Intravascular near-infrared fluorescence molecular imaging of atherosclerosis: toward coronary arterial visualization of biologically high-risk plaques
Abstract
New imaging methods are urgently needed to identify high-risk atherosclerotic lesions prior to the onset of myocardial infarction, stroke, and ischemic limbs. Molecular imaging offers a new approach to visualize key biological features that characterize high-risk plaques associated with cardiovascular events. While substantial progress has been realized in clinical molecular imaging of plaques in larger arterial vessels (carotid, aorta, iliac), there remains a compelling, unmet need to develop molecular imaging strategies targeted to high-risk plaques in human coronary arteries. We present recent developments in intravascular near-IR fluorescence catheter-based strategies for in vivo detection of plaque inflammation in coronary-sized arteries. In particular, the biological, light transmission, imaging agent, and engineering principles that underlie a new intravascular near-IR fluorescence sensing method are discussed. Intravascular near-IR fluorescence catheters appear highly translatable to the cardiac catheterization laboratory, and thus may offer a new in vivo method to detect high-risk coronary plaques and to assess novel atherosclerosis biologics.
- Publication:
-
Journal of Biomedical Optics
- Pub Date:
- January 2010
- DOI:
- Bibcode:
- 2010JBO....15a1107C
- Keywords:
-
- biomedical optical imaging;
- blood vessels;
- cardiovascular system;
- catheters;
- data visualisation;
- diseases;
- fluorescence;
- infrared imaging;
- surgery;
- 87.63.L-;
- 87.85.-d;
- 87.19.X-;
- 87.19.Hh;
- Visual imaging;
- Biomedical engineering;
- Diseases;
- Cardiac dynamics