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メディカル

メディカル

脳神経外科、眼科、形成外科、耳鼻咽喉科、歯科の専門医向けに厳選された、最新の科学・臨床リソースを探索しませんか? 貴重な症例や洞察、シンポジウムなど、多彩なコンテンツをご覧いただけます。 手術用顕微鏡の最先端技術に焦点を当て、AR蛍光、3D視覚化、術中OCTイメージングといった革新的技術が、複雑な手術の精度向上や意思決定の最適化にどのように貢献するかをご紹介します。
Spectral separation of 11 fluorophores coupled to polystyrene beads on a STELLARIS confocal system.

Multiplexing through Spectral Separation of 11 Colors

Fluorescence microscopy is a fundamental tool for life science research that has evolved and matured together with the development of multicolor labeling strategies in cells tissues and model…
Two-color caspase assay with tile scan. U2OS cells were treated with the nuclear marker DRAQ5 (magenta) and CellEvent™ (yellow).

Following Multiple Events during Staurosporine Apoptosis

In this video on demand, we show how adding additional markers to an apoptosis kit can markedly increase the amount of information a researcher can obtain from the same experiment. The simultaneous…
Transverse histological cut of a rabbit tongue. 50 Mpixels images (2326 µm x 1739 µm) in 14 x 18 tiles. Lifetime gives an additional contrast that allows to differentiate different structures in histological stainings.

A Guide to Fluorescence Lifetime Imaging Microscopy (FLIM)

The fluorescence lifetime is a measure of how long a fluorophore remains on average in its excited state before returning to the ground state by emitting a fluorescence photon.
Untreated Hela Kyoto cells stained to show the nucleus (Hoechst, blue), the cis-golgi matrix protein GM130 (AF488, green), and the trans-golgi network membrane protein TGN46 (AF647, red).

Golgi Organizational Changes in Response to Cell Stress

In this video on demand, our special guest George Galea from EMBL Heidelberg will look at HeLa Kyoto cells treated with various chemotherapeutic agents to investigate their effect on the Golgi complex…
Protist Paramecium (Paramecium tetraurelia) stained to show the nucleus

3D Spatial Analysis Using Mica's AI-Enabled Microscopy Software

This video offers practical advice on the extraction of publication grade insights from microscopy images. Our special guest Luciano Lucas (Leica Microsystems) will illustrate how Mica’s AI-enabled…
3D Reconstruction of brain slide image_Mica

3D Tissue Imaging: From Fast Overview To High Resolution With One Click

3D Tissue imaging is a widespread discipline in the life sciences. Researchers use it to reveal detailed information of tissue composition and integrity, to make conclusions from experimental…
Image of a single slice taken from a zebrafish heart showing the ventricle with an injury in the lower area. Nuclei of all cells are indicated with blue, nuclei of the cardiomyocyte heart muscle cells with green, and the proliferating cells with red. Courtesy of Laura Peces-Barba Castaño, Max Planck Institute for Heart and Lung Research, Germany.

Imaging of Cardiac Tissue Regeneration in Zebrafish

Learn how to image cardiac tissue regeneration in zebrafish focusing on cell proliferation and response during recovery with Laura Peces-Barba Castaño from the Max Planck Institute.

How Does The Cytoskeleton Transport Molecules?

VIDEO ON DEMAND - See how 3D cysts derived from MDCK cells help scientists understand how proteins are transported and recycled in tissues and the role of the cytoskeleton in this transport.
Developing zebrafish (Danio rerio) embryo, from sphere stage to somite stages.

Studying Early Phase Development of Zebrafish Embryos

This video on demand focuses on combining widefield and confocal imaging to study the early-stage development of zebrafish embryos (Danio rerio), from oocyte to multicellular stage.
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