Article: The digital revolution – protect your pipetting data
Connected lab tools that digitally record each step researchers make, like Gilson’s TRACKMAN® Connected, help create traceable, centralised data.
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Stem cells are undifferentiated biological cells that can differentiate into specialised cells and can divide to produce more stem cells.
Connected lab tools that digitally record each step researchers make, like Gilson’s TRACKMAN® Connected, help create traceable, centralised data.
Researchers have demonstrated that stem cells attract neurons with different strengths and that connections between the two may be vital for cancer stem cell function.
Gilson interviews Steve DeCabooter, Director of Product Information Platforms, about the growing role of connected tools and systems in the lab.
Seamlessly track, record, and share your protocol and results with Gilson’s TRACKMAN® Connected and the SciNote digital lab notebook.
A study has demonstrated the success of a 2D printing method to create cell arrays that reflect the body's natural environment, allowing researchers to study stem cell differentiation.
TRACKMAN® Connected and PIPETMAN® M Connected allow researchers to pipette reliably and consistently while tracking protocol and protecting data.
Researchers exploring how stem cells can be used discovered that cardiopoietic stem cells could repair in tissue in mouse models of heart attacks.
Many cell lines require the addition of specific growth factors to their culture media even if the media contains serum.
Learn how Gilson has built a secure platform for our TRACKMAN® Connected based on technology and industry best practices.
Your vision is to create revolutionary cell and gene therapies to treat life threatening diseases. Bio-Techne and its family of brands is on this journey with you.
Improve the traceability of your research by following these 10 simple steps for using Gilson’s connected products at the bench.
Scientists have showed that a three inhibitors (3i) cocktail could reprogramme fibroblasts to a naïve embryonic stem cell-like state and remove disease-associated epigenetic changes.
A new population of stem cells that can generate bone has been revealed by researchers, which they say could have implications in regenerative medicine.
Rodent models of pulmonary fibrosis have been used to show that lung spheroid cell secretome therapy is as effective as stem cell secretome treatment.
Researchers have screened 20,000 molecules to discover a potent compound with low toxicity that restores the balance of healthy stem cells in the lungs of mice.