ライフサイエンス | 学びと共有 | Leica Microsystems

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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。

Caption: Collaboration is key Picture copyright: Donenko Oleksii, Shutterstock

Launching a Neurosurgical Department with Limited Resources

Learn about Dr. Claire Karekezi’s journey and experience launching a neurosurgical department within the Rwanda Military Hospital with limited resources.

Brain organoid section (DAPI) acquired using THUNDER Imager Live Cell. Image courtesy of Janina Kaspar and Irene Santisteban, Schäfer Lab, TUM.

Imaging Organoid Models to Investigate Brain Health

Imaging human brain organoid models to study the phenotypes of specialized brain cells called microglia, and the potential applications of these organoid models in health and disease.

In vivo imaging of a mouse pial and cortical vasculature through a glass window (ROSAmT/mG::Pdgfb-CreERT2 mouse meningeal and cortical visualization following tamoxifen induction and craniotomy). Courtesy: Thomas Mathivet, PhD

Windows on Neurovascular Pathologies

Discover how innate immunity can sustain deleterious effects following neurovascular pathologies and the technological developments enabling longitudinal studies into these events.

Lifetime-based multiplexing in live cells using TauSeparation. Mammalian cells expressing LifeAct-GFP (ibidi GmbH) and labelled with MitoTracker Green. Acquisition with one detector, intensity information shown in grey. The two markers can be separated using lifetime information: LifeAct-GFP (cyan), MitoTracker Green (magenta). Image acquired with STELLARIS 5.

The Power of Reproducibility, Collaboration and New Imaging Technologies

In this webinar you willl learn what impacts reproducibility in microscopy, what resources and initiatives there are to improve education and rigor and reproducibility in microscopy and how…

Advanced technologies support neurosurgical teaching. Image courtesy of Dr. Florian Bernard.

3D, AR & VR for Teaching in Neurosurgery

Discover the evolution of neurosurgical teaching and how 3D, Augmented Reality and Virtual Reality can help better learn anatomy and acquire surgical skills.

THY1-EGFP labeled neurons in mouse brain processed using the PEGASOS 2 tissue clearing method, imaged on a Leica confocal microscope. Neurons were traced using Aivia’s 3D Neuron Analysis – FL recipe. Image credit: Hu Zhao, Chinese Institute for Brain Research.

Unlocking Insights in Complex and Dense Neuron Images Guided by AI

The latest advancement in Aivia AI image analysis software provides improved soma detection, additional flexibility in neuron tracing, 3D relational measurement including Sholl analysis and more.

How to Prepare and Analyse Battery Samples with Electron Microscopy

This workshop covers the sample preparation process for lithium and novel battery sample analysis, as well as other semiconductor samples requiring high-resolution cross-section imaging.

Cancer cells

The Role of Iron Metabolism in Cancer Progression

Iron metabolism plays a role in cancer development and progression, and modulates the immune response. Understanding how iron influences cancer and the immune system can aid the development of new…

Use of GLOW800 Augmented Reality during AVM surgery. Image courtesy of Prof. Philippe Bijlenga.

AR Fluorescence in Aneurysm Clipping and AVM Surgery

Discover how GLOW800 Augmented Reality fluorescence supports neurovascular surgical procedures and in particular aneurysm clipping and AVM surgery.