Diagnosing genetic mutations and anomalies is a tricky science. In Dino Di Carlo's lab at the University of California, Los Angeles, that science involves the careful preparation of microfluidic chips. These chips contain miniscule channels through which fluid samples will travel, and their preparation has to take place in a special clean room to prevent even a speck of dust from blocking one of the channels.3D Printing May Help Make More Effective Medical Microfluidic Chips
Diagnosing genetic mutations and anomalies is a tricky science. In Dino Di Carlo's lab at the University of California, Los Angeles, that science involves the careful preparation of microfluidic chips. These chips contain miniscule channels through which fluid samples will travel, and their preparation has to take place in a special clean room to prevent even a speck of dust from blocking one of the channels.
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