Literature DB >> 31988458

Robotic fluidic coupling and interrogation of multiple vascularized organ chips.

Richard Novak1, Debarun Das2, Anna Herland1,3, Ben M Maoz1,4,5, Mahadevabharath R Somayaji2, Rachelle Prantil-Baun1, Miles Ingram1, Susan Marquez1, Aaron Delahanty1, Sauveur S F Jeanty1,6, Morgan Burt1, Elizabeth Calamari1, Angeliki Chalkiadaki1, Alexander Cho2, Youngjae Choe1, David Benson Chou1,7, Michael Cronce1, Stephanie Dauth1,4, Toni Divic1, Jose Fernandez-Alcon1,6, Thomas Ferrante1, John Ferrier1,4, Edward A FitzGerald1, Rachel Fleming1, Sasan Jalili-Firoozinezhad1,8, Thomas Grevesse1,4, Josue A Goss1,4, Tiama Hamkins-Indik1, Olivier Henry1, Chris Hinojosa1,6, Tessa Huffstater1, Kyung-Jin Jang1,6, Ville Kujala1,4,6, Lian Leng1,6, Robert Mannix1,9, Yuka Milton1, Janna Nawroth1,4,6, Bret A Nestor1, Carlos F Ng1, Blakely O'Connor1,4, Tae-Eun Park1, Henry Sanchez1, Josiah Sliz1,6, Alexandra Sontheimer-Phelps1,10, Ben Swenor1, Guy Thompson1,6, George J Touloumes1,4, Zachary Tranchemontagne1, Norman Wen1,6, Moran Yadid1,4, Anthony Bahinski1,11, Geraldine A Hamilton1,6, Daniel Levner1,6, Oren Levy1, Andrzej Przekwas2, Kevin K Parker1,4, Donald E Ingber12,13,14.   

Abstract

Organ chips can recapitulate organ-level (patho)physiology, yet pharmacokinetic and pharmacodynamic analyses require multi-organ systems linked by vascular perfusion. Here, we describe an 'interrogator' that employs liquid-handling robotics, custom software and an integrated mobile microscope for the automated culture, perfusion, medium addition, fluidic linking, sample collection and in situ microscopy imaging of up to ten organ chips inside a standard tissue-culture incubator. The robotic interrogator maintained the viability and organ-specific functions of eight vascularized, two-channel organ chips (intestine, liver, kidney, heart, lung, skin, blood-brain barrier and brain) for 3 weeks in culture when intermittently fluidically coupled via a common blood substitute through their reservoirs of medium and endothelium-lined vascular channels. We used the robotic interrogator and a physiological multicompartmental reduced-order model of the experimental system to quantitatively predict the distribution of an inulin tracer perfused through the multi-organ human-body-on-chips. The automated culture system enables the imaging of cells in the organ chips and the repeated sampling of both the vascular and interstitial compartments without compromising fluidic coupling.

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Year:  2020        PMID: 31988458      PMCID: PMC8057865          DOI: 10.1038/s41551-019-0497-x

Source DB:  PubMed          Journal:  Nat Biomed Eng        ISSN: 2157-846X            Impact factor:   25.671


  54 in total

Review 1.  Microfluidic-based vascularized microphysiological systems.

Authors:  Somin Lee; Jihoon Ko; Dohyun Park; Seung-Ryeol Lee; Minhwan Chung; Younggyun Lee; Noo Li Jeon
Journal:  Lab Chip       Date:  2018-09-11       Impact factor: 6.799

2.  Microfluidic organs-on-chips.

Authors:  Sangeeta N Bhatia; Donald E Ingber
Journal:  Nat Biotechnol       Date:  2014-08       Impact factor: 54.908

Review 3.  Lost in translation: animal models and clinical trials in cancer treatment.

Authors:  Isabella Wy Mak; Nathan Evaniew; Michelle Ghert
Journal:  Am J Transl Res       Date:  2014-01-15       Impact factor: 4.060

4.  Predictive toxicology today: the transition from biological knowledge to practicable models.

Authors:  Romualdo Benigni
Journal:  Expert Opin Drug Metab Toxicol       Date:  2016-07-07       Impact factor: 4.481

Review 5.  Application of Microphysiological Systems to Enhance Safety Assessment in Drug Discovery.

Authors:  Lorna Ewart; Eva-Maria Dehne; Kristin Fabre; Susan Gibbs; James Hickman; Ellinor Hornberg; Magnus Ingelman-Sundberg; Kyung-Jin Jang; David R Jones; Volker M Lauschke; Uwe Marx; Jerome T Mettetal; Amy Pointon; Dominic Williams; Wolfram-Hubertus Zimmermann; Peter Newham
Journal:  Annu Rev Pharmacol Toxicol       Date:  2017-10-13       Impact factor: 13.820

Review 6.  Physiologically Based Pharmacokinetic and Pharmacodynamic Analysis Enabled by Microfluidically Linked Organs-on-Chips.

Authors:  Rachelle Prantil-Baun; Richard Novak; Debarun Das; Mahadevabharath R Somayaji; Andrzej Przekwas; Donald E Ingber
Journal:  Annu Rev Pharmacol Toxicol       Date:  2018-01-06       Impact factor: 13.820

7.  New technologies in drug metabolism and toxicity screening: organ-to-organ interaction.

Authors:  Abhinav Bhushan; Nicole J Martucci; O Berk Usta; Martin L Yarmush
Journal:  Expert Opin Drug Metab Toxicol       Date:  2016-03-21       Impact factor: 4.481

8.  Functional Coupling of Human Microphysiology Systems: Intestine, Liver, Kidney Proximal Tubule, Blood-Brain Barrier and Skeletal Muscle.

Authors:  Lawrence Vernetti; Albert Gough; Nicholas Baetz; Sarah Blutt; James R Broughman; Jacquelyn A Brown; Jennifer Foulke-Abel; Nesrin Hasan; Julie In; Edward Kelly; Olga Kovbasnjuk; Jonathan Repper; Nina Senutovitch; Janet Stabb; Catherine Yeung; Nick C Zachos; Mark Donowitz; Mary Estes; Jonathan Himmelfarb; George Truskey; John P Wikswo; D Lansing Taylor
Journal:  Sci Rep       Date:  2017-02-08       Impact factor: 4.379

9.  μOrgano: A Lego®-Like Plug & Play System for Modular Multi-Organ-Chips.

Authors:  Peter Loskill; Sivan G Marcus; Anurag Mathur; Willie Mae Reese; Kevin E Healy
Journal:  PLoS One       Date:  2015-10-06       Impact factor: 3.240

10.  Interconnected Microphysiological Systems for Quantitative Biology and Pharmacology Studies.

Authors:  Collin D Edington; Wen Li Kelly Chen; Emily Geishecker; Timothy Kassis; Luis R Soenksen; Brij M Bhushan; Duncan Freake; Jared Kirschner; Christian Maass; Nikolaos Tsamandouras; Jorge Valdez; Christi D Cook; Tom Parent; Stephen Snyder; Jiajie Yu; Emily Suter; Michael Shockley; Jason Velazquez; Jeremy J Velazquez; Linda Stockdale; Julia P Papps; Iris Lee; Nicholas Vann; Mario Gamboa; Matthew E LaBarge; Zhe Zhong; Xin Wang; Laurie A Boyer; Douglas A Lauffenburger; Rebecca L Carrier; Catherine Communal; Steven R Tannenbaum; Cynthia L Stokes; David J Hughes; Gaurav Rohatgi; David L Trumper; Murat Cirit; Linda G Griffith
Journal:  Sci Rep       Date:  2018-03-14       Impact factor: 4.379
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  77 in total

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Authors:  Blakely B O'Connor; Benjamin D Pope; Michael M Peters; Carrie Ris-Stalpers; Kevin K Parker
Journal:  Exp Biol Med (Maywood)       Date:  2020-07-08

Review 2.  Microfluidic integration of regeneratable electrochemical affinity-based biosensors for continual monitoring of organ-on-a-chip devices.

Authors:  Julio Aleman; Tugba Kilic; Luis S Mille; Su Ryon Shin; Yu Shrike Zhang
Journal:  Nat Protoc       Date:  2021-04-28       Impact factor: 13.491

Review 3.  Perfusion and endothelialization of engineered tissues with patterned vascular networks.

Authors:  Ian S Kinstlinger; Gisele A Calderon; Madison K Royse; A Kristen Means; Bagrat Grigoryan; Jordan S Miller
Journal:  Nat Protoc       Date:  2021-05-24       Impact factor: 13.491

4.  Multicellular Systems to Translate Somatic Cell Genome Editors to Humans.

Authors:  Victor Hernandez-Gordillo; Thomas Caleb Casolaro; Mo R Ebrahimkhani; Samira Kiani
Journal:  Curr Opin Biomed Eng       Date:  2020-10-10

5.  Rapid Prototyping of Multilayer Microphysiological Systems.

Authors:  Sanjin Hosic; Adam J Bindas; Marissa L Puzan; Will Lake; Jonathan R Soucy; Fanny Zhou; Ryan A Koppes; David T Breault; Shashi K Murthy; Abigail N Koppes
Journal:  ACS Biomater Sci Eng       Date:  2020-06-03

Review 6.  A Decade of Organs-on-a-Chip Emulating Human Physiology at the Microscale: A Critical Status Report on Progress in Toxicology and Pharmacology.

Authors:  Mario Rothbauer; Barbara E M Bachmann; Christoph Eilenberger; Sebastian R A Kratz; Sarah Spitz; Gregor Höll; Peter Ertl
Journal:  Micromachines (Basel)       Date:  2021-04-21       Impact factor: 2.891

Review 7.  Cell and tissue engineering in lymph nodes for cancer immunotherapy.

Authors:  Alexander J Najibi; David J Mooney
Journal:  Adv Drug Deliv Rev       Date:  2020-08-01       Impact factor: 15.470

Review 8.  Organs-on-chips: into the next decade.

Authors:  Lucie A Low; Christine Mummery; Brian R Berridge; Christopher P Austin; Danilo A Tagle
Journal:  Nat Rev Drug Discov       Date:  2020-09-10       Impact factor: 84.694

Review 9.  Larval zebrafish as an in vitro model for evaluating toxicological effects of mycotoxins.

Authors:  Ana Juan-García; Marie-Abèle Bind; Florian Engert
Journal:  Ecotoxicol Environ Saf       Date:  2020-07-08       Impact factor: 6.291

10.  Biology-inspired microphysiological systems to advance patient benefit and animal welfare in drug development

Authors:  Uwe Marx; Takafumi Akabane; Tommy B Andersson; Elizabeth Baker; Mario Beilmann; Sonja Beken; Susanne Brendler-Schwaab; Murat Cirit; Rhiannon David; Eva-Maria Dehne; Isabell Durieux; Lorna Ewart; Suzanne C Fitzpatrick; Olivier Frey; Florian Fuchs; Linda G Griffith; Geraldine A Hamilton; Thomas Hartung; Julia Hoeng; Helena Hogberg; David J Hughes; Donald E Ingber; Anita Iskandar; Toshiyuki Kanamori; Hajime Kojima; Jochen Kuehnl; Marcel Leist; Bo Li; Peter Loskill; Donna L Mendrick; Thomas Neumann; Giorgia Pallocca; Ivan Rusyn; Lena Smirnova; Thomas Steger-Hartmann; Danilo A Tagle; Alexander Tonevitsky; Sergej Tsyb; Martin Trapecar; Bob Van de Water; Janny Van den Eijnden-van Raaij; Paul Vulto; Kengo Watanabe; Armin Wolf; Xiaobing Zhou; Adrian Roth
Journal:  ALTEX       Date:  2020-02-28       Impact factor: 6.043
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