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 | Feb 8, 2022 | Garcia Hernandez, Nimrod Missael, Gruev, Viktor
— Technology Description
Engineers in Prof. Viktor Gruev’s laboratory have developed a compact 27-band hyperspectral imaging system for high resolution, label-free, real-time imaging. This system can distinguish spectral signatures in image guided surgery (IGS) and other applications. The tech…
by | Feb 12, 2021 | Bergonzi, Karla, Culver, Joseph, Eggebrecht, Adam, Ferradal, Silvina
— Technology Description
Researchers in Prof. Joseph Culver’s laboratory have developed a patented, compact, lightweight functional neuroimaging device for long-term bedside monitoring. This technology, based on high-density diffuse optical tomography (HD-DOT), could be used as a surrogate for …
by | Sep 25, 2020 | Binkley, Michael, Bose, Arpita, Meacham, John, Rengasamy, Karthikeyan
— Technology Description
An interdisciplinary team of Washington University researchers has developed a high-throughput microfluidic bioelectrochemical cell (μBEC) that collects electrochemical data and is compatible with live-cell microscopy and spectrometry. This device transcends the capabilit…
by | Oct 22, 2019 | Zhang, Tiezhi
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About 70 million computed tomography (CT) scans are performed in the United State alone each year. Traditional helical scanners use a single point x-ray source that rotates around the patient, acquiring images in sequential slices, which results in high quality images. But these helical scanners a…