Molecular Bioelectrostatics & Drug Delivery Laboratory
Located at Northeastern Universityโs Interdisciplinary Science and Engineering Complex (ISEC), the Bajpayee Lab works at the intersection of biomaterials design, nanomedicine and translational research. We utilize the bodyโs internal electric fields to design electrically charged biomaterials using proteins, peptides and cellular materials like exosomes, for targeting difficult to reach tissues for applications in drug delivery and diagnostic imaging.
Negatively charged tissues such as cartilage, meniscus, intervertebral disc, eye, and mucosal membrane, that also tend to be dense and avascular, are ubiquitous in the human body but remain outstanding challenges for targeted drug delivery. Their degeneration is associated with several common diseases that remain untreatable due to a lack of delivery systems that can enable drugs to penetrate the negatively charged matrix and reach their cellular targets. The high negative fixed charge density, however, can be converted from being a challenge to an opportunity by engineering therapeutics at the molecular level to add optimally positively charged domains such that electrostatic interactions can enhance their transport, uptake and retention rather than hindering them. Our lab engineers targeted bioelectrical therapeutics for treatment of diseases affecting such intrinsically charged tissues. We strive to combine basic science with translational research to develop biomedical technologies for unmet clinical needs.
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Our Lab News
Congratulations to Dr. Chenzhen Zhang! ๐
Congratulations to Chenzhen Zhang on his Ph.D. Dissertation: "Electrical Charging of Macromolecules for Targeted Delivery to Cartilage for Applications in Diagnostic Imaging and Drug Delivery". Chenzhen has been an invaluable member of our lab, contributing towards...
Shoutout to Tanvi for winning best Poster at the Society for Biomaterials – Biomaterials Immune Engineering Special Interest Group! ๐
Tanvi won the best poster in Immune Engineering for her work on cationic exosomes for cartilage repair. Congrats Tanvi!