Microphysiological Systems
ABNEL has developed a laser cut and assemble microphysiological system (MPS), or organ-on-chip device, of the gut and the heart 1,2. MPSs allow for physiologically relevant modeling of organ systems and diseases with limited confounding factors present. This methodology is a more cost effective and manufacturable option compared to the current standard of PDMS soft lithography.
Ongoing research aims to develop an MPS of gut and enteric nervous system (ENS) physiology to further study the gut-brain connection. ABNEL also aims to develop MPSs of various neural disorders that have an expected connection to the gut including Parkinson’s, visceral pain, depression, and anxiety. The study of parasympathetic and sympathetic innervation in cardiac tissue is also being explored through the use of our cut and assemble MPSs. Electrophysiological techniques, such as transepithelial electrical resistance (TEER) and microelectrode arrays (MEA), are frequently utilized to study endothelial barrier function and neuronal action potentials, respectively.
Recent publication:
Sanjin Hosic, Adam Bindas, Marissa L. Puzan, Will Lake, Jonathan Soucy, Fanny Zhou, Ryan A. Koppes, David T. Breault, Shashi K. Murthy, Abigail N. Koppes. Rapid prototyping of multilayer microphysiological systems. May 2020. https://doi.org/10.1021/acsbiomaterials.0c00190
Recent reviews:
Kyla Nichols, Ryan Koppes, Abigail Koppes. Recent advancements in microphysiological systems for neural development and disease. May 2020. https://doi.org/10.1016/j.cobme.2020.05.003
Jonathan R. Soucy, Adam J. Bindas, Abigail N. Koppes, and Ryan A. Koppes. Instrumented Microphysiological Systems for Real-time Measurement and Manipulation of Cellular Electrochemical Processes. Oct 2019. https://doi.org/10.1016/j.isci.2019.10.052
Cited Papers:
1 Hosic, S. et al. Rapid prototyping of multilayer microphysiological systems. ACS Biomaterials Science & Engineering (2020).
2 Soucy, J. R. et al. Organ-on-chip Model for Investigating Autonomic Innervation of the Cardiac Microenvironment. Circulation Research 125, A421-A421 (2019).
ABNEL lab members recognized at departmental award ceremony!
Several lab members were recognized today at the chemical engineering department award ceremony. Congratulations everyone! Caroline Mills: Best MS student researcher (Class 2019-2020), undergraduate research award, Adam Bindas: 2020 outstanding seminar award Beth DiBiase: 2020 Nabil Morris award Caroline Ghio: Huntington 100, 2020 college of engineering rising star award, Peak summit award Bridget Eckel: Advanced […]
Caroline successfully defends her thesis
Caroline Mills defended her master’s thesis today titled: Using magnetic and topographical cues to influence the growth of neuron extensions. Congratulations Caroline!