Recent advancements in deep learning have significantly transformed the field of nuclear medicine, specifically in the detection and analysis of bone metastases via scintigraphy. By leveraging ...

Workflow of the optimized deep imaging protocol for optically cleared skeletal tissue. Steps for preparing the deep-imaging bone hemisections, including tissue fixation, decalcification, dehydration, ...

Ferda Canbaz demonstrates the depth of cuts that can be achieved with lasers when the energy profile of the laser beam is adjusted. Lasers cut precisely and without contact – ideal for surgery. The ...

Advertising Feature: This article is not produced by the newsroom. It is editorially independent of both the newsroom and any one advertiser. Most people don’t think of their bones as alive — at least ...

Deep learning–based reconstruction (DLR) significantly improved image quality in temporal bone ultrahigh-resolution CT (UHR-CT) for both adult and paediatric protocols, reducing noise and enhancing ...

Lasers cut precisely and without contact—ideal for surgery. The problem is that in hard tissues such as bone, they are too slow and do not cut deep enough. Researchers at the University of Basel have ...