To provide better diagnosis and treatment of chronic liver diseases, researchers are working to use non-invasive MRI to detect and quantify liver fibrosis throughout the entire organ, which would enable earlier detection and the ability to monitor disease progression as well as the effects of treatment over time.
With an eye toward early disease detection, synthetic biology engineers at the University of Wisconsin have designed and engineered bacteria that find and detect fragments of DNA shed from infectious pathogens.
Researchers built a motor that could operate a robotic device made from non-magnetic materials and was powered by the magnetic field produced by the M…
Researchers built a motor that could operate a robotic device made from non-magnetic materials and was powered by the magnetic field produced by the MRI.
Researchers built a motor that could operate a robotic device made from non-magnetic materials and was powered by the magnetic field produced by the M…
Researchers built a motor that could operate a robotic device made from non-magnetic materials and was powered by the magnetic field produced by the MRI.
Researchers are developing new MRI contrast agents that are activated in low oxygen environments enabling improved diagnosis and treatment of hypoxic tumors as well as other diseases.
Researchers are developing new MRI contrast agents that are activated in low oxygen environments enabling improved diagnosis and treatment of hypoxic tumors as well as other diseases.
Scientists at Duke University supported with funds from NIBIB have developed an ultra-fast photoacoustic imaging system capable of visualizing functional and molecular changes in the brain related to major brain disorders.
Scientists at Duke University supported with funds from NIBIB have developed an ultra-fast photoacoustic imaging system capable of visualizing functional and molecular changes in the brain related to major brain disorders.
NIBIB researchers and their collaborators introduce several novel image restoration strategies that create sharp images with significantly reduced processing time and computing power.
NIBIB researchers and their collaborators introduce several novel image restoration strategies that create sharp images with significantly reduced processing time and computing power.