Scientists have designed nanoparticles that release drugs in the presence of a class of proteins that enable cancers to metastasize. That is, they have engineered a drug delivery system so that the very enzymes that make cancers dangerous could instead guide their destruction.
UC San Diego Health and AccentCare have created a jointly owned home health services agency to serve UC San Diego Health patients in San Diego and surrounding communities. The new agency is designed to provide a comprehensive continuum of care after patients have been discharged from the hospital to facilitate efficient communication, improved safety, and faster healing.
Tumors can leverage glucose and other nutrients to resist targeted therapies directed at specific cellular molecules, according to researchers at University of California, San Diego School of Medicine and Ludwig Cancer Research. In the study, published this week in Proceedings of the National Academy of Sciences, the team used human tissue and mouse models to demonstrate that nutrients can strongly affect the signaling molecules that drive tumors in glioblastoma, a deadly brain cancer.
From the smell of flowers to the taste of wine, our perception is strongly influenced by prior knowledge and expectations, a cognitive process known as top-down control. In a University of California, San Diego School of Medicine study, a research team led by Takaki Komiyama, PhD, assistant professor of neurosciences and neurobiology, reports that in mouse models, the brain significantly changed its visual cortex operation modes by implementing top-down processes during learning.
Researchers at the University of California, San Diego and the School of Medicine have found that the three-dimensional shape of the cerebral cortex – the wrinkled outer layer of the brain controlling many functions of thinking and sensation – strongly correlates with ancestral background. The study opens the door to more precise studies of brain anatomy going forward and could eventually lead to more personalized medicine approaches for diagnosing and treating brain diseases.
Engineers at Harvard University and the University of California, San Diego, have created the first robot with a 3D-printed body that transitions from a rigid core to a soft exterior. The robot is capable of more than 30 untethered jumps and is powered by a mix of butane and oxygen. Researchers describe the robot’s design, manufacturing and testing in the July 10 issue of Science magazine.
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