Literature DB >> 17393493

Clinical two-photon microendoscopy.

K König1, A Ehlers, I Riemann, S Schenkl, R Bückle, M Kaatz.   

Abstract

Two-photon medical imaging has found its way into dermatology as an excellent method for noninvasive skin cancer detection without need of contrast agents as well as for in situ drug screening of topically-applied cosmetical and pharmaceutical components. There is an increasing demand to apply the multiphoton technology also for deep-tissue skin imaging as well as for intracorporal imaging. We report on the first clinical use of multiphoton endoscopes, in particular of a miniaturized rigid two-photon GRIN lens endoscope. The microendoscope was attached to the multiphoton tomograph DermaInspect and employed to detect the extracellular matrix proteins collagen and elastin in the human dermis of volunteers and patients with ulcera by in vivo second harmonic generation and in vivo two-photon autofluorescence. Copyright 2007 Wiley-Liss, Inc.

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Year:  2007        PMID: 17393493     DOI: 10.1002/jemt.20445

Source DB:  PubMed          Journal:  Microsc Res Tech        ISSN: 1059-910X            Impact factor:   2.769


  53 in total

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Review 3.  Fluorescence lifetime techniques in medical applications.

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Review 4.  Optical contrast agents and imaging systems for detection and diagnosis of cancer.

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5.  Deep Tissue Microscopic Imaging of the Kidney with a Gradient-Index Lens System.

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Journal:  Opt Commun       Date:  2008-04-01       Impact factor: 2.310

6.  Miniaturized probe for femtosecond laser microsurgery and two-photon imaging.

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Review 7.  Histochemistry and cell biology: the annual review 2010.

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8.  Linking optics and mechanics in an in vivo model of airway fibrosis and epithelial injury.

Authors:  Christopher B Raub; Sari Mahon; Navneet Narula; Bruce J Tromberg; Matthew Brenner; Steven C George
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9.  Maximum imaging depth of two-photon autofluorescence microscopy in epithelial tissues.

Authors:  Nicholas J Durr; Christian T Weisspfennig; Benjamin A Holfeld; Adela Ben-Yakar
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10.  Spectrum- and time-resolved endogenous multiphoton signals reveal quantitative differentiation of premalignant and malignant gastric mucosa.

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