Software Engineering

Engineering comprehensive software solutions for image-based medicine is our specialty. We have long-standing experience in realizing products on IT frameworks developed and maintained by our industry customers. Through utilization of our proprietary development framework MeVisLab, we develop software in short engineering cycles following agile principles. This enables us to incorporate feedback from clinical users at early stages, resulting in innovative products with outstanding quality, customer value, and high return on investment with a short time-to-market.

No Compromises on Quality, Safety, and Security

Patient safety as well as security against cyber threats are essential non-negotiable qualities of our products. Our processes are in line with industry standards, e.g. ISO 13485:2016 for medical device development and IEC 62443-4 for secure development life-cycles, and we have joined the Cyber-Security Alliance in order to assure that latest standards and recommendations are constantly taken into account in our day-to-day actions.

Screening

Breast cancer screening requires hundreds of images to be viewed quickly: Speed, performance, and accuracy are indispensable. Our workplace solutions for high-throughput screening with X-ray mammography and tomosynthesis are playing a vital role in screening programs worldwide since 2001. We help radiologists to keep pace with steadily increasing amounts of image data via standardized workflows, tools for reporting, and AI-assisted detection of tissue anomalies.

DIAGNOSTIC

Our diagnostic software applications enable physicians to efficiently quantify and assess morphological, functional and metabolic tissue information from automated 3D ultrasound, magnetic resonance imaging and computed tomography data and to turn this data into actionable information suitable for clinical decision making.

Therapy & Intervention Planning

We provide physicians with state-of-the-art image processing tools such as segmentation, quantification, and assessment of anatomical structures. These are embedded in optimized software workflows for generating in-depth analyses of diseases and intuitive visualizations for interdisciplinary communication. These results enable clinicians to develop optimal strategies for procedures like tumor resections, living donor transplants or needle biopsies.