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Selected Publications for Laboratory of Optical Therapeutics and Medical Nanophotonics

Recent 4 years, in the alphabetical order of the first author’s last name.
  1. J. Anders, I. Ilev, R. Waynant and K. Byrnes, “Method for regeneration and functional recovery after spinal cord injury using phototherapy”, Patent No. 7,695,504, March 18, 2008)
  2. J. Anders, T. Romanczyk, I. Ilev, H. Moges, L. Longo, X. Wu and R. Waynant, “Light supports neurite outgrowth of human neural progenitor cells in-vitro: The role of P2Y receptors”, IEEE Journal of Selected Topics of Quantum Electronics, v. 14, pp. 118-125, 2008 (IEEE).
  3. J.H. Han, I. K. Ilev, D. H. Kim, C. G. Song, and J. U. Kang, “Investigation of gold-coated bare fiber probe for in situ intra-vitreous coherence domain optical imaging and sensing”, Applied Physics B: Lasers and Optics, v. 99 (4), pp. 741-746, 2010 (Springer).
  4. K. Hoffer, D. Calogero, R. Faaland and I. Ilev, “Precise testing of the dioptric power accuracy of exact-power-labeled intraocular lenses”, Journal of Cataract and Refractive Surgery, v. 35, pp. 1995-1999, 2009 (American Society of Cataract and refractive surgery).
  5. I. Ilev, “Confocal Fiber-Optic Laser Device and Method for Intraocular Lens Power Measurement”, Patent No. 7,719,668; May 18, 2010.
  6. I. Ilev, “A simple confocal fiber-optic laser method for intraocular lens power measurement”, EYE, v. 21, pp. 818-823, 2007 (Nature Publishing Group).
  7. I. Ilev and I. Gannot, “Fiber Optic Biosensors”, Encyclopedia on Biomaterials and Biomedical Engineering, v. 2, pp. 1062-1072, 2008 (Informa Healthcare, New York, 2008).
  8. I. Ilev, R. Faaland, D. Kim, R. James and D. Calogero, “Innovative confocal laser method for exact dioptic power measurement of intraocular lens implants”, Chinese Optics Letters, v. 6 (12), pp. 876-878, 2008 (Optical Society of America).
  9. I. Ilev, R. Robinson, R. Waynant, “Particle image velocimetry system having an improved hollow-waveguide-based laser illumination system”, U.S. Patent No. 11/589,310, June 24, 2010.
  10. I. Ilev, L. Wang, S. Boppart, S. Andersson-Engels and B-M Kim, “Introduction to the IEEE JSTQE Special Issue on Biophotonics – Part 1”, IEEE Journal of Selected Topics of Quantum Electronics, v. 16 (3), pp. 475-477, 2010 (IEEE).
  11. I. Ilev, R. Waynant, I. Gannot and A. Gandjbakhche, “Simple fiber-optic confocal microscopy with nanoscale depth resolution beyond the diffraction barrier“, Review of Scientific Instruments, v. 78, p. 093703, 2007 (American Institute of Physics).
  12. I. Ilev, B. Wilson, V. Backman and S. Andersson-Engels, “Introduction to the IEEE JSTQE Special Issue on Biophotonics – Part 2”, IEEE Journal of Selected Topics of Quantum Electronics, v. 14, pp. 1-3, 2008 (IEEE).
  13. E. J. Katz, I. K. Ilev, V. Krauthamer, D. H. Kim, and D. Weinreich, “Excitation of primary afferent neurons by near-infrared light in vitro,“ NeuroReport, 21(9), pp. 662-666, 2010 (Lippincott Williams & Wilkins).
  14. E. Katz, D. H. Kim, V. Krauthamer, and I. Ilev, “Effects of optical irradiation parameters on safe peripheral nerve stimulation with infrared light,” Proc SPIE, v. 7180, pp. 71800P-71800P-8, 2009 (SPIE).
  15. D. Kim, I. Ilev and J. Kang, “Fiberoptic confocal microscopy using a 1.55 µm fiber laser for multimodal biophotonics applications”, IEEE Journal of Selected Topics of Quantum Electronics, v. 14, pp. 82-87, 2008 (IEEE).
  16. D. Kim, J. Kang and I. Ilev, “Upconversion fiber-optic confocal microscopy under near-infrared pumping”, Optics Letters, v. 33, pp. 425-427, 2008 (Optical Society of America).
  17. D. Kim, J. Kang and I. Ilev, “Advanced confocal microscope using simple hollow-core photonic bandgap fiber design”, Electronics Letters, v. 43, pp. 608-609, 2007 (Institution of Engineering and Technology).
  18. R. Landry, I. Ilev, J. Pfefer, M. Wolffe, and J. Alpar, “Characterizing reflections from intraocular lens implants”, EYE, v. 21, pp. 1083-1086, 2007 (Nature Publishing Group).
  19. X. Liu, X. Li, D. Kim, I. Ilev and J. Kang, “Fiber-optic Fourier-domain common-path OCT”, Chinese Optics Letters, v.6 (12), pp. 899-901 2008 (Optical Society of America).
  20. G. Pal, A. Dutta, K. Mitra, M. Grace, A. Amat, T. Romanczyk, X. Wu, K. Chakrabarti, J. Anders, E. Gorman, R. Waynant, and D. Tata, “Effect of low intensity laser interaction with human skin fibroblast cells using fiber-optic nano-probes”, Journal of Photochemistry and Photobiology B, v. 86, pp. 252-261, 2007 (Elsevier).
  21. X. Tan, M. Mizuuchi, and K. Mizuuchi, “DNA transposition target immunity and the determinants of the MuB distribution patterns on DNA,” PNAS, 104, 13925 (2007) (National Academy of Sciences).
  22. D. Tata and R. Waynant, “Analysis of Biomodulative Effects of Low Intensity Laser on Human Skin Fibroblast Cells using Fiber-Optic Nano-Probes”, Proc. SPIE, v. 6428, pp. D1-10, 2007 (SPIE).
  23. D. Tata and R. Waynant, “Near-IR induced supression of metabolic activity in aggressive cancers”, Proc. SPIE, v. 6428, pp. E1-12, 2007 (SPIE).
  24. K. Zhang, E. Katz, D-H Kim, J. Kang and I. Ilev, “Common-path optical coherence tomography guided fiber probe for spatially precise optical nerve stimulation”, Electronics Letters, v. 46, pp. 118-120, 2010 (Institution of Engineering and Technology).
  25. K. Zhang, E. Katz, D-H Kim, J. Kang and I. Ilev, “Touching a nerve”, Electronics Letters, v. 46, pp. 103-104, 2010 (Institution of Engineering and Technology).

 

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