by | Oct 22, 2024 | Kim, Taeho, Park, Chunjoo (Justin)
— Value Proposition: Method combines two previously known techniques to enable real time 3D MRI image reconstruction for improving patient care.
Technology Description
Researchers at Washington University in St. Louis have developed a method for real-time, high-resolution 3D MRI that can be used i…
by | Feb 6, 2024 | Jha, Abhinav Kumar, Rahman, Md Ashequr, Siegel, Barry, Yu, Zitong
— T-020357, T-020358, T-020744 Myocardial perfusion SPECT optimization
Technology Description
Researchers from the laboratory of Abhinav Jha at Washington University have devised methods to reliably improve and personalize myocardial perfusion SPECT imaging. The inventions include the following capa…
by | Aug 10, 2023 | Jha, Abhinav Kumar, Li, Ran, Woodard, Pamela, Zheng, Jie
— Technology Description
Researchers at Washington University in St. Louis have developed a two-stage neural network model, with CNN and BNN architecture, to segment carotid atherosclerotic plaque components based on multi-weighted MR images and measure the uncertainty of the segmentation output. Th…
by | Aug 2, 2023 | Mutic, Sasa, Zhang, Tiezhi
— Existing LINACs inefficiently deliver non-coplanar beams
The goal of radiation treatment is to precisely deliver a prescribed radiation dose to the targeted tissue, while avoiding dosing the surrounding normal tissues and organs. These treatments require radiation beams to be delivered from multipl…
by | Jul 26, 2022 | Clayton, William, Don, Steven
— Technology Description
Researchers at Washington University in St. Louis have developed a device that automatically measures and displays body thickness to optimize X-ray image collection. This device will improve X-ray image quality and reduce the radiation exposure to patients.
The device es…