Control of Neuronal Survival and Development Using Conductive Diamond.

Alastair Stacey,Andre Chambers,Andre Chambers,Andre Chambers,Andre Chambers,Arman Ahnood,Danli Peng,David J Garrett,Hassan N Al Hashem,Hualin Zhan,Hualin Zhan,Hualin Zhan,Hualin Zhan,Kate Fox,Leon Pope,Michael B Clark,Michael R Ibbotson,Samira Falahatdoost,Sorel E De León,Steven Prawer,Wei Tong,Yair D J Prawer

doi:10.1021/acsami.3c14680

Control of Neuronal Survival and Development Using Conductive Diamond.

Alastair Stacey, Andre Chambers + Show 20 more

https://doi.org/10.1021/acsami.3c14680

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Journal: ACS applied materials & interfaces

Publication Date: Jan 17, 2024

Affiliation: University of Melbourne, ACT Government

#Nitrogen-doped Ultrananocrystalline Diamond #Near-infrared Illumination #Conductive Diamond #Platform For Tissue Engineering #Potential Of Diamond #Neurite Outgrowth #Neuronal Development #Neuronal Survival #Nitrogen-doped Diamond #Platform For Engineering

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This study demonstrates the control of neuronal survival and development using nitrogen-doped ultrananocrystalline diamond (N-UNCD). We highlight the role of N-UNCD in regulating neuronal activity via near-infrared illumination, demonstrating the generation of stable photocurrents that enhance neuronal survival and neurite outgrowth and foster a more active, synchronized neuronal network. Whole transcriptome RNA sequencing reveals that diamond substrates improve cellular-substrate interaction by upregulating extracellular matrix and gap junction-related genes. Our findings underscore the potential of conductive diamond as a robust and biocompatible platform for noninvasive and effective neural tissue engineering.

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