Orthopedics | Radiology Acceleration of knee magnetic resonance imaging using a combination of compressed sensing and commercially available deep learning reconstruction: a preliminary study. January 9, 2023
Orthopedics | Radiology Commercially Available Deep-learning-reconstruction of MR Imaging of the Knee at 1.5T Has Higher Image Quality Than Conventionally-reconstructed Imaging at 3T: A Normal Volunteer Study. July 10, 2022
Oncology | Radiology | Urology Feasibility of accelerated whole-body diffusion-weighted imaging using a deep learning-based noise-reduction technique in patients with prostate cancer. June 30, 2022
Neuroradiology | Radiology Impact of deep learning reconstruction on intracranial 1.5 T magnetic resonance angiography. December 1, 2021
Gastroenterology | Radiology Breath-hold 3D magnetic resonance cholangiopancreatography at 1.5 T using a deep learning-based noise-reduction approach: Comparison with the conventional respiratory-triggered technique. October 9, 2021