Joseph L Charest

Affiliations
  • Department of Biomedical Engineering, Draper Laboratory, Cambridge, Massachusetts, USA.

Publications (6)

Bioengineering Strategies to Develop Podocyte Culture Systems.

Tissue engineering. Part B, Reviews
Avec: Sarah Williams , Joseph L Charest , Martin R Pollak , Balajikarthick Subramanian

Evaluation of rapid transepithelial electrical resistance (TEER) measurement as a metric of kidney toxicity in a high-throughput microfluidic culture system.

Scientific reports
Avec: Erin M Shaughnessey , Samuel H Kann , Hesham Azizgolshani , Lauren D Black , Joseph L Charest , Else M Vedula

Correction: A high-throughput microfluidic microphysiological system (PREDICT-96) to recapitulate hepatocyte function in dynamic, re-circulating flow conditions.

Lab on a chip
Avec: Kelly Tan , Jonathan Coppeta , Hesham Azizgolshani , Brett C Isenberg , Philip M Keegan , Brian P Cain , Abigail J Patterson , Ernest S Kim , Louis B Kratchman , Miles Rogers , Nerses Haroutunian , Veronica Newlin , Stephanie Golmon , Vishal Tandon , Mingjian Lu , James R Gosset , Else M Vedula , Joseph L Charest , Shyam Sundhar Bale

A thermoplastic microfluidic microphysiological system to recapitulate hepatic function and multicellular interactions.

Biotechnology and bioengineering
Avec: Shyam Sundhar Bale , Andrea Manoppo , Rebecca Thompson , Alex Markoski , Jonathan Coppeta , Brian Cain , Nerses Haroutunian , Veronica Newlin , Abbie Spencer , Hesham Azizgolshani , Mingjian Lu , James Gosset , Philip Keegan , Joseph L Charest

Design and construction of three-dimensional physiologically-based vascular branching networks for respiratory assist devices.

Lab on a chip
Avec: Jose A Santos , Alla A Gimbel , Athanasios Peppas , James G Truslow , Daniel A Lang , Sivaprasad Sukavaneshvar , Derek Solt , Thomas J Mulhern , Alex Markoski , Ernest S Kim , James C-M Hsiao , Diana J Lewis , Daniel I Harjes , Christopher DiBiasio , Joseph L Charest , Jeffrey T Borenstein

Measurement of oxygen consumption rates of human renal proximal tubule cells in an array of organ-on-chip devices to monitor drug-induced metabolic shifts.

Microsystems & nanoengineering
Avec: Samuel H Kann , Erin M Shaughnessey , Jonathan R Coppeta , Hesham Azizgolshani , Brett C Isenberg , Else M Vedula , Xin Zhang , Joseph L Charest

Réseau de co-auteurs

Hesham Azizgolshani 4 collaborations
Else M Vedula 3 collaborations
Erin M Shaughnessey 2 collaborations
Samuel H Kann 2 collaborations
Jonathan Coppeta 2 collaborations
Brett C Isenberg 2 collaborations
Ernest S Kim 2 collaborations
Nerses Haroutunian 2 collaborations
Veronica Newlin 2 collaborations
Mingjian Lu 2 collaborations
Shyam Sundhar Bale 2 collaborations
Alex Markoski 2 collaborations
Sarah Williams 1 collaboration
Martin R Pollak 1 collaboration
Balajikarthick Subramanian 1 collaboration
Lauren D Black 1 collaboration
Kelly Tan 1 collaboration
Philip M Keegan 1 collaboration
Brian P Cain 1 collaboration
Abigail J Patterson 1 collaboration
Louis B Kratchman 1 collaboration
Miles Rogers 1 collaboration
Stephanie Golmon 1 collaboration
Vishal Tandon 1 collaboration
James R Gosset 1 collaboration
Andrea Manoppo 1 collaboration
Rebecca Thompson 1 collaboration
Brian Cain 1 collaboration
Abbie Spencer 1 collaboration
James Gosset 1 collaboration
Philip Keegan 1 collaboration
Jose A Santos 1 collaboration
Alla A Gimbel 1 collaboration
Athanasios Peppas 1 collaboration
James G Truslow 1 collaboration
Daniel A Lang 1 collaboration
Sivaprasad Sukavaneshvar 1 collaboration
Derek Solt 1 collaboration
Thomas J Mulhern 1 collaboration
James C-M Hsiao 1 collaboration
Diana J Lewis 1 collaboration
Daniel I Harjes 1 collaboration
Christopher DiBiasio 1 collaboration
Jeffrey T Borenstein 1 collaboration
Jonathan R Coppeta 1 collaboration
Xin Zhang 1 collaboration