Rodrigo Gómez scite author profile

During the past decade, diverse types of barcode have been designed in order to track living cells in vivo or in vitro, but none of them offer the possibility to follow an individual cell up to ten or more days. Using silicon microtechnologies a barcode sufficiently small to be introduced into a cell, yet visible and readily identifiable under an optical microscope, is designed. Cultured human macrophages are able to engulf the barcodes due to their phagocytic ability and their viability is not affected. The utility of the barcodes for cell tracking is demonstrated by following individual cells for up to ten days in culture and recording their locomotion. Interestingly, silicon microtechnology allows the mass production of reproducible codes at low cost with small features (bits) in the micrometer range that are additionally biocompatible.

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Magnetic entrapment for fast, simple and reversible electrode modification with carbon nanotubes: Application to dopamine detection

Baldrich

Gómez

Gabriel

et al. 2011

Biosensors and Bioelectronics

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Rodrigo Gómez

Easily made single-walled carbon nanotube surface microelectrodes for neuronal applications

Intracellular Polysilicon Barcodes for Cell Tracking

Magnetic entrapment for fast, simple and reversible electrode modification with carbon nanotubes: Application to dopamine detection

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