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Translation of two-photon microscopy to the clinic: multimodal multiphoton CARS tomography of in vivo human skin

Karsten König, Hans Georg Breunig, Ana Batista, Andreas Schindele, Michael Zieger, Martin Kaatz

2020Journal of Biomedical Optics52 citationsDOIOpen Access PDF

Abstract

Two-photon microscopes have been successfully translated into clinical imaging tools to obtain high-resolution optical biopsies for <italic>in vivo</italic> histology. We report on clinical multiphoton coherent anti-Stokes Raman spectroscopy (CARS) tomography based on two tunable ultrashort near-infrared laser beams for label-free <italic>in vivo</italic> multimodal skin imaging. The multiphoton biopsies were obtained with the compact tomograph "MPTflex-CARS" using a photonic crystal fiber, an optomechanical articulated arm, and a four-detector-360 deg measurement head. The multiphoton tomograph has been employed to patients in a hospital with diseased skin. The clinical study involved 16 subjects, 8 patients with atopic dermatitis, 4 patients with psoriasis vulgaris, and 4 volunteers served as control. Two-photon cellular autofluorescence lifetime, second harmonic generation (SHG) of collagen, and CARS of intratissue lipids/proteins have been detected with single-photon sensitivity, submicron spatial resolution, and picosecond temporal resolution. The most important signal was the autofluorescence from nicotinamide adenine dinucleotide [NAD(P)H]. The SHG signal from collagen was mainly used to detect the epidermal-dermal junction and to calculate the ratio elastin/collagen. The CARS/Raman signal provided add-on information. Based on this view on the disease-affected skin on a subcellular level, skin areas affected by dermatitis and by psoriasis could be clearly identified. Multimodal multiphoton tomographs may become important label-free clinical high-resolution imaging tools for <italic>in vivo</italic> skin histology to realize rapid early diagnosis as well as treatment control. .

Topics & Concepts

AutofluorescenceOptical coherence tomographyMaterials scienceIn vivoBiomedical engineeringElastinMicroscopyOpticsPreclinical imagingPathologyMedicineFluorescencePhysicsBiologyBiotechnologyAdvanced Fluorescence Microscopy TechniquesSpectroscopy Techniques in Biomedical and Chemical ResearchOptical Coherence Tomography Applications
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