Posters
View Anatomic posters presented at conferences.
Scalable and Efficient Generation of iPSC-derived Human Sensory Neurons for CIPN and Pain Research
Author (s): Samantha Paulson 1 , Grace McCabe 1 , Maria Winkler 2 , Teresa Findley 3 , Ameena Pascua 4 , Kara Gordon 4 , Patrick McDonough 4 , Ilya Goldberg 3 , Olaf Schroeder 2 , Patrick Walsh 1 , Vincent Truong 1
1 Anatomic Incorporated, 2112 Broadway Street NE #135, Minneapolis, MN 55413 2 NeuroProof GmbH, Friedrich-Barnewitz-Straße 4, 18119 Rostock, Germany. 3 ViQi, Inc., 315 Meigs Road, Suite A261, Santa Barbara, CA 93109 4 Vala Sciences, Inc., 6370 Nancy Ridge Dr #106, San Diego, CA 92121
Developing a High-throughput Screening Platform for Myelination and Demyelination Promoting Compounds using Human iPSC-derived Schwann cell progenitor cells, Motor Neurons and Sensory Neurons from the Same Donor
Author (s): Grace McCabe 1, Milan Dau 1, Vincent Truong 1, Patrick Walsh 1
1 Anatomic Incorporated, 2112 Broadway Street NE #135, Minneapolis, MN 55413
Human Induced Pluripotent Stem Cell Derived Nociceptors on an Automated Patch clamp System for High Throughput Pain Drug Discovery
Author (s): Tim Strassmaier 1, Aaron Randolph 1, Irene Lu 1, Vincent Truong 2, Rodolfo Haedo 1, Alison Obergrussberger 3, Patrick Walsh 2
1 Nanion Technologies Inc., Livingston, USA, 2 Anatomic Inc., Minneapolis, MN, USA, 3 Nanion Technologies GmbH, Munich, Germany
Using Automated Patch Clamp for High Throughput Characterization of Sodium and Potassium Channels in Human Induced Pluripotent Stem Cell-Derived Sensory Neurons
Author(s): Mei Zhang 1, Vincent Truong 2, Daniel R Sauter 1, Patrick Walsh 2
1 Sophion Bioscience Inc., Woburn, MA; 2 Anatomic Incorporated, Minneapolis, MN
Proteostasis in Human Sensory Neurons: A Baseline for Modulation of Therapeutic Targets and Evaluation of Off-Targets
Author(s): V. Truong 1, L. Reichart 2, A. Kopke 2, H. Hahne 2, and P. Walsh
1 Anatomic Incorporated, Minneapolis, MN; 2 OmicScouts GmbH, Freising, Germany
Functional Profiling of Human Induced Pluripotent Stem Cell Derived Sensory Neurons on High Density Microelectrode Arrays
Author(s): Grace McCabe 1, Milan Dau 1, Marie Obien 2, Patrick Walsh 1, and Vincent Truong 1
1 Anatomic Incorporated, Minneapolis, MN; 2 MaxWell Biosystems, Zürich, Switzerland