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NIBIB-funded researchers use passive cavitation imaging, an ultrasound imaging technique, to create an image and estimate the amount of drug that crossed the blood-brain barrier to reach a specific location in the brain.

Bioengineers used bone engineered in a 3D-printed mold and grown alongside the ribs of sheep to successfully replace a portion of the animals’ jaw bones.

A team of NIBIB-funded bioengineers at RPI developed an AI technique to rapidly convert low-dose CT scans to superior images compared to a conventional technique. Low-dose CT minimizes x-ray radiation to a patient.

Researchers have created 3D printed customized implants that may boost the power of cell-based therapies for repairing injured spinal cords.

Bioengineers have developed a 3D printing technique that creates the interacting networks for transport of air, blood, and other bodily fluids—a major step toward 3D printed replacement organs.

A team of NIH-funded researchers at Stanford University Medical School has found that children with autism improved measurably on a test of socialization and learning when their therapy included an at-home intervention with Google Glass.

NIBIB-funded researchers used photoacoustic imaging for rapid measurement of metabolic rate of individual cells from breast tumors—information that can help guide treatment strategies.

NIBIB researchers have designed a nanoparticle that generates radiation-induced oxygen free radicals in the low-oxygen center of tumors, dramatically increasing tumor destruction.

NIBIB-funded researchers have designed a new class of two-dimensional (2D) nanomaterials that are disc-shaped and flat on the surface, similar to a coin, to aid in treatments for cartilage repair.