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Notable AI-based Solutions for Phenotypic Drug Screening
Learn about notable optical microscope solutions for phenotypic drug screening using 3D-cell culture, both planning and execution, from this free, on-demand webinar.
Confocal Imaging of Immune Cells in Tissue Samples
In this webinar, you will discover how to perform 10-color acquisition using a confocal microscope. The challenges of imaged-based approaches to identify skin immune cells. A new pipeline to assess…
Virtual Reality Showcase for STELLARIS Confocal Microscopy Platform
In this webinar, you will discover how to perform 10-color acquisition using a confocal microscope. The challenges of imaged-based approaches to identify skin immune cells. A new pipeline to assess…
Multicolor 4D Super Resolution Light Sheet Microscopy
The AI Microscopy Symposium offers a unique forum for discussing the latest AI-based technologies and tools in the field of microscopy and biomedical imaging. In this scientific presentation, Yuxuan…
Imaging of Anti-Cancer Drug Uptake in Spheroids using DLS
Spheroid 3D cell culture models mimic the physiology and functions of living tissues making them a useful tool to study tumor morphology and screen anti-cancer drugs. The drug AZD2014 is a recognized…
Understanding Motor Sequence Generation Across Spatiotemporal Scales
We have developed a microscopy-based pipeline to characterize a developmentally critical behavior at the pupal stage of development, called the ecdysis sequence. We study brain-wide neuronal activity…
Improve 3D Cell Biology Workflow with Light Sheet Microscopy
Understanding the sub-cellular mechanisms in carcinogenesis is of crucial importance for cancer treatment. Popular cellular models comprise cancer cells grown as monolayers. But this approach…
![3D glomeruli in a portion of an ECi-cleared kidney scanned by light sheet microscopy. Courtesy of Prof. Norbert Gretz, Medical Faculty Mannheim, University of Heidelberg [1].](/fileadmin/_processed_/d/d/csm_DLS-Sample-Preparation-Intr_915e0fd7c2.jpg "3D glomeruli in a portion of an ECi-cleared kidney scanned by light sheet microscopy. Courtesy of Prof. Norbert Gretz, Medical Faculty Mannheim, University of Heidelberg [1].")
Using Mounting Frames for Light Sheet Sample Preparation
Sample handling is an important topic in the context of Light Sheet Microscopy. The TCS SP8 DLS integrates Light Sheet technology into an inverted confocal platform and can hence make use of general…
Using a Rotation Device for Light Sheet Sample Mounting
The TCS SP8 DLS from Leica Microsystems is an innovative concept to integrate the Light Sheet Microscopy technology into the confocal microscope. Due to its unique optical architecture samples can be…
Using U-Shaped Glass Capillaries for Sample Mounting
The DLS microscope system from Leica Microsystems is an innovative concept which integrates the Light Sheet Microscopy technology into the confocal platform. Due to its unique optical architecture,…
Confocal and Light Sheet Imaging
Optical imaging instrumentation can magnify tiny objects, zoom in on distant stars and reveal details that are invisible to the naked eye. But it notoriously suffers from an annoying problem: the…
応用分野
オルガノイドと3D細胞培養
ライフサイエンス研究で近年最も目覚ましい発展の一つは、オルガノイド、スフェロイド、生体機能チップモデルなどの3D細胞培養システムの開発です。 3D細胞培養は、細胞が成長し、全3次元で周囲と相互作用できる人工環境です。 これらの条件は、生体内条件に似ています。
研究におけるモデル生物
モデル生物とは、特定の生物学的プロセスを研究するために研究者が使用する生物種です。 モデル生物は、人間と似た遺伝的特徴を持ち、遺伝子学、発生生物学、神経科学などの研究分野で一般的に使用されています。 通常、モデル生物は実験環境での維持や繁殖が容易であること、生殖サイクルが短いこと、または、特定の形質や病気を研究するために突然変異体を生成する能力を持つことで選ばれます。
生細胞イメージング
視点を単体の顕微鏡コンポーネントから必要なすべての機能を備えた生細胞イメージングソリューションへと移し、ライカ マイクロシステムズは顕微鏡、LAS X イメージングソフトウェア、カメラおよび専用サードパーティコンポーネントを 1 つの完全な生細胞イメージングシステムに統合します。
