Literature DB >> 10646274

Aligned microcontact printing of micrometer-scale poly-L-lysine structures for controlled growth of cultured neurons on planar microelectrode arrays.

C D James1, R Davis, M Meyer, A Turner, S Turner, G Withers, L Kam, G Banker, H Craighead, M Isaacson, J Turner, W Shain.   

Abstract

We describe a method for producing high-resolution chemical patterns on surfaces to control the attachment and growth of cultured neurons. Microcontact printing has been extended to allow the printing of micron-scale protein lines aligned to an underlying pattern of planar microelectrodes. Poly-L-lysine (PL) lines have been printed on the electrode array for electrical studies on cultured neural networks. Rat hippocampal neurons showed a high degree of attachment selectivity to the PL and produced neurites that faithfully grew onto the electrode recording sites.

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Year:  2000        PMID: 10646274     DOI: 10.1109/10.817614

Source DB:  PubMed          Journal:  IEEE Trans Biomed Eng        ISSN: 0018-9294            Impact factor:   4.538


  23 in total

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4.  New ways to print living cells promise breakthroughs for engineering complex tissues in vitro.

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8.  Imaging dendritic spines of rat primary hippocampal neurons using structured illumination microscopy.

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9.  Low-density neuronal networks cultured using patterned poly-l-lysine on microelectrode arrays.

Authors:  Sang Beom Jun; Matthew R Hynd; Natalie Dowell-Mesfin; Karen L Smith; James N Turner; William Shain; Sung June Kim
Journal:  J Neurosci Methods       Date:  2006-10-17       Impact factor: 2.390

10.  Culture of primary rat hippocampal neurons: design, analysis, and optimization of a microfluidic device for cell seeding, coherent growth, and solute delivery.

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