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  • Multiphoton Microscopy – a Satisfied Wish List

    The colorful picture shows colon tumor cells, fluorescently labelled and lineage traced from a multicolor tracer. The gray color codes for the second harmonic generation (SHG) signal from Collagen 1. Lineage traced tumor cells are shown in magenta, blue, green, yellow and red. All channels were recorded with two-photon excitation, using the SP8 DIVE by Leica Microsystems. Sample and image were kindly provided by J. van Rheenen, H. Snippert, Utrecht (the Nederlands,) and I. Steinmetz, Leica Microsystems Mannheim.
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  • Laser Beam Shaping for Multicolor Multiphoton Microscopy

    Multiphoton Microscopy is one of the current hot topics in life science research. The new Leica TCS SP8 DIVE from Leica Microsystems presents a series of beneficial new innovations, including a freely tunable non-descanning detector and an ingenious beam manipulating device VBE. The variable beam expander offers free tuning of both beam diameter and axial IR-correction for up to four IR beams simultaneously.
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  • Correlating Intravital Multi-Photon Microscopy to 3D Electron Microscopy of Invading Tumor Cells Using Anatomical Reference Points

    Cancer research unsing multiphoton microscopy and 3D electron microscopy. Correlative microscopy combines the advantages of both light and electron microscopy to enable imaging of rare and transient events at high resolution. Performing correlative microscopy in complex and bulky samples such as an entire living organism is a time-consuming and error-prone task.
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  • Unmask the Hidden without Probes: CARS

    Fluorescence microscopy assumed a pivotal role in cell biology once it was possible to stain cell components selectively by fluorescing dyes. One of the first explorers of targeted stainings, Paul Ehrlich, had the idea that something that stains specifically should also kill specifically – which was associated with the term “magic bullet”, the essential idea of chemotherapy. His group discovered Salvarsan, a tailored drug against syphilis – though not specific enough not to cause substantial side effects. Screening many fluorescent dyes led to a long list of stainings which are used in histology, including dyes like DAPI or hematoxylin and eosin.
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  • Principles of Multiphoton Microscopy for Deep Tissue Imaging

    Basics of multiphoton microscopy. This interactive tutorial explains the principles of multiphoton microscopy for deep tissue imaging. Multiphoton microscopy uses excitation wavelengths in the infrared taking advantage of the reduced scattering of longer wavelengths. This makes multiphoton imaging the perfect tool for deep tissue imaging in thick sections and living animals.
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  • An Introduction to CARS Microscopy

    CARS overcomes the drawbacks of conventional staining methods by the intrinsic characteristics of the method. CARS does not require labeling because it is highly specific to molecular compounds which are based on vibrational contrast and chemical selectivity. The crucial advantage of this method is that the sample remains almost unaffected. With CARS, new samples that could not be stained due to unavailability of the appropriate dye are now accessible.
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  • Step by Step Guide to the Molecular Basics of CARS Microscopy

    CARS (Coherent Anti-Stokes Raman Scattering) microscopy is a dye-free method which images structures by displaying the characteristic intrinsic vibrational contrast of their molecules. The crucial advantage of this method is that the sample remains almost unaffected. This tutorial explains the molecular basics on Coherent Anti-Stokes Raman Scattering.
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  • CARS Publication List

    CARS (Coherent Anti-Stokes Raman Scattering) microscopy is a dye-free method which images structures by displaying the characteristic intrinsic vibrational contrast of their molecules. The crucial advantage of this method is that the sample remains almost unaffected.
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  • CARS and Confocal

    The most important drawback of single-photon and multiphoton confocal microscopy is the need to label the specimen. CARS (Coherent Anti-Stokes Raman Spectroscopy) addresses this issue because it is non-toxic, non-destructive, and minimally invasive.
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