Said Tiffani Lash, Ph.D., director of the NIBIB program in
Microfluidic Bioanalytical Systems, «It is exciting to see the continued growth of microfluidic technologies being used as miniaturized diagnostic platforms, particularly in this case for reducing the incidence of preterm labor a
Microfluidic Bioanalytical Systems, «It is exciting to see the continued growth of
microfluidic technologies being used as miniaturized diagnostic platforms, particularly in this case for reducing the incidence of preterm labor a
microfluidic technologies being used as miniaturized diagnostic
platforms, particularly in this case for reducing the incidence of preterm labor and delivery.
Working with colleagues at the Environmental Molecular Sciences Laboratory, researchers from the Biological Sciences Division helped fuse
microfluidics and robotics for a new bioanalysis
platform that uses far fewer cells than any other
technology.