Ciencias de la vida
Ciencias de la vida
Este es el lugar para ampliar sus conocimientos, capacidades de investigación y aplicaciones prácticas de la microscopía en diversos campos científicos. Aprenda a conseguir una visualización precisa, interpretación de imágenes y avances en la investigación. Encuentre información detallada sobre microscopía avanzada, técnicas de obtención de imágenes, preparación de muestras y análisis de imágenes. Los temas tratados incluyen la biología celular, la neurociencia y la investigación del cáncer, con especial atención a las aplicaciones e innovaciones de vanguardia.
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…
Potential of Multiplex Confocal Imaging for Cancer Research and Immunology
Explore the new frontiers of multi-color fluorescent imaging: from image acquisition to analysis
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…
Spatial Biology: Learning the Landscape
Spatial Biology: Understanding the organization and interaction of molecules, cells, and tissues in their native spatial context
How Microscopy Helps the Study of Mechanoceptive and Synaptic Pathways
In this podcast, Dr Langenhan explains how microscopy helps his team to study mechanoceptive and synaptic pathways, their challenges, and how they overcome them.
What is the Patch-Clamp Technique?
This article gives an introduction to the patch-clamp technique and how it is used to study the physiology of ion channels for neuroscience and other life-science fields.
Differential Interference Contrast (DIC) Microscopy
This article demonstrates how differential interference contrast (DIC) can be actually better than brightfield illumination when using microscopy to image unstained biological specimens.
Phase Contrast and Microscopy
This article explains phase contrast, an optical microscopy technique, which reveals fine details of unstained, transparent specimens that are difficult to see with common brightfield illumination.
How to Determine Cell Confluency with a Digital Microscope
This article shows how to measure cell confluency in an easy and consistent way with Mateo TL, increasing confidence in downstream experiments.
