ライフサイエンス | 学びと共有 | Leica Microsystems

お問い合わせ

ライフサイエンス

ライフサイエンス

様々な科学分野における顕微鏡の知識、研究技術、そして実用的な応用を深めるための場です。正確な観察、画像解析、そして研究の進歩を実現する方法を学びましょう。高度な顕微鏡技術、イメージング技術、サンプル前処理、画像解析に関する専門的な知見を提供します。最先端のアプリケーションやイノベーションを中心に、細胞生物学、神経科学、がん研究などの分野を幅広くカバーしています。

Co-detection of 10 extracellular matrix proteins and 3 topographical tissue landmarks by multiplex immunostaining within a single high-grade fibrous hotspot from a human hepatocellular carcinoma

In Situ Identification of Cancer Stem Cell Niches in Hepatocellular Carcinoma

Discover how multiplexed imaging technology uncovers cancer stem cell niches in Hepatocellular Carcinoma using multiplex immunodetection, revealing extracellular matrix dynamics. Explore precise…

Esophageal tissue with a squamous cell carcinoma labelled with the 4 biomarkers PanCk, DAPI, NaKATPase, and Vimentin.

Discover how Multiplexed Bioimaging can Advance Cancer Research

Explore multiplexing with up to 60 biomarkers, enabling advanced tumor imaging approaches to gather precise, spatially-resolved single-cell data that helps enhance cancer research and clinical…

Pancreatic Ductal Adenocarcinoma with 11 Apoptosis biomarkers shown – BAK, BAX, BCL2, BCLXL, Caspase9, CIAP1, NaKATPase, PCK26, SMAC, Vimentin, and XIAP.

Multiplexing with Luke Gammon: Advance your Spatial Biology Research

Learn how multiplexing imaging and spatial biology can help researchers better understand complex biological systems. In this interview, Dr. Gammon and Dr. Pointu of Leica Microsystems discuss pain…

Multi-tissue array with 4 markers shown including DAPI, NaKATPase, PanCk, and Vimentin.

Spatial Biology: Learning the Landscape

Spatial Biology: Understanding the organization and interaction of molecules, cells, and tissues in their native spatial context

Cell counts for each biomarker were divided by total number of cells to give a percentage of biomarker positive cells out of total cells for each biomarker.

Methods to Improve Reproducibility in Spatial Biology Research

Establish reproducibility results for a Cell DIVE multiplexed imaging study in cancer research using the BAB 200 automated system from ASLS and validated antibodies from CST

PDAC Multiplexed imaging of CST panels enables an examination of immune cell components in pancreatic ductal adenocarcinoma (IPDAC) tissue on a single slide.

Characterizing tumor environment to reveal insights and spatial resolution

Antibodies from Cell Signaling Technology are validated for use with the Cell DIVE multiplexing workflow and used to probe cell lineages in the tumor microenvironment

Pancreatic Ductal Adenocarcinoma with 5 biomarkers shown – SMA, PanCK PCK26, PanCK AE1, Vimentin, and Glut1.

Dig Deeper Into the Complexities of Pancreatic Cancer with Multiplex Imaging

Cell DIVE is an iterative staining workflow for multiplexed imaging that unveils biological pathways to dig deeper into the complexities of pancreatic cancer.

How is microscopy used in spatial biology - Teaserimage

How is Microscopy Used in Spatial Biology? A Microscopy Guide

Different spatial biology methods in microscopy, such as multiplex imaging, are helping to better understand tissue landscapes. Learn more in this microscopy guide.

Cell DIVE Multiplex Imaging Solution

Complex Made Simple: Antibodies in Multiplexed Imaging

Build panels, plan studies, and get the most from precious reagents using this antibody multiplexing guide from Leica Microsystems