Improved criteria for the recognition of atherosclerotic plaque using fluorescence spectroscopy

We report on the enhanced demarcation between human atherosclerotic plaques and normal vessel wall obtained using time-resolved detection of laser-induced fluorescence rather than the customary time-integrated monitoring technique. A frequency-doubled mode-locked and cavity-dumped continuous wave dy

## Background and objective: This study characterized aortic time-resolved fluorescence spectra for stratified levels of atherosclerosis and proposed interpretation of spectrotemporal variations in terms of histologic changes. ## Study design/materials and methods: Fluorescence emission transient

The mixing of two feed streams in a reactor, one with a x fluorescent tracer, the other without, results in a fluctuating concen-z tration field, due to the turbulent flow. Fluorescence spectroscopy allows the characterization of the fluctuations at small scale and