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• W4212792509 abstract "Advances in cellular reprogramming have radically increased the use of patient-derived cells for neurological research in vitro. However, adherence of human neurons on tissue cultureware is unreliable over the extended periods required for electrophysiological maturation. Adherence issues are particularly prominent for transferable glass coverslips, hindering imaging and electrophysiological assays. Here, we assessed thin-film plasma polymer treatments, polymeric factors, and extracellular matrix coatings for extending the adherence of human neuronal cultures on glass. We find that positive-charged, amine-based plasma polymers improve the adherence of a range of human brain cells. Diaminopropane (DAP) treatment with laminin-based coating optimally supports long-term maturation of fundamental ion channel properties and synaptic activity of human neurons. As proof of concept, we demonstrated that DAP-treated glass is ideal for live imaging, patch-clamping, and optogenetics. A DAP-treated glass surface reduces the technical variability of human neuronal models and enhances electrophysiological maturation, allowing more reliable discoveries of treatments for neurological and psychiatric disorders." @default.
• W4212792509 created "2022-02-24" @default.
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• W4212792509 date "2022-03-01" @default.
• W4212792509 modified "2023-10-06" @default.
• W4212792509 title "Long-term adherence of human brain cells in vitro is enhanced by charged amine-based plasma polymer coatings" @default.
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• W4212792509 doi "https://doi.org/10.1016/j.stemcr.2022.01.013" @default.

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