Endothelial Cell-Derived Tethered Lipid Bilayers Generating Nitric Oxide for Endovascular Implantation

Abstract: Engineering an endothelium-mimetic surface has been one of long-lasting topics to develop ideal cardiovascular devices. The aim of the study was to investigate the potential use of a model of lipid bilayers that not only come from membranes extracted from endothelial cells (ECs) but also embedded with a type of organoselenium lipid enabling it to catalyze the generation of nitric oxide (NO). Herein, the titanium-cloaking in lipid bilayers extracted from ECs was prepared to propose a promising idea for the deve… Show more

“…Natural CM provides an efficient alternative to mimic the functions of endothelium. Elnaggar et al [231] inserted organoselenium lipid into the membrane of ECs for NO generation. Then, the organoselenium lipid incorporated membrane was cloaked on lipid-tethered titanium to develop endovascular implants.…”

Recent Advances in Cell‐Based Nanotherapy for Cardiovascular Diseases

“…Natural CM provides an efficient alternative to mimic the functions of endothelium. Elnaggar et al [231] inserted organoselenium lipid into the membrane of ECs for NO generation. Then, the organoselenium lipid incorporated membrane was cloaked on lipid-tethered titanium to develop endovascular implants.…”

Recent Advances in Cell‐Based Nanotherapy for Cardiovascular Diseases

On/off switching of lipid bicelle adsorption on titanium oxide controlled by sub-monolayer molecular surface functionalization

Neural interfacing biomaterials coated with the firmly tethered neuro-specific lipid bilayer