Elevate your pathology laboratory to new heights with cutting-edge digitization capabilities and unparalleled image quality. OptraSCAN’s OS-Ultra whole slide image scanner represent a revolutionary leap forward, empowering pathology labs with seamless, high-volume whole slide scanner pathology systems for comprehensive workflow digitization. Our advanced whole slide imaging scanner pathology systems deliver exceptional whole slide scanner, ensuring precise and efficient imaging and analysis for enhanced diagnostic accuracy.
OS-Ultra sets a new standard in digital pathology scanning, revolutionizing the way tissues and cells are analyzed with its lightning-fast capabilities. With the ability to scan a 15x15 mm area at 40x equivalent magnification in less than 60 seconds, OS-Ultra delivers whole slide imaging scanner exceptional speed without compromising on image quality. Featuring a unique no-touch slide loading mechanism, this innovative whole slide scanner pathology system minimizes workflow errors and ensures the production of high-resolution images with unparalleled precision.
The whole slide image scanner comes with embedded software solutions such as IMAGEPath, the Image Management System apt for viewing, storing, and archiving and TELEPath, Telepathology software used for real-time, and remote consultations. The whole slide imaging capabilities of the OS-Ultra offer comprehensive support for advanced diagnostic workflows and remote collaboration.
Take your lab to the next level. Read our blog to explore the capabilities of the Whole Slide Imaging Scanner.
Capture high-resolution images of tissue samples to facilitate in-depth research studies and disease mechanism evaluations. OS-Ultra whole slide imaging scanner empowers researchers to visualize cellular structures and tissue morphology with exceptional clarity.
OS-Ultra serves as a valuable educational tool in medical settings, providing students with access to a vast digital archive for learning, training, and research purposes. Foster collaboration, supervision, and mentoring within the field of pathology.
Facilitate remote access and interpretation of digital slides for telepathology consultations. Share cases, discuss findings, and seek second opinions without the need for physical slide transportation.
Leverage high-resolution digital images for accurate diagnosis and research through image analysis algorithms. Eliminate intra and inter variability to ensure precise results.
Archive digital slides on the cloud or local servers for seamless long-term storage and retrieval. Eliminate the need for maintaining physical slides while ensuring accessibility and data security.
Discover the future of digital pathology with the Whole Slide Imaging Scanner - click here for an in-depth guide!
Whole slide imaging captures an entire glass slide at high resolution, allowing for digital viewing and analysis of the entire specimen. In contrast, traditional microscopy involves viewing smaller sections of the specimen under a microscope, requiring manual scanning and limited field of view.
The main components of a whole slide imaging system typically include a scanner, a light source, a camera, and software for image acquisition, processing, and analysis
Whole slide imaging can scan various types of samples, including tissue sections, cytology slides, blood smears, cell cultures, and histological specimens.
Using whole slide imaging in pathology offers several benefits, including improved workflow efficiency, remote consultation and collaboration, easier archival and retrieval of cases, enhanced teaching and training capabilities, and increased diagnostic accuracy through digital image analysis.
Digital images in whole slide imaging are generated by scanning the entire glass slide using a scanner and then stored electronically in a digital format. The images are typically stored on a computer or server and can be accessed, viewed, and analyzed using specialized software.
While whole slide imaging offers numerous advantages, it also has limitations and challenges. These include the cost of equipment and software and the need for specialized training. Additionally, large file sizes and data management complexities can pose challenges for storage and retrieval.