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SELECTBIO Conferences 3D-Culture, Organoids and Organs-on-Chips 2021

James Hickman's Biography



James Hickman, Professor, Nanoscience Technology, Chemistry, Biomolecular Science and Electrical Engineering, University of Central Florida; Chief Scientist, Hesperos

James J. Hickman is the Founding Director of the NanoScience Technology Center and a Professor of Nanoscience Technology, Chemistry, Biomolecular Science, Biomedical Engineering, Material Science and Electrical Engineering at the University of Central Florida. Previously, he held the position of the Hunter Endowed Chair in the Bioengineering Department at Clemson University. Dr. Hickman has a Ph.D. from the Massachusetts Institute of Technology in Chemistry. For the past thirty years, he has been studying the interaction of biological species with modified surfaces, first in industry and in the latter years in academia. While in industry he established one of the first bioelectronics labs in the country that focused on cell-based sensors and their integration with electronic devices and MEMS devices. He is interested in creating hybrid systems for biosensor and biological computation applications and the creation of functional in vitro systems for human body-on-a-chip applications. He has worked at NSF and DARPA in the area of biological computation. He is also the founder and current Chief Scientist of a biotechnology company, Hesperos, that is focusing on cell-based systems for drug discovery and toxicity. He has 166 publications and 20 book chapters, in addition to 34 issued patents out of 50 total patent applications. He was elected to the Board of Directors of the American Institute for Medical and Biological Engineering (AIMBE) for 2 consecutive terms, the premier society for Biomedical Engineering of which he is a Fellow. He is also a Fellow of the American Vacuum Society (AVS) and National Academy of Inventors (NAI) as well as BioFlorida’s Researcher of the Year (2022). Dr. Hickman along with Dr. Michael Shuler, won the Lush Prize, in the Science Category, which Supports Animal Free Testing in 2015.

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Multi-Organ Interconnected Human-on-a-Chip Systems to Develop Phenotypic Disease Models For In Vivo Predictions

Tuesday, 23 March 2021 at 10:45

Add to Calendar ▼2021-03-23 10:45:002021-03-23 11:45:00Europe/LondonMulti-Organ Interconnected Human-on-a-Chip Systems to Develop Phenotypic Disease Models For In Vivo Predictions3D-Culture, Organoids and Organs-on-Chips 2021 in SELECTBIOenquiries@selectbiosciences.com

I will describe such systems being constructed that are guided in their design by PBPK models. They are “self-contained” in that they can operate independently and do not require external pumps as is the case with other microphysiological systems. They are “low cost”, in part, because of the simplicity and reliability of operation allowing the observation of the effects of not only drugs but their metabolites. While systems can be sampled to measure the concentrations of drugs, metabolites, or biomarkers, they also can be interrogated in situ for functional responses such as electrical activity, force generation, or integrity of barrier function. Operation up to 28 days has been achieved allowing observation of both acute and chronic responses with serum free media. We have worked with various combinations of internal organ modules (liver, fat, neuromuscular junction, skeletal muscle, cardiac, bone marrow, blood vessels and brain) and barrier tissues (e.g. skin, GI tract, blood brain barrier, lung and kidney) and immune components. The use of microelectrode arrays to monitor electrically active tissues (cardiac and neuronal) and micro cantilevers (muscle) have been demonstrated. Most importantly, these technical advances allow prediction of both a drug’s potential efficacy and toxicity (side-effects) in pre-clinical studies.


Add to Calendar ▼2021-03-22 00:00:002021-03-23 00:00:00Europe/London3D-Culture, Organoids and Organs-on-Chips 20213D-Culture, Organoids and Organs-on-Chips 2021 in SELECTBIOenquiries@selectbiosciences.com