Coronary artery disease remains an important cause of morbidity and mortality. Previous work, including ours, has focused on the role of intraplaque hemorrhage, particularly from immature microvessel angiogenesis, as an important contributor to plaque progression via increases in vascular permeability leading to further intraplaque hemorrhage, which increases red cell membrane-derived free cholesterol in plaque content and inflammatory cell recruitment. Evans Blue Dye (EBD) assay is widely used as a standard assay for vasculature permeability. However, the method has not been established in fresh human coronary artery autopsy samples to evaluate intraplaque microvessel permeability and angiogenesis. In this protocol, we describe a method to evaluate human coronary samples for microvascular permeability, including procedures to perfuse coronary arteries, collection of artery samples for histological analysis and immunostaining as well as the use of appropriate methodology to analyze the images. An optional procedure is also provided for the use of FITC-dextran in mouse model to evaluate vascular permeability. These Evans Blue Dye procedures may be useful in providing functional measure of the endothelium integrity and permeability in both human samples and animal models in various pathological conditions.
Keywords: Angiogenesis; Atherosclerosis; Coronary artery disease; Evans blue dye; FITC-dextran; Intraplaque hemorrhage; Microvessel permeability.