Computational Models of Complex Membranes For Drug Delivery – Christian Jorgensen, University of Portsmouth
The use of computational models powered by Molecular Dynamics (MD) simulations has allowed for the construction of atomic-detail models of biophysical systems of interest. Here we demonstrate the use of MD simulations to construct a model of the blood-brain barrier endothelial cell membrane, and the human Stratum Corneum skin membrane. We show permeability simulations across these systems and elucidate the thermodynamics of transport for libraries of compounds.
Christian Jorgensen studied chemistry at Oxford University, followed by a PhD in Chemistry at King’s College London. He was a Postdoctoral Fellow with Peter Searson at Johns Hopkins, followed by a Postdoc at Georgetown University in Washington DC with Peter Olmsted. He was a Marie Sklodowska Curie Fellow at Aarhus University in Denmark, where he worked on multidrug resistance. He joined Portsmouth University as a Senior Lecturer in Pharmaceutical Sciences in 2024. His interest is in computational biophysics, with a focus on complex membranes and membrane proteins.