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Expert Opinion on Drug Discovery Volume 4, 2009 - Issue 8
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Applications of fiber-optics-based nanosensors to drug discovery

Tuan Vo-Dinh Duke University, Fitzpatrick Institute for Photonics, 305 Teer Building, Box 90271, Durham, NC 27708, USA +1 919 660 8520; +1 919 613 9145; [email protected]; Duke University, Department of Biomedical Engineering, 136 Hudson Hall, Box 90281, Durham, NC 27708, USA; Duke University, Department of Chemistry, 124 Science Drive, Box 90354, Durham, NC 27708, USA
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Jonathan Scaffidi Duke University, Fitzpatrick Institute for Photonics, 305 Teer Building, Box 90271, Durham, NC 27708, USA +1 919 660 8520; +1 919 613 9145; [email protected]; Duke University, Department of Biomedical Engineering, 136 Hudson Hall, Box 90281, Durham, NC 27708, USA
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Molly Gregas Duke University, Fitzpatrick Institute for Photonics, 305 Teer Building, Box 90271, Durham, NC 27708, USA +1 919 660 8520; +1 919 613 9145; [email protected]; Duke University, Department of Biomedical Engineering, 136 Hudson Hall, Box 90281, Durham, NC 27708, USA
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Yan Zhang Duke University, Fitzpatrick Institute for Photonics, 305 Teer Building, Box 90271, Durham, NC 27708, USA +1 919 660 8520; +1 919 613 9145; [email protected]; Duke University, Department of Biomedical Engineering, 136 Hudson Hall, Box 90281, Durham, NC 27708, USA
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Victoria Seewaldt Duke University, Fitzpatrick Institute for Photonics, 305 Teer Building, Box 90271, Durham, NC 27708, USA +1 919 660 8520; +1 919 613 9145; [email protected]; Duke School of Medicine, Division of Medical Oncology, DUMC 2628 Room 221A MSRB, Durham, NC 27710, USA
Pages 889-900 | Published online: 22 Jul 2009
 
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Abstract

Background: Fiber-optic nanosensors are fabricated by heating and pulling optical fibers to yield sub-micron diameter tips and have been used for in vitro analysis of individual living mammalian cells. Immobilization of bioreceptors (e.g., antibodies, peptides, DNA) selective to targeting analyte molecules of interest provides molecular specificity. Excitation light can be launched into the fiber, and the resulting evanescent field at the tip of the nanofiber can be used to excite target molecules bound to the bioreceptor molecules. The fluorescence or surface-enhanced Raman scattering produced by the analyte molecules is detected using an ultra-sensitive photodetector. Objective: This article provides an overview of the development and application of fiber-optic nanosensors for drug discovery. Conclusions: The nanosensors provide minimally invasive tools to probe subcellular compartments inside single living cells for health effect studies (e.g., detection of benzopyrene adducts) and medical applications (e.g., monitoring of apoptosis in cells treated with anticancer drugs).

Acknowledgments

The authors thank GD Griffin, JP Alarie, BM Cullum and P Kasili.

Notes

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