Gold nanoparticle mediated laser transfection for high-throughput antisense applications

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

External Research Organisations

  • Laser Zentrum Hannover e.V. (LZH)
  • Hannover Medical School (MHH)
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Details

Original languageEnglish
Title of host publicationConference Proceedings - European Conference on Biomedical Optics, ECBO 2013
PublisherOSA - The Optical Society
ISBN (print)9780819496461
Publication statusPublished - 12 May 2013
Externally publishedYes
EventEuropean Conference on Biomedical Optics, ECBO 2013 - Munich, Germany
Duration: 12 May 201316 May 2013

Publication series

NameOptics InfoBase Conference Papers
ISSN (electronic)2162-2701

Abstract

The delivery of antisense structures, like siRNA, is beneficial for new therapeutic approaches in regenerative sciences. Optical transfection techniques enable high spatial control combined with minimal invasive treatment of cells due to the use of short laser pulses. However, single cell laser transfection by a tightly focused laser beam, for example femtosecond laser transfection, has the major drawback of low throughput. Compared to this, high-throughput in laser transfection is possible by applying gold nanoparticles irradiated by a weakly focused laser beam scanning over the cell sample. Herein, we show the delivery of antisense molecules and demonstrate the minimal cytotoxicity of a method called gold nanoparticle mediated (GNOME) laser transfection. A 532 nm microchip laser in conjugation with 200 nm gold nanoparticles at a concentration of 0.5 μg/cmï 2 is used. In addition to antisense molecules, the uptake of dextrans of several sizes is analyzed.

Keywords

    Gene silencing/knockdown, Gold nanoparticle, High throughput, Laser transfection, Minimal invasive

ASJC Scopus subject areas

Cite this

Gold nanoparticle mediated laser transfection for high-throughput antisense applications. / Kalies, S.; Heinemann, D.; Schomaker, M. et al.
Conference Proceedings - European Conference on Biomedical Optics, ECBO 2013. OSA - The Optical Society, 2013. (Optics InfoBase Conference Papers).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Kalies, S, Heinemann, D, Schomaker, M, Birr, T, Ripken, T & Meyer, H 2013, Gold nanoparticle mediated laser transfection for high-throughput antisense applications. in Conference Proceedings - European Conference on Biomedical Optics, ECBO 2013. Optics InfoBase Conference Papers, OSA - The Optical Society, European Conference on Biomedical Optics, ECBO 2013, Munich, Germany, 12 May 2013.
Kalies, S., Heinemann, D., Schomaker, M., Birr, T., Ripken, T., & Meyer, H. (2013). Gold nanoparticle mediated laser transfection for high-throughput antisense applications. In Conference Proceedings - European Conference on Biomedical Optics, ECBO 2013 (Optics InfoBase Conference Papers). OSA - The Optical Society.
Kalies S, Heinemann D, Schomaker M, Birr T, Ripken T, Meyer H. Gold nanoparticle mediated laser transfection for high-throughput antisense applications. In Conference Proceedings - European Conference on Biomedical Optics, ECBO 2013. OSA - The Optical Society. 2013. (Optics InfoBase Conference Papers).
Kalies, S. ; Heinemann, D. ; Schomaker, M. et al. / Gold nanoparticle mediated laser transfection for high-throughput antisense applications. Conference Proceedings - European Conference on Biomedical Optics, ECBO 2013. OSA - The Optical Society, 2013. (Optics InfoBase Conference Papers).
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title = "Gold nanoparticle mediated laser transfection for high-throughput antisense applications",
abstract = "The delivery of antisense structures, like siRNA, is beneficial for new therapeutic approaches in regenerative sciences. Optical transfection techniques enable high spatial control combined with minimal invasive treatment of cells due to the use of short laser pulses. However, single cell laser transfection by a tightly focused laser beam, for example femtosecond laser transfection, has the major drawback of low throughput. Compared to this, high-throughput in laser transfection is possible by applying gold nanoparticles irradiated by a weakly focused laser beam scanning over the cell sample. Herein, we show the delivery of antisense molecules and demonstrate the minimal cytotoxicity of a method called gold nanoparticle mediated (GNOME) laser transfection. A 532 nm microchip laser in conjugation with 200 nm gold nanoparticles at a concentration of 0.5 μg/cm{\"i} 2 is used. In addition to antisense molecules, the uptake of dextrans of several sizes is analyzed.",
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AU - Kalies, S.

AU - Heinemann, D.

AU - Schomaker, M.

AU - Birr, T.

AU - Ripken, T.

AU - Meyer, H.

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AB - The delivery of antisense structures, like siRNA, is beneficial for new therapeutic approaches in regenerative sciences. Optical transfection techniques enable high spatial control combined with minimal invasive treatment of cells due to the use of short laser pulses. However, single cell laser transfection by a tightly focused laser beam, for example femtosecond laser transfection, has the major drawback of low throughput. Compared to this, high-throughput in laser transfection is possible by applying gold nanoparticles irradiated by a weakly focused laser beam scanning over the cell sample. Herein, we show the delivery of antisense molecules and demonstrate the minimal cytotoxicity of a method called gold nanoparticle mediated (GNOME) laser transfection. A 532 nm microchip laser in conjugation with 200 nm gold nanoparticles at a concentration of 0.5 μg/cmï 2 is used. In addition to antisense molecules, the uptake of dextrans of several sizes is analyzed.

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KW - Gold nanoparticle

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KW - Laser transfection

KW - Minimal invasive

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