Biowissenschaften
Biowissenschaften
Hier können Sie Ihr Wissen, Ihre Forschungsfähigkeiten und Ihre praktischen Anwendungen der Mikroskopie in verschiedenen wissenschaftlichen Bereichen erweitern. Erfahren Sie, wie Sie präzise Visualisierung, Bildinterpretation und Forschungsfortschritte erzielen können. Hier finden Sie aufschlussreiche Informationen über fortgeschrittene Mikroskopie, Bildgebungsverfahren, Probenvorbereitung und Bildanalyse. Zu den behandelten Themen gehören Zellbiologie, Neurowissenschaften und Krebsforschung mit Schwerpunkt auf modernsten Anwendungen und Innovationen.
Spatial Proteomics Workflow in Blood Cancer (MPNs)
Megakaryocytes play a central role in the biology of myeloproliferative neoplasms (MPNs), yet their in vivo proteomic characterization remains a major challenge due to low abundance and disrupted…
History, Developments and Trends of Microscopy in Cancer Research
Cancer is a global disease, with 18 million new cases diagnosed and 10 million cancer-related deaths worldwide in 2020. This burden is set to increase, with a projected increase in cases of ~55% by…
Quality Assurance Improvement Across Industries
Precision is paramount. Imagine a pacemaker that fails mid-operation or a semiconductor flaw that causes a critical system crash. In industries, such as medical devices, electronics, and…
AI meets Deep Visual Proteomics (DVP) to Advance Disease Research
In this webinar, Dr. Andreas Mund will introduce a cutting-edge platform that merges Deep Visual Proteomics (DVP) with AI-powered pathology models, enabling high-resolution mapping of key regions in…
Microscopy and AI Solutions for 2D Cell Culture
This eBook explores the integration of microscopy and AI technologies in 2D cell culture workflows. It highlights how traditional imaging methods—such as brightfield, phase contrast, and…
AI-Powered Hi-Plex Spatial Analysis Tools for Breast Cancer Research
Breast cancer (BC) is the leading cause of cancer-related deaths in women. Investigating the tumor microenvironment (TME) is crucial to elucidate the mechanisms of tumor progression. Systematic…
Biomarker Discovery with Laser Microdissection
Explore the potential of spatial proteomics workflows, such as Deep Visual Proteomics (DVP), to decipher pathology mechanisms and uncover druggable targets.
Altered protein expression, abundance, or…
Faster & Deeper Insights into Organoid and Spheroid Models
Gain deeper, more translatable, insights into organoid and spheroid models for drug discovery and disease research by overcoming key imaging challenges. In this eBook, explore advanced microscopy…
Volume EM and AI Image Analysis
The article outlines a detailed workflow for studying biological tissues in three dimensions using volume-scanning electron microscopy (volume-SEM) combined with AI-assisted image analysis. The focus…
