With the launch of the all new SP8 DIVE system Leica Microsystems offers the world’s first spectrally tunable solution for multi-color, multiphoton deep tissue imaging. The world‘s first tunable deep imaging solution The top-of-the-line optics and illumination combined for the first time in a responsive, stable floor stand, allow surgeons to see more, simply. Surgeons can now see a larger area in full focus and benefit from less interruptions through time consuming refocusing. PROvido features exclusive FusionOptics technology from Leica Microsystems, which was previously only available in premium microscope solutions. With the launch of the PROvido multidisciplinary microscope Leica Microsystems enhances intraoperative visualization in a broad range of surgical applications. ARTOS 3D automatically produces ribbons of extremely consistent, thin sections (nanometer range thickness) for array tomographic 3D image reconstruction of the specimen. ![]() Get Quality Serial Sections for Array Tomography FastĪRTOS 3D marks a new level of quality and speed for ultramicrotome sectioning. It is configured to stay by your cells on any lab bench or even directly in an incubator. PAULA (Personal AUtomated Lab Assistant) helps to speed up daily cell culture tasks and standardize the results to improve the downstream workflow. Routine tasks in the cell culture lab become digitized The ARveo also integrates digital imaging from IGS systems and endoscopes, as well as allowing surgeons to work “heads-up” looking at a large 4K 3D monitor. This is particularly useful in AVM or aneurysm surgeries. In combination with ICG, GLOW800 allows surgeons to observe cerebral anatomy in natural color, augmented by a real-time view of blood flow. GLOW800 AR fluorescence, the first AR modality powered by GLOW AR technology is available fully integrated into ARveo. The microscope features groundbreaking GLOW AR digital technology, which combines white light with fluorescence for a single, precise view of the surgical site. The ARveo digital augmented reality neurosurgical microscope provides surgeons with extensive visual information to empower their intraoperative decision-making. Additionally, it provides extra contrast to clearly separate a multitude of fluorophores. This lifetime information lets researchers monitor interactions between proteins in living cells. The SP8 FALCON (FAst Lifetime CONtrast) system can record lifetime contrast 10x faster than previous solutions. LIGHTNING extracts valuable image information from previously unseen or inaccessible fine structures and details, expanding imaging capabilities both in the classic confocal range and beyond the diffraction limit, down to 120 nm. Redefining the Detection Limit for Confocal Imaging This performance advantage is achieved with a new opto-digital method created by Leica Microsystems called Computational Clearing. The Imagers eliminate the out-of-focus haze that clouds the view of thick specimens when using camera-based fluorescence microscopes. The THUNDER Imagers enable users to visualize clearly in real time fine details even deep inside thick specimens of biologically relevant models, e.g., model organisms, tissue sections, and 3D cell cultures. ![]() Widefield Visualization of 3D Biologically Relevant Specimens Transformed For 170 years, Leica Microsystems has helped shape the future and continues to do so today with its latest digital innovations enabling new insights for research, medical, and industrial applications. Over the last century it has developed into a global success story with a worldwide reputation. The origin of the company dates back to 1849 when a family business for optics was founded in Wetzlar, Germany. ![]() The history of Leica Microsystems is closely related to the world-renowned brands Leitz and Leica.
0 Comments
Leave a Reply. |