 84.694

103 in total

1. Ensembles of engineered cardiac tissues for physiological and pharmacological study: heart on a chip.

Authors: Anna Grosberg; Patrick W Alford; Megan L McCain; Kevin Kit Parker
Journal: Lab Chip Date: 2011-11-10 Impact factor: 6.799

Review 2. Engineered approaches to the stem cell microenvironment for cardiac tissue regeneration.

Authors: Ebrahim Ghafar-Zadeh; John R Waldeisen; Luke P Lee
Journal: Lab Chip Date: 2011-07-25 Impact factor: 6.799

3. A murine lung cancer co-clinical trial identifies genetic modifiers of therapeutic response.

Authors: Zhao Chen; Katherine Cheng; Zandra Walton; Yuchuan Wang; Hiromichi Ebi; Takeshi Shimamura; Yan Liu; Tanya Tupper; Jing Ouyang; Jie Li; Peng Gao; Michele S Woo; Chunxiao Xu; Masahiko Yanagita; Abigail Altabef; Shumei Wang; Charles Lee; Yuji Nakada; Christopher G Peña; Yanping Sun; Yoko Franchetti; Catherine Yao; Amy Saur; Michael D Cameron; Mizuki Nishino; D Neil Hayes; Matthew D Wilkerson; Patrick J Roberts; Carrie B Lee; Nabeel Bardeesy; Mohit Butaney; Lucian R Chirieac; Daniel B Costa; David Jackman; Norman E Sharpless; Diego H Castrillon; George D Demetri; Pasi A Jänne; Pier Paolo Pandolfi; Lewis C Cantley; Andrew L Kung; Jeffrey A Engelman; Kwok-Kin Wong
Journal: Nature Date: 2012-03-18 Impact factor: 49.962

4. Comparison of biocompatibility and adsorption properties of different plastics for advanced microfluidic cell and tissue culture models.

Authors: Paul M van Midwoud; Arnout Janse; Marjolijn T Merema; Geny M M Groothuis; Elisabeth Verpoorte
Journal: Anal Chem Date: 2012-04-11 Impact factor: 6.986

Review 5. Physiologically relevant organs on chips.

Authors: Kyungsuk Yum; Soon Gweon Hong; Kevin E Healy; Luke P Lee
Journal: Biotechnol J Date: 2013-12-04 Impact factor: 4.677

6. Evaluation of seven drug metabolisms and clearances by cryopreserved human primary hepatocytes cultivated in microfluidic biochips.

Authors: Régis Baudoin; Jean Matthieu Prot; Grégory Nicolas; Jessy Brocheton; Céline Brochot; Cécile Legallais; Henri Benech; Eric Leclerc
Journal: Xenobiotica Date: 2012-07-25 Impact factor: 1.908

7. Astrocyte-neuron co-culture on microchips based on the model of SOD mutation to mimic ALS.

Authors: Anja Kunze; Sylvain Lengacher; Elisabeth Dirren; Patrick Aebischer; Pierre J Magistretti; Philippe Renaud
Journal: Integr Biol (Camb) Date: 2013-05-22 Impact factor: 2.192

8. Approaching the in vitro clinical trial: engineering organs on chips.

Authors: A K Capulli; K Tian; N Mehandru; A Bukhta; S F Choudhury; M Suchyta; K K Parker
Journal: Lab Chip Date: 2014-09-07 Impact factor: 6.799

9. Evaluation of a microfluidic based cell culture platform with primary human hepatocytes for the prediction of hepatic clearance in human.

Authors: P Chao; T Maguire; E Novik; K-C Cheng; M L Yarmush
Journal: Biochem Pharmacol Date: 2009-05-20 Impact factor: 5.858

10. A human disease model of drug toxicity-induced pulmonary edema in a lung-on-a-chip microdevice.

Authors: Dongeun Huh; Daniel C Leslie; Benjamin D Matthews; Jacob P Fraser; Samuel Jurek; Geraldine A Hamilton; Kevin S Thorneloe; Michael Allen McAlexander; Donald E Ingber
Journal: Sci Transl Med Date: 2012-11-07 Impact factor: 17.956

282 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. Optogenetics enlightens neuroscience drug discovery.

Authors: Chenchen Song; Thomas Knöpfel
Journal: Nat Rev Drug Discov Date: 2015-11-27 Impact factor: 84.694

3. Small airway-on-a-chip enables analysis of human lung inflammation and drug responses in vitro.

Authors: Kambez H Benam; Remi Villenave; Carolina Lucchesi; Antonio Varone; Cedric Hubeau; Hyun-Hee Lee; Stephen E Alves; Michael Salmon; Thomas C Ferrante; James C Weaver; Anthony Bahinski; Geraldine A Hamilton; Donald E Ingber
Journal: Nat Methods Date: 2015-12-21 Impact factor: 28.547

Review 4. Tumour-on-a-chip: microfluidic models of tumour morphology, growth and microenvironment.

Authors: Hsieh-Fu Tsai; Alen Trubelja; Amy Q Shen; Gang Bao
Journal: J R Soc Interface Date: 2017-06 Impact factor: 4.118

5. Multi-functional scaling methodology for translational pharmacokinetic and pharmacodynamic applications using integrated microphysiological systems (MPS).

Authors: Christian Maass; Cynthia L Stokes; Linda G Griffith; Murat Cirit
Journal: Integr Biol (Camb) Date: 2017-04-18 Impact factor: 2.192