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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.

3D culture of ovarian cancer cells imaged using the confocal mode of Mica.

Mica: A Game-changer for Collaborative Research at Imperial College London

This interview highlights the transformative impact of Mica at Imperial College London. Scientists explain how Mica has been a game-changer, expanding research possibilities and facilitating…

Investigación del cáncer

El cáncer es una enfermedad compleja y heterogénea causada por células con una regulación deficiente del crecimiento. Los cambios genéticos y epigenéticos en una célula o en un grupo de ellas alteran…

Blood vessel system of a zebrafish larvae.

Overcoming Challenges with Microscopy when Imaging Moving Zebrafish Larvae

Zebrafish is a valuable model organism with many beneficial traits. However, imaging a full organism poses challenges as it is not stationary. Here, this case study shows how zebrafish larvae can be…

Neurociencia

¿Trabaja para comprender mejor las enfermedades neurodegenerativas o la función del sistema nervioso? Vea cómo puede conseguir descubrimientos con las soluciones de imágenes de Leica Microsystems.

Salmonella biofilms 3D render

Exploring Microbial Worlds: Spatial Interactions in 3D Food Matrices

The Micalis Institute is a joint research unit in collaboration with INRAE, AgroParisTech, and Université Paris-Saclay. Its mission is to develop innovative research in the field of food microbiology…

Immunofluorescence image of a mouse enodmetrial organoid stained with CK14 and DAPI

Advancing Uterine Regenerative Therapies with Endometrial Organoids

Prof. Kang's group investigates important factors that determine the uterine microenvironment in which embryo insertion and pregnancy are successfully maintained. They are working to develop new…

The role of extracellular signalling mechanisms in the correct development of the human brain

How do Cells Talk to Each Other During Neurodevelopment?

Professor Silvia Capello presents her group’s research on cellular crosstalk in neurodevelopmental disorders, using models such as cerebral organoids and assembloids.

Masson-Goldner staining of a hedgehog brain slice.

How to Streamline Your Histology Workflows

Streamline your histology workflows. The unique Fluosync detection method embedded into Mica enables high-res RGB color imaging in one shot.

Murine esophageal organoids (DAPI, Integrin26-AF 488, SOX2-AF568) imaged with the THUNDER Imager 3D Cell Culture. Courtesy of Dr. F.T. Arroso Martins, Tamere University, Finland.

How to Get Deeper Insights into your Organoid and Spheroid Models

In this eBook, learn about key considerations for imaging 3D cultures, such as organoids and spheroids, and discover microscopy solutions to shed new insights into dynamic processes in 3D real-time