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A team of engineers has developed a photoacoustic patch that can monitor biomolecules in deep tissues, including hemoglobin. It can perform 3D mapping of hemoglobin with a submillimeter spatial resolution in deep tissues, down to centimeters below the skin, versus other wearable electrochemical devices that only sense the biomolecules on the skin surface. Source: University of California - San Diego/Science Daily

A new website from NIH is allowing people in the United States to anonymously report their rapid test results. Sharing your results on the site, called MakeMyTestCount.org, bolsters the information public health departments have about whether or not the COVID is spreading. Source: VeryWell Health

Researchers led a large-scale global machine learning effort to securely aggregate knowledge from brain scans of 6,314 glioblastoma (GBM) patients at 71 sites around the globe and develop a model that can enhance identification and prediction of boundaries in three tumor sub-compartments, without compromising patient privacy. Source: University of Pennsylvania School of Medicine/Science Daily

Biomedical and genetic engineers have designed a small fluorescent protein that emits and absorbs light that penetrates deep into biological tissue. Tailored to wavelengths in the near-infrared (NIR) spectrum, this protein can help researchers capture deeper, cleaner, more precise biomedical images. Source: Duke University/Science Daily

Researchers have applied emerging electronic tattoo (e-tattoo) technology to the tricky task of measuring stress levels by attaching a device to people's palms. Source: University of Texas at Austin/Science Daily

Researchers can detect 'toxic' small aggregates of a particular protein in the blood of individuals with Alzheimer's disease, as well as in individuals who showed no signs of cognitive impairment at the time the blood sample was taken, but who developed it at a later date. This blood test picks up oligomers -- or small, misfolded aggregates -- of the amyloid beta protein, which scientists believe triggers the development of Alzheimer's. Source: University of Washington/Science Daily

Researchers have developed an innovative way to 'see' the fine structure and chemical composition of human cells with unmatched clarity and precision. Their technique takes a creative approach to signal detection. Source: Beckman Institute for Advanced Science and Technology/Science Daily

Researchers at the Broad Institute of MIT and Harvard and the McGovern Institute for Brain Research at MIT have developed a system that can detect a particular RNA sequence in live cells and produce a protein of interest in response. Using the technology, the team showed how they could identify specific cell types, detect and measure changes in the expression of individual genes, track transcriptional states, and control the production of proteins encoded by synthetic mRNA. Source: Broad Institute of MIT and Harvard/Science Daily

NIBIB Director Bruce Tromberg talked about his love of lasers, the light-speed advances in optics and photonics he’s witnessed and contributed to throughout his career, and the unique role that NIBIB has played in NIH’s COVID-19 response in this interview with NIH MedlinePlus magazine. Source: MedlinePlus Magazine