SUNNYVALE, Calif.--(EON: Enhanced Online News)--OptraSCAN has been chosen by the National Institute of Neurological Disorders and Stroke (NINDS), NIH to provide a high-speed, high-throughput, high-capacity, high-content digital slide scanner that is fully equipped with confocal and widefield fluorescence imaging modalities that are seamlessly integrated with image acquisition, image processing and quantitative image analysis software.
“We are pleased to play a vital role in such a study to advance neurological health.”
The specialized OptraSCAN solution includes both brightfield and fluorescent imaging with a 10-laser line confocal imaging modality for acquiring up to 20-color fluorescence channels. The system incorporates a 300-slide autoloader that supports multiple 1x3 and 2x3 inch slides and registration of serial sections for 3D reconstruction, along with 6x8 inch slides for large specimen imaging. The scanner has the ability to scan a 1 cm3 specimen for 20 fluorophores.
The OptraSCAN scanner enables z-stack scanning capability and 3D virtual slide production with its motorized camera and objective changer to facilitate 4x, 10x, 20x and 40x viewing through its image viewer and online image viewing capability. The specialized system seamlessly integrates advanced IHC Multiplexing Image Analysis software with user-friendly algorithm selection (including availability of standard segmentation algorithms and importing of user-specified and software validated segmentation algorithms), and support of standard image formats including BigTIFF, JP-2000, DICOM, CZI and PSB with no restriction on image size. The system supports FCS and ICE export file formats compatible with 3rd party flow and image cytometry.
System functionality enables multichannel fluorescence IHC image datasets and big image data >1 PB. Additional features include signal optimization, multi-level cell segmentation, comprehensive feature extraction and robust quantitative analysis for each imaged channel with export capability, export for high resolution data visualization and validation and support of export function for xyz pixel coordinates, multi-level cell segmentation and feature extraction data.
“OptraSCAN has demonstrated a unique capability to provide a multitude of features in one scanner, suitable to accomplish the comprehensive requirements of the NINDS’ studies,” said founder and CEO Abhi Gholap. “We are pleased to play a vital role in such a study to advance neurological health.”
OptraSCAN™ (www.optrascan.com) for research-use-only, is the first On-Demand Digital Pathology system to provide a comprehensive, affordable end-to-end Digital Pathology solution for both low volume, high-throughput and frozen sections users. OptraSCAN™ serves as a perfect tool for the transition from conventional microscopy to Digital Pathology for the effective acquisition of Whole Slide images, viewing, sharing, analysis and management of digital slides and associated metadata. The On-Demand solutions include a small-footprint, high and low throughput WSI scanner OptraSCAN™, an integrated image viewer and image management system ImagePath™ and telepathology TELEPath™, image analysis OptraASSAYS™ and CARDS™ (computer aided region detection system), as well as 10 TB of complimentary monthly cloud storage. Focused on delivering fully integrated Digital Pathology solutions that maximize quality, efficiency and throughput of its customer’s pathology lab (at minimized cost), paired with a complimentary Whole Slide image scanner and viewer—OptraSCAN provides a complete Whole Slide Image solution system via an On-Demand pay-per-use program. Follow OptraSCAN on Linkedin and Twitter.
NINDS-NIH Contract #HHSN271201600048A