Ciências da vida

Ciências da vida

Ciências da vida

Este é o lugar para expandir seus conhecimentos, recursos de pesquisa e aplicações práticas de microscopia em vários campos científicos. Saiba como obter visualização precisa, interpretação de imagens e avanços na pesquisa. Encontre informações perspicazes sobre microscopia avançada, técnicas de geração de imagens, preparação de amostras e análise de imagens. Os tópicos abordados incluem biologia celular, neurociência e pesquisa do câncer, com foco em aplicações e inovações de ponta.
Aneurysm shown with GLOW800 AR fluorescence application. Image courtesy of Prof. Jacques Guyotat, Hôpital Neurologique Pierre Wertheimer, Lyon

How AR Fluorescence Imaging Supports Neurovascular Surgery

In this article, we explain how fluorescence imaging works in vascular neurosurgery and explain the benefits of the GLOW800 Augmented Reality fluorescence application.
Evolved ARveo and MyVeo in Operating Room

The Guide to Augmented Reality in Microsurgery

In an era of technological advancement, Augmented Reality (AR) is rapidly transforming the medical field. In surgical microscopy, AR can display fluorescence signals as digital overlays in real-time…
GLOW800 Augmented Reality Fluorescence used for real-time blood flow visualization in aneurysm clipping surgery

Aneurysm Clipping: Assessing Perforators in Real-Time with AR Fluorescence

This article covers two aneurysm clipping cases highlighting the clinical benefits of GLOW800 Augmented Reality Fluorescence application in neurosurgery, based on insights from Prof. Tohru Mizutani,…
GLOW400 AR Fluorescence in anatomy view, image courtesy of Prof. Kondo

How to Achieve Brain Tissue Resection with GLOW400 AR

Intraoperative MRI is one form of real-time intraoperative visualization, but if more in-depth visualization to identify a tumor during surgery is wanted, intraoperative fluorescence diagnostics is…
Evolved ARveo 8: Operating Room (OR) set-up.

Augmented Reality: Transforming Neurosurgical Procedures

In this ebook, you will explore the exciting advances that Augmented Reality (AR) brings to the field of neurosurgery. This comprehensive guide, including explanatory videos, addresses key questions…
Skull base tumor removal. Image courtesy of Prof. Pierre-Hugues Roche.

Skull Base Neurosurgery: Epidural Lateral Approaches

Surgery of skull base tumors and diseases, such as cavernomas, epidermoid cysts, meningiomas and schwannomas, can be quite complex. During the Leica 2021 Neurovisualization Summit, a unique event…
Analysis of an aneurysm with Virtual Reality. Image courtesy of Prof. Raphael Guzman.

Digitalization in Neurosurgical Planning and Procedures

Learn about Augmented Reality, Virtual Reality and Mixed Reality in neurosurgery and how they can help overcome challenges.
Brain tumor surgical planning leveraging Augmented Reality. Image courtesy of Prof. Philippe Bijlenga.

Augmented Reality Assisted Navigation in Neuro-Oncological Surgery

In neuro-oncological surgery, new technologies such as Augmented Reality are helping to improve surgical precision enabling a precise trajectory, conformational resection, the absence of collateral…
Visualization of an AVM with the Leica FL560 fluorescein fluorescence module

Benefits of Fluorescence in Vascular Neurosurgery

Fluorescein and ICG fluorescence videoangiography have transformed the experience of vascular neurosurgeons, providing an intraoperative view with enriched information. During the Leica 2021…
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