The ability to simultaneously operate two x-ray sources at different energy levels -- and therefore differentiate materials like contrast material, soft tissue, and calcifications on the basis of their unique energy-dependent attenuation profiles -- is opening the door to a host of clinically useful, new applications. Focusing on background information as well as on the practical aspect, we designed the course to enable you to make full clinical use of your dual-energy applications. The course format is a combination of lectures and hands-on for postprocessing.
Clinical Workshop on Dual Energy
Apr 16th, 2009Apr 17th, 2009
Forchheim, --
DE
Latest in Home










![A normal mammogram confirmed by three-year radiologic follow-up illustrates reader-marked regions of interest (ROIs) during (A) unaided (round 1) and (B) artificial intelligence (AI)–assisted (round 2) reading. Each colored dot represents an ROI for recall by a human reader. Readers could mark more than one ROI per case, represented by multiple dots of the same color. During AI-assisted reading, the AI system displayed three visible prompts: two with suspicion of malignancy scores of 35% (left mediolateral oblique [L MLO] and craniocaudal [L CC]) and one with a suspicion of malignancy score of 10% (right craniocaudal [R CC]), shown as polygonal overlays. Without AI, six of 10 readers (60%) marked a false-positive ROI. With AI assistance, this fell to two of 10 (20%). R MLO = right mediolateral oblique.](https://img.auntminnie.com/mindful/smg/workspaces/default/uploads/2026/07/2026-07-14-radiology-mammogram-ai-auto-bias.H0bYO8QlWs.jpg?auto=format%2Ccompress&fit=crop&h=112&q=70&w=112)




