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Researchers are making amazing progress in developing new imaging approaches that provide us with jaw-dropping views of a wide range of biological systems, including the incredibly complex neural networks within the mammalian brain. 

NIH-funded research replaces needles with lasers in new blood glucose monitoring system.

Nanogenerator’s electrical pulses provide beneficial outcomes with no side effects – rat study.

NIBIB-funded researchers have developed a 3D-printed scaffold coated in aggrecan, a native cartilage component, to improve the regeneration of cartilage tissue in joints.

NIBIB-funded researchers are literally breaking barriers using ultrasound waves emitted from a flexible patch to accurately measure central blood pressure and help detect cardiovascular problems earlier.

NIBIB-funded researchers have created a novel, low-cost biosensor to detect HER-2, a breast cancer biomarker in the blood, allowing for a far less invasive diagnostic test than the current practice, a needle biopsy.

Tuberculosis meningitis causes life-threatening inflammation of the membranes in the brain and spinal cord.

A team of NIH-funded researchers at the University of Arkansas have demonstrated the novel use of multiphoton microscopy to monitor wound healing in live animals.

NIBIB-funded researchers recently validated a rapid STD test that delivered accurate results in about 30 minutes for chlamydia, allowing patients to receive treatment immediately, thereby stemming the further spread of disease.