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DOI: 10.1055/s-0038-1625408
New Methods for Time-resolved Fluorescence Spectroscopy Data Analysis Based on the Laguerre Expansion Technique
Applications in Tissue DiagnosisPublication History
Publication Date:
11 January 2018 (online)
Summary
Objectives : A new deconvolution method for the analysis of time-resolved laser-induced fluorescence spectroscopy (TR-LIFS) data is introduced and applied for tissue diagnosis.
Method : The intrinsic TR-LIFS decays are expanded on a Laguerre basis, and the computed Laguerre expansion coefficients (LEC) are used to characterize the sample fluorescence emission. The method was applied for the diagnosis of atherosclerotic vulnerable plaques.
Results : At a first stage, using a rabbit atherosclerotic model, 73 TR-LIFS in-vivo measurements from the normal and atherosclerotic aorta segments of eight rabbits were taken. The Laguerre deconvolution technique was able to accurately deconvolve the TR-LIFS measurements. More interesting, the LEC reflected the changes in the arterial biochemical composition and provided discrimination of lesions rich in macrophages/foamcells with high sensitivity (> 85%) and specificity (> 95%). At a second stage, 348 TR-LIFS measurements were obtained from the explanted carotid arteries of 30 patients. Lesions with significant inflammatory cells (macrophages/foam-cells and lymphocytes) were detected with high sensitivity (> 80%) and specificity (> 90%), using LEC-based classifiers.
Conclusion : This study has demonstrated the potential of using TR-LIFS information by means of LEC for in- vivo tissue diagnosis, and specifically for detecting inflammation in atherosclerotic lesions, a key marker of plaque vulnerability.
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References
- 1. Lakowicz JR. Principles of Fluorescence Spectroscopy. New York: Kluwer Academic/Plenum; 1999
- 2. Marcu L, Jo JA, Fang Q, Papaioannou T, Dorafshar A, Reil T, Qiao JH, Baker D, Fishbein MC, Freischlag JA. In-Vivo Detection of Macrophages in a Rabbit Atherosclerotic Model by Time-Resolved Laser-Induced Fluorescence Spectroscopy. Atherosclerosis 2005; 181: 295-303.
- 3. Marcu L, Jo JA, Butte PV, Yong WH, Pikul BK, Black KL, Thompson RC. Fluorescence lifetime spectroscopy of glioblastoma multiforme. Photochemistry and Photobiology 2004; 80: 98-103.
- 4. Jo JA, Fang Q, Papaioannou T, Marcu L. Fastnonparametric deconvolution of fluorescence decay for analysis of biological systems. Journal of Biomedical Optics 2004; 9: 743-752.
- 5. Falk E, Shah PK, Fuster V. Coronary plaque disruption. Circulation 1995; 92: 657-671.
- 6. Moreno PR, Falk E, Palacios IF. et al. Macrophage infiltration in acute coronary syndromes: implications for plaque rupture. Circulation 1994; 90: 775-778.
- 7. Fang Q, Papaioannou T, Jo JA, Vaitha R, Shastry K, Marcu L. A time-domain laser-induced fluorescence apparatus for clinical diagnostics. Reviews of Scientific Instrument 2004; 75 (01) 151-162.