A USC Viterbi team will lead the study that could inform future diagnoses for neurological disorders and the development of next-generation bio-inspired AI.
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Neuroimaging Findings of CAR T-Cell-Associated NeurotoxicityA Review
This review explores the current literature on brain MRI findings of CAR-T–induced neurotoxicity, highlighting diagnostic capabilities, clinical implications, and emerging trends in advancing imaging modalities.
Chimeric antigen receptor T-cell (CAR-T) therapy has remarkable efficacy in treating refractory hematologic malignancies. However, CAR-T therapy may induce neurotoxic effects in some patients. Common symptoms of neurotoxicity range from early signs such as headache, confusion, delirium, and aphasia to severe manifestations such as seizures, motor weakness, increased intracranial pressure, cerebral edema, and coma. Magnetic resonance imaging (MRI) can offer invaluable insight into resulting abnormalities in the structure, physiology, and function of the central nervous system. This review aims to examine the current literature on brain MRI findings of CAR-T–induced neurotoxicity, elucidating its diagnostic capabilities, clinical implications, and emerging trends in advancing imaging modalities.
The Progress and Trend of Heterogeneous Integration Silicon/III-V Semiconductor Optical Amplifiers
Silicon photonics is a revolutionary technology in the integrated photonics field which has experienced rapid development over the past several decades. High-quality III-V semiconductor components on Si platforms have shown their great potential to realize on-chip light-emitting sources for Si photonics with low-cost and high-density integration. In this review, we will focus on semiconductor optical amplifiers (SOAs), which have received considerable interest in diverse photonic applications. SOAs have demonstrated high performance in various on-chip optical applications through different integration technologies on Si substrates. Moreover, SOAs are also considered as promising candidates for future light sources in the wavelength tunable laser, which is one of the key suitable components in coherent optical devices.
Nanodevice uses sound to sculpt light, paving the way for better displays and imaging
Light can behave in very unexpected ways when you squeeze it into small spaces. In a paper in the journal Science, Mark Brongersma, a professor of materials science and engineering at Stanford University, and doctoral candidate Skyler Selvin describe the novel way they have used sound to manipulate light that has been confined to gaps only a few nanometers across—allowing the researchers exquisite control over the color and intensity of light mechanically.
The findings could have broad implications in fields ranging from computer and virtual reality displays to 3D holographic imagery, optical communications, and even new ultrafast, light-based neural networks.
The new device is not the first to manipulate light with sound, but it is smaller and potentially more practical and powerful than conventional methods. From an engineering standpoint, acoustic waves are attractive because they can vibrate very fast, billions of times per second.
Simulations reveal surprising electron temperatures near M87 black hole’s event horizon
The first black hole images stunned the world in 2019, with headlines announcing evidence of a glowing doughnut-shaped object from the center of galaxy Messier 87 (M87 —55 million light years from Earth. Supercomputer simulations are now helping scientists sharpen their understanding about the environment beyond a black hole’s ‘shadow,’ material just outside its event horizon.