Title :
3D imaging of arterial wall using confocal microscopy
Author :
Mehrubeoglu, Mehrube ; Greenwald, Stephen ; Evagora, Christopher
Author_Institution :
Sch. of Eng. & Comput. Sci., Texas A&M Univ. - Corpus Christi, Corpus Christi, TX, USA
Abstract :
Although smaller arteries have been imaged and well characterized, 3D imaging of larger arteries is more challenging due to the thickness of the walls preventing light penetration throughout. We investigated the use of single-photon confocal microscopy as a tool to create 3D images of cross sections of arterial walls to analyze their structural arrangement; 3D visualization of elastin and collagen fibers is of interest, as their structural properties and arrangement could potentially be correlated to a multitude of arterial diseases. Preliminary results reveal that confocal microscopy can be used to view the pig carotid arterial wall at depths down to 12 μm in the axially direction in the outer medial layer, and approximately 40 μm in the inner medial layer, although details in the latter appear much fainter.
Keywords :
biomedical optical imaging; blood vessels; diseases; image resolution; medical image processing; molecular biophysics; optical microscopy; proteins; 3D imaging; 3D visualization; arterial diseases; arterial wall thickness; carotid arterial depths; carotid arterial wall; collagen fibers; elastin; inner medial layer; outer medial layer; single-photon confocal microscopy; structural arrangement; structural properties; Carotid arteries; Educational institutions; Microscopy; Optical fiber dispersion; Three-dimensional displays; 3D imaging; arterial wall; confocal microscopy; inner medial layer; outer medial layer;
Conference_Titel :
Imaging Systems and Techniques (IST), 2014 IEEE International Conference on
Conference_Location :
Santorini
DOI :
10.1109/IST.2014.6958474
