Discover Nicolab's Clinical Workflow Platform for Acute Care Teams

Nicolab is a healthcare technology company dedicated to helping public healthcare providers deliver faster, more coordinated acute care. Our solutions support hospitals, and regional networks by connecting care teams, streamlining workflows, and enabling informed clinical decisions when every minute matters. Nicolab is built with interoperability, data security, and regulatory compliance at its core, ensuring seamless integration with existing healthcare systems while maintaining the highest standards of patient privacy and safety. Within a single, compact platform, Nicolab provides Nicolab Assist, our collaboration suite for acute care, and StrokeViewer, our AI-powered imaging portfolio for stroke.

Nicolab Assist is designed to support the operational needs of public sector healthcare systems, where coordination across hospitals and regions is essential. The platform enables real-time collaboration in a secure, cloud-based environment through a shared DICOM viewer certified for diagnostic use. Clinicians can access patient timelines, review imaging instantly, and communicate securely via structured patient transfers or chat. By ensuring the right clinicians are alerted at the right time, Nicolab Assist helps hospitals reduce delays, improve resource utilization, and maintain continuity of care across large and distributed care networks.

StrokeViewer, Nicolab’s AI suite, complements Nicolab Assist by supporting rapid and consistent stroke triage at scale. It provides AI-powered hemorrhage triage to help clinicians quickly identify suspected acute intracranial hemorrhage on non-contrast head CT scans. StrokeViewer also delivers AI-powered large vessel occlusion triage, instantly notifying care teams and directing them to the relevant imaging to support timely treatment decisions. Automated CT perfusion analysis further supports standardized assessment by calculating perfusion volumes using configurable thresholds, with automated motion correction and arterial input function standardization.