A HIGHLY DENSE NANONEEDLE ARRAY FOR INTRACELLULAR GENE DELIVERY | Zendy

SeungJoon Paik | Zendy; S. Park | Zendy; Vladimir Zarnitsyn | Zendy; Mark R. Prausnitz | Zendy; Mark G. Allen | Zendy; SeYoung Choi | Zendy; Xiaoheng Guo | Zendy

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A HIGHLY DENSE NANONEEDLE ARRAY FOR INTRACELLULAR GENE DELIVERY

Author(s) -

SeungJoon Paik,

S. Park,

Vladimir Zarnitsyn,

Mark R. Prausnitz,

Mark G. Allen,

SeYoung Choi,

Xiaoheng Guo

Publication year - 2012

Publication title -

1998 solid-state, actuators, and microsystems workshop technical digest

Language(s) - English

Resource type - Conference proceedings

DOI - 10.31438/trf.hh2012.40

Subject(s) - nanoneedle , intracellular , materials science , nanotechnology , etching (microfabrication) , biophysics , microbiology and biotechnology , biology , nanostructure , layer (electronics)

We present a dense needle array with sharp nano-tips for intracellular gene and drug delivery, with the ultimate goal of gene correction in a high throughput manner. The nanoneedles are fabricated using isotropic dry etching of silicon, followed by anisotropic dry etching and thermal-oxidation-based tip sharpening. The nanoneedle density is as large as 10 6 needles per square centimeter. In-vitro intracellular delivery tests demonstrated that the nanoneedle array can effectively deliver molecular probes into cells without causing significant cell death from cell membrane penetration. Uptake of molecular probes by up to 34% of cells after nanoneedle treatment was observed.

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