CORDIS Project
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hiPSCmore focuses on engineering fluorescent sensors in human induced pluripotent stem cells to enhance drug discovery and regenerative medicine. This approach aims to reduce costs and complexity in high-throughput imaging screenings by enabling self-visualization of cellular changes.
In hiPSCmore (read hiP-See-More), my team and I will engineer fluorescent sensors in the DNA of human induced pluripotent stem cells (hiPSC) so we can “See More” during high-throughput imaging screenings (imHTS) for drug discovery and regenerative medicine.Since hiPSCs can differentiate in most cell types in the human body, they are the ideal cell source for more predictively screening therapies.
Yet, hiPSCs are expensive to maintain and require external reagents to visualize pathophysiological…
UNIVERSITA DEGLI STUDI DI PAVIA
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Italy, ROMA RM
Type: SME
Activity type: Private for-profit entities (excluding Higher or Secondary Education Establishments)
SME: Yes
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