Science Lab

Science Lab

Science Lab

Bem-vindo ao portal de conhecimento da Leica Microsystems. Você encontrará pesquisas científicas e material didático sobre o tema microscopia. O portal oferece suporte a iniciantes, profissionais experientes e cientistas em seus trabalhos e experimentos diários. Explore tutoriais interativos e notas de aplicação, descubra os fundamentos da microscopia, bem como as tecnologias de ponta. Faça parte da comunidade do Science Lab e compartilhe sua experiência.
OR picture in neurosurgery.

A Larger 3D Area in Focus for Neurosurgical and Ophthalmic Microscopes

Neurosurgeons and ophthalmologists deal with delicate structures, deep or narrow cavities and tiny structures with vitally important functions. Seeing a clear, large 3D area of the surgical field in…

Advanced Visualization in Head and Neck Reconstructive Surgery

PRS surgeons and maxillofacial specialists face unique challenges in reconstructive procedures, particularly when operating in deep, narrow cavities and working with delicate tissues. Achieving…

Advanced Visualization: Transforming Minimally Invasive Spine Surgery

Over the past decade, spine surgery has evolved rapidly with the adoption of minimally invasive surgery (MISS) techniques. These approaches reduce surgical trauma, speed up recovery, and help improve…

Advanced Visualization in ENT Surgery: Prof. Darrouzet’s Expert Insights

Otologic surgery demands exceptional precision when working within the confined spaces of the middle and inner ear. Procedures such as tympanoplasty, mastoidectomy, and cochlear implant placement…
The M320 dental microscope.

Six Features to Consider when Choosing a Dental Microscope

The dental surgical microscope has become increasingly important for high-quality and successful dental medicine, particularly in the field of endodontics. A dentist can conduct micro-invasive…
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.
Dr. Andrew Huang, Baylor College of Medicine, in the operating room (OR) performing ear, nose and throat (ENT) surgery using the MyVeo surgical visualization headset.

A Microvascular Surgeon’s View: How MyVeo Transforms Visualization

In this article, Dr. Andrew T. Huang, MD, FACS, otolaryngologist and a head and neck reconstructive surgeon, shares how digital 3D surgical visualization with the MyVeo headset from Leica Microsystems…
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,…
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