Smart Medical Equipment Company 3Scan Receives $14 Million B Series Financing: Developing Robot Microscopes
When it comes to robotics or artificial intelligence software, people often think that the work of manual workers will be replaced, but in fact, the medical research industry is also affected by new technologies. On Wednesday, San Francisco-based startup 3Scan Inc. announced that it has received $14 million in Series B funding. They hope to use patented robotic microscope technology and computer visualization systems to help scientists in the drug discovery industry automate their human pathology analysis. . Founded in 2010, 3Scan's executives include Todd Huffman, Chief Technology Officer Matthew Goodmany, Chief Operating Officer Megan Klimen, and Chief Engineer Cody Daniel. According to Megan Klimen, 3Scan can help drug researchers alleviate a lot of tedious work—especially in human pathology analysis, a lot of manual work. More importantly, however, 3Scan offers better visual aids and a richer collection of research data than traditional research methods performed by scientists on a particular pathology. In the past, if researchers needed to examine a diseased tissue, they usually needed to obtain a 1 cm thick piece of tissue, then embed it in paraffin, then soak it in water for sectioning, and then get a different type of microscope. Analyze these diseased tissues. Scientists rarely make large numbers of slices, usually within 12 slices, and then infer the pathological causes of the diseased tissue based on these limited data. In contrast, the 3Scan's robotic microscope allows very precise manipulation of diseased tissue sample sections, just like a miniature deli slicer. Klimen explained that the 3Scan system can get 10,000 slices from each diseased tissue sample, after which the robotic microscope uses machine vision technology to generate a digital three-dimensional map (looking like a picture of the earth's terrain), researchers can work on the computer View and analyze these sliced ​​photos. Magnetic Bead Nucleic Acid Extraction Reagent
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