Publications
Effects of Drag-Reducing Polymers on Hemodynamics and Whole Blood
L. S. Paone, M. Szkolnicki, B.J. DeOre, K. A. Tran, N. Goldman, A. M. Andrews, S. H. Ramirez, P. A. Galie, Effects of Drag-Reducing Polymers on Hemodynamics and Whole Blood-Endothelial Interactions in 3D-Printed Vascular Topologies. ACS Appl Mater Interfaces 16, 14457-14466 (2024).
A 3D-Printed Blood-Brain Barrier Model With Tunable Topology and Cell Matrix Interactions
L. S. Paone,M. M. Benmassaoud, A. Curran, S. L. Vega, P. A. Galie, A 3D-printed blood-brain barrier model with tunable topology and cell-matrix interactions. Biofabrication 16, (2023).
Intellectual Property
Blood-brain barrier bioink
A three-dimensional biocompatible photoink useful for three-dimensional printing includes a biocompatible polymer having at least one covalently bonded photoink. The biocompatible photoink can suitably include a photoinitiator, a photo-absorber and a crosslinker and, in some embodiments, may include live tissue cells and an RGD peptide protein.