Studying biological tissue with fluorescence lifetime imaging: microscopy, endoscopy, and complex decay profiles

We have applied fluorescence lifetime imaging (FLIM) to the autofluorescence of different kinds of biological tissue in vitro, including animal tissue sections and knee joints as well as human teeth, obtaining two-dimensional maps with functional contrast. We find that fluorescence decay profiles of...

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Veröffentlicht in:	Applied Optics 2003-06, Vol.42 (16), p.2995-3004
Hauptverfasser:	Siegel, Jan, Elson, Daniel S, Webb, Stephen E D, Lee, K C Benny, Vlandas, Alexis, Gambaruto, Giovanni L, Lévêque-Fort, Sandrine, Lever, M John, Tadrous, Paul J, Stamp, Gordon W H, Wallace, Andrew L, Sandison, Ann, Watson, Tim F, Alvarez, Fernando, French, Paul M W
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Schlagworte:	Animals Endoscopy Fluorescence Humans Knee Joint - anatomy & histology Microscopy, Fluorescence Optics and Photonics Rabbits Rats Tooth - anatomy & histology
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creator	Siegel, Jan Elson, Daniel S Webb, Stephen E D Lee, K C Benny Vlandas, Alexis Gambaruto, Giovanni L Lévêque-Fort, Sandrine Lever, M John Tadrous, Paul J Stamp, Gordon W H Wallace, Andrew L Sandison, Ann Watson, Tim F Alvarez, Fernando French, Paul M W
description	We have applied fluorescence lifetime imaging (FLIM) to the autofluorescence of different kinds of biological tissue in vitro, including animal tissue sections and knee joints as well as human teeth, obtaining two-dimensional maps with functional contrast. We find that fluorescence decay profiles of biological tissue are well described by the stretched exponential function (StrEF), which can represent the complex nature of tissue. The StrEF yields a continuous distribution of fluorescence lifetimes, which can be extracted with an inverse Laplace transformation, and additional information is provided by the width of the distribution. Our experimental results from FLIM microscopy in combination with the StrEF analysis indicate that this technique is ready for clinical deployment, including portability that is through the use of a compact picosecond diode laser as the excitation source. The results obtained with our FLIM endoscope successfully demonstrated the viability of this modality, though they need further optimization. We expect a custom-designed endoscope with optimized illumination and detection efficiencies to provide significantly improved performance.
doi_str_mv	10.1364/AO.42.002995
format	Article
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We find that fluorescence decay profiles of biological tissue are well described by the stretched exponential function (StrEF), which can represent the complex nature of tissue. The StrEF yields a continuous distribution of fluorescence lifetimes, which can be extracted with an inverse Laplace transformation, and additional information is provided by the width of the distribution. Our experimental results from FLIM microscopy in combination with the StrEF analysis indicate that this technique is ready for clinical deployment, including portability that is through the use of a compact picosecond diode laser as the excitation source. The results obtained with our FLIM endoscope successfully demonstrated the viability of this modality, though they need further optimization. We expect a custom-designed endoscope with optimized illumination and detection efficiencies to provide significantly improved performance.</description><subject>Animals</subject><subject>Endoscopy</subject><subject>Fluorescence</subject><subject>Humans</subject><subject>Knee Joint - anatomy & histology</subject><subject>Microscopy, Fluorescence</subject><subject>Optics and Photonics</subject><subject>Rabbits</subject><subject>Rats</subject><subject>Tooth - anatomy & histology</subject><issn>1559-128X</issn><issn>0003-6935</issn><issn>1539-4522</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2003</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpFkM1LAzEQxYMoVqs3z5KTp27N5qPpeivFLyj0oIK3kCaTGslu1s0uuv-9W1rxNI_hN294D6GrnExzNuO3i_WU0ykhtCjEETrLBSsyLig93mlRZDmdv4_QeUqfhDDBC3mKRjmVBeGCnKH6pe1s76st3vgY4tYbHXDrU-oAf_v2A7vQxQaSgcoADt5B60vAvtTb4egOl940MZlY9xMMlf2TurLYxLIO8IMtGN3juonOB0gX6MTpkODyMMfo7eH-dfmUrdaPz8vFKjOMijZzDgTJDZGWG2Yln1sQVG-EAwqSWwAj-UYIqbUwxLBZIYcdF9rMmTbaEDZGN3vf4fFXB6lVpR9ShKAriF1SkjHOC8YHcLIHd0FSA07VzRCv6VVO1K5htVgrTtW-4QG_Pvh2mxLsP3yolP0CiLF59Q</recordid><startdate>20030601</startdate><enddate>20030601</enddate><creator>Siegel, Jan</creator><creator>Elson, Daniel S</creator><creator>Webb, Stephen E D</creator><creator>Lee, K C Benny</creator><creator>Vlandas, Alexis</creator><creator>Gambaruto, Giovanni L</creator><creator>Lévêque-Fort, Sandrine</creator><creator>Lever, M John</creator><creator>Tadrous, Paul J</creator><creator>Stamp, Gordon W H</creator><creator>Wallace, Andrew L</creator><creator>Sandison, Ann</creator><creator>Watson, Tim F</creator><creator>Alvarez, Fernando</creator><creator>French, Paul M W</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20030601</creationdate><title>Studying biological tissue with fluorescence lifetime imaging: microscopy, endoscopy, and complex decay profiles</title><author>Siegel, Jan ; 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subjects	Animals Endoscopy Fluorescence Humans Knee Joint - anatomy & histology Microscopy, Fluorescence Optics and Photonics Rabbits Rats Tooth - anatomy & histology
title	Studying biological tissue with fluorescence lifetime imaging: microscopy, endoscopy, and complex decay profiles
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