Biophotonics_Concepts_to_Applications

(Dana P.) #1

  1. A. Ricciardi, M. Consales, G. Quero, A. Crescitelli, E. Esposito, A. Cusano, Lab-on-fiber
    devices as an all around platform for sensing. Opt. Fiber Technol., 19(6), 772–784 (2013)

  2. M. Consales, M. Pisco, A. Cusano, Review: lab-on-fiber technology: a new avenue for optical
    nanosensors. Photonic Sensors 2 (4), 289–314 (2012)

  3. J. Albert, A lab onfiber. IEEE Spectr. 51 ,48–53 (2014)

  4. R.S. Pillai, D. Lorenser, D.D. Sampson, Deep-tissue access with confocalfluorescence
    microendoscopy through hypodermic needles. Opt. Express 19 (8), 7213–7221 (2011)

  5. X. Yang, D. Lorenser, R.A. McLaughlin, R.W. Kirk, M. Edmond, M.C. Simpson, M.D.
    Grounds, D.D. Sampson, Imaging deep skeletal muscle structure using a high-sensitivity
    ultrathin side-viewing optical coherence tomography needle probe. Biomed. Opt. Express 5
    (1), 136–148 (2014)

  6. W.C. Kuo, J. Kim, N.D. Shemonski, E.J. Chaney, D.R. Spillman Jr., S.A. Boppart, Real-time
    three-dimensional optical coherence tomography image-guided core-needle biopsy system.
    Biomed. Opt. Express 3 (6), 1149–1161 (2012)

  7. C. Song, D.Y. Park, P.L. Gehlbach, S.J. Park, J.U. Kang, Fiber-optic OCT sensor guided
    SMART micro-forceps for microsurgery. Biomed. Opt. Express, 4(7), 1045–1050 (2013)

  8. M.R. Monroe, G.G. Daaboul, A. Tuysuzoglu, C.A. Lopez, F.F. Little, M.S.Ünlü, Single
    nanoparticle detection for multiplexed protein diagnosis with attomolar sensitivity in serum
    and unprocessed whole blood. Anal. Chem. 85 , 3698–3706 (2013)

  9. M.S.Ünlü, Digital detection of nanoparticles: viral diagnostics and multiplexed protein and
    nucleic acid assays. MRS Proc, 1720 article mrsf14-1720-d01-01 (2015)

  10. D. Sevenler, N.D.Ünlü, M.S.Ünlü, Nanoparticle biosensing with interferometric reflectance
    imaging, ed. by M.C. Vestergaard, K. Kerman, I.M. Hsing, and E. Tamiya,Nanobiosensors
    and Nanobioanalyses, (Springer, 2015) 81– 95

  11. F. Zhang, V. Gradinaru, A.R. Adamantidis, R. Durand, R.D. Airan, L. de Lecea, K.
    Deisseroth, Optogenetic interrogation of neural circuits: technology for probing mammalian
    brain structures. Nat. Protocols 5 (3), 439–456 (2010)

  12. E. Ferenczi, K. Deisseroth, Illuminating next-generation brain therapies. Nat. Neurosci. 19 ,
    414 – 416 (2016)

  13. T.N. Lerner, L. Ye, K. Deisseroth, Communication in neural circuits: Tools, opportunities, and
    challenges. Cell 164 , 1136–1165 (2016)

  14. M. Hashimoto, A. Hata, T. Miyata, H. Hirase, Programmable wireless light-emitting diode
    stimulator for chronic stimulation of optogenetic molecules in freely moving mice.
    Neurophotonics, 1(1), article 011002 (2014)

  15. J.M. Cayce, J.D. Wells, J.D. Malphrus, C. Kao, S. Thomsen, N.B. Tulipan, P.E. Konrad, E.D.
    Jansen, A. Mahadevan-Jansen, Infrared neural stimulation of human spinal nerve roots in vivo.
    Neurophotonics, 2(1), article 015007 (2015)

  16. C.M. Aasted, M.A. Yücel, R.J. Cooper, J. Dubb, D. Tsuzuki, L. Becerra, M.P. Petkov, D.
    Borsook, I. Dan, D.A. Boas, Anatomical guidance for functional near-infrared spectroscopy:
    atlasViewer tutorial. Neurophotonics, 2(2), 020801 (2015)


References 337

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