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Abstract
Although microliter-scale liquid handling with a handheld pipette is a routine task, pipetting nanoliter-scale volumes is challenging due to several technical difficulties including surface tension, adhesion and evaporation effects. We developed a fully automated piezoelectric micropipette with a precision of < 1 nanoliter, improving the efficiency of imaging-based single-cell isolation to above 90%. This improvement is crucial when sorting rare or precious cells, especially in medical applications. The compact piezoelectric micropipette can be integrated into various (bio)chemical workflows. It eliminates plastic tubes, valves, syringes, and pressure tanks. For high-quality phase-contrast illumination of the sample, e.g., cells or tiny droplets, we constructed rings of LEDs arranged concentrically to the micropipette. The same device can be readily used for single-cell printing and nanoliter-scale droplet printing of reagents using either fluorescent or transparent illumination on a microscope. We envision that this new technology will shortly become a standard tool for single-cell manipulations in medical diagnostics, e.g., circulating tumor cell isolation.
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Details
1 CellSorter Company for Innovations, Budapest, Hungary
2 Eötvös University, Department of Biological Physics, Budapest, Hungary (GRID:grid.5591.8) (ISNI:0000 0001 2294 6276)
3 CellSorter Company for Innovations, Budapest, Hungary (GRID:grid.5591.8)
4 Hungarian Academy of Sciences, Nanobiosensorics Laboratory, Institute for Technical Physics and Materials Science, Centre for Energy Research, Budapest, Hungary (GRID:grid.5018.c) (ISNI:0000 0001 2149 4407)
5 CellSorter Company for Innovations, Budapest, Hungary (GRID:grid.5018.c); Eötvös University, Department of Biological Physics, Budapest, Hungary (GRID:grid.5591.8) (ISNI:0000 0001 2294 6276)