TEL AVIV, Israel & SAN JOSE, Calif.--(BUSINESS WIRE)--RSIP Vision, a leading innovator in medical imaging through advanced AI and computer vision solutions, today announces a general purpose, AI-based segmentation and measurement tool for detecting objects of interest and their boundaries quickly and automatically, making surgical and diagnostic measurements easier and more accurate for better treatment decisions. The tool requires minimal work by the user to deliver an accurate 3D visualization and analysis of patient anatomy and is applicable across medical imaging verticals & modalities. The solution runs automatically and is robust and clinically accurate, avoiding human factors such as fatigue and misreads which may result in mistakes in measurement. It is available to medical device manufacturers for use in leading facilities worldwide.
“Distinguishing and measuring organs, lesions, and other areas of interest in biopsy and pre-surgical planning can be tedious work, which is generally assigned to a specific employee or technician, or even a physician,” said Ron Soferman, Founder & CEO at RSIP Vision. “Our new segmentation tool makes it easier to pinpoint specific points and boundaries in images, which in turn leads to greater accuracy during surgeries without being dependent on the capability and experience of a specific individual. In 2021, RSIP Vision will continue to drive innovation in image analysis across the medical verticals through custom software, advanced algorithm development and custom technologies which will be found in medical devices in leading facilities worldwide. RSIP Vision ensures customers can leverage the latest advances in AI and computer vision, in order to save time and cost during medical procedures.”
RSIP Vision offers this AI-based software to detect and localize the area of interest and use those complex features in a scan through a series of algorithms. The segmentation creates boundaries around the image for better viewing and performs automatic measurements. Physicians and researchers can receive consistent, repeatable measurements regarding the dimensions and characteristics of a specific area, using artificial intelligence technology that is available across all modalities including X-ray, CT scans, MR, surgical robotics, and pathology. For example, the tool can be used for one-click segmentation of lesions in multiple organs such as the lungs and the liver, across patient populations and cohorts. The new AI module can be easily integrated in medical device software for multiple applications, without the need to collect and train machine learning models on extensive domain-specific training data, accelerating time to market for medical device companies looking to stay ahead of the AI adoption curve.
About RSIP Vision
RSIP Vision is driving innovation in medical imaging through advanced AI and computer vision solutions. We’re a proven global leader, with more than 25 years of experience. Our multidisciplinary team of 50+ algorithm experts, computer science engineers, physicists, radiologists, echo specialists and in-house medical annotation teams, continue to provide innovative and effective solutions, as well as research and customized algorithm development to medical device companies to give them an edge over their competition. Our engineers are experts in artificial intelligence, deep learning and the most advanced computer vision techniques. They develop practical AI modules that ensure precision, reduce time to market, cut costs, and allow core R&D teams to focus on key initiatives while we provide custom-built solutions to fit their growing needs. Our aim is to drive innovation in medical imaging through our custom software and advanced algorithm development and custom technologies which can be found in medical devices in leading facilities worldwide, ensuring our customers remain at the forefront of the latest medical advances.
RSIP Vision is headquartered in Jerusalem, and has a U.S. office in San Jose, CA.
More information is available on the company website: www.rsipvision.com