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GLOW800 拡張現実(AR)蛍光アプリケーション

血管手術。 拡張現実

最新の記事を読む

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…
Serious Game in Intraoperative Neurosurgery. Image courtesy of Dr. Lucas Troude.

Enhancing Neurosurgery Teaching

Learn about the Serious Game in Intraoperative Neurosurgery and how it supports neurosurgical teaching and the acquisition of decision-making skills.
Augmented Reality fluorescence supports each step of neurovascular surgery procedures. Image courtesy of Dr. Christof Renner.

Use of AR Fluorescence in Neurovascular Surgery

Learn about the use of GLOW800 Augmented Reality in neurovascular surgery through clinical cases and videos, including aneurysm and tumor resection cases.
Advanced technologies support neurosurgical teaching. Image courtesy of Dr. Florian Bernard.

3D, AR & VR for Teaching in Neurosurgery

Discover the evolution of neurosurgical teaching and how 3D, Augmented Reality and Virtual Reality can help better learn anatomy and acquire surgical skills.
Use of GLOW800 Augmented Reality during AVM surgery. Image courtesy of Prof. Philippe Bijlenga.

AR Fluorescence in Aneurysm Clipping and AVM Surgery

Discover how GLOW800 Augmented Reality fluorescence supports neurovascular surgical procedures and in particular aneurysm clipping and AVM surgery.
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…
GLOW800 Augmented Reality fluorescence in Moyamoya disease treatment

How AR Helps in the Surgical Treatment of Moyamoya Disease

Moyamoya disease is a rare chronic occlusive cerebrovascular disorder characterized by progressive stenosis in the terminal portion of the internal carotid artery and an abnormal vascular network at…
Clinical case: radial forearm free flap preparation with prelaminated urethra and phalloplasty anastomosis

Using GLOW800 AR in Radial Forearm Flap Free Phalloplasty

In this video, Chief Microsurgeon Professor Küntscher and his team perform a radial forearm free flap phalloplasty and use ICG fluorescence imaging to show the blood flow in the whole flap from the…
phalloplasty and subcutaneous mastectomy

How AR Surgery Benefits Radial Forearm Free Flap Phalloplasty

The goal of penile reconstruction is to provide an aesthetic penoid with tactile and erogenous sensation, so the patient can have sexual intercourse and void standing.1 Currently, the radial forearm…
Operating room, PROVIDO

Free Flap Procedures in Oncological Reconstructive Surgery

Free flap surgery is considered the gold standard for breast, head and neck reconstructions for cancer patients. These procedures, which enable functional and aesthetic rehabilitation, can be quite…
Plastic reconstructive surgery with M530 OHX

Advances in Oncological Reconstructive Surgery

Decision making and patient care in oncological reconstructive surgery have considerably evolved in recent years. New surgical assistance technologies are helping surgeons push the boundaries of what…

How Augmented Reality is Transforming Vascular Neurosurgery

Augmented Reality is changing surgery, with new information helping to improve the precision and safety of procedures. This is especially true in vascular neurosurgery where Augmented Reality is…

GLOW800 Augmented Reality Fluorescence in AVM (Arteriovenous Malformation) Treatment

In this case study Prof. Dr. Feres Chaddad talks about the treatment of AVMs. It illustrates how the Augmented Reality Fluorescence GLOW800 can help surgeons during microsurgical resection by…

Neurovascular Surgery & Augmented Reality Fluorescence

Vascular neurosurgery is highly complex. Surgeons need to be able to rely on robust anatomical information. As such, visualization technologies play an essential role. Prof. Nils Ole Schmidt is a…

Oncological Reconstructive Surgery with the Leica M530 OHX Microscope

Precision is essential in oncological reconstructive surgery, in particular when it relies on free flap techniques. Microsurgical microscopes provide optimal visualization and help streamline the…

Oncological Reconstructive Surgery: Why Use a Microscope

Recent advances in microsurgery are enhancing breast reconstruction for oncology patients, allowing both functional and aesthetic rehabilitation. More and more surgeons are adopting surgical…

Neurosurgery with Heads-up Display

In the following video interviews Prof. Dr. Raphael Guzman, Vice Chairman of the Department of Neurosurgery at the University Hospital in Basel, Switzerland, talks about his experience in heads-up…

Augmented Reality (AR) Fluorescence Image Gallery

Building on a decade of leadership in fluorescence imaging technology, GLOW800 AR fluorescence is the first of many modalities based on the proprietary GLOW AR platform. The sophisticated imaging…

Clinical Uses in Cerebrovascular and Skull Base Neurosurgery

In this webinar Dr. Bendok and Dr. Morcos explain how Augmented Reality and Fluorescence can enhance visualization and support surgical decision making. They present first-hand experience of the GLOW…

Surgical Microscopes: Key Factors for OR Nurses

Operating room (OR) nurses are vital to the surgery process. An OR Nurse Manager explains the key surgical microscope features to facilitate their work.

GLOW800 Augmented Reality Fluorescence in Aneurysm Treatment

This case study from Prof. Dr. Feres Chaddad talks about the treatment of unruptured MCA (middle cerebral artery) and PCOM (posterior communicating artery) aneurysms with microsurgical clipping. It…

The Future of Fluorescence in Vascular Neurosurgery

In vascular neurosurgery, surgical microscopes are used to provide a magnified and illuminated view of the surgical field. Although surgeons benefit greatly from the superb image quality and optical…

応用分野

脳神経外科用顕微鏡

ライカ マイクロシステムズの脳神経外科用顕微鏡は、頭蓋、脊椎、複数の領域にまたがる分野、そしてその他のマイクロサージャリー分野に対応する高品質の光学系および技術を提供します。

形成外科用顕微鏡

ライカ マイクロシステムズは、高度な手術用顕微鏡であれ、多分野対応のコスト効率に優れたオプションであれ、広範な顕微鏡手術用途に対応したカスタマイズ可能なオプションを提供します。

顕微鏡の基本的な技術

顕微鏡の基本的な技術は、顕微鏡ステージ上の試料全体が光源にさらされる形で使用されます。試料全体は、上方(倒立型)または下方(標準的な正立顕微鏡の場合)から白色光で照らされます。試料の透明度や観察対象・観察部位に応じて、複雑な細胞構造を識別するために異なる蛍光粒子を使用します。
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