Page 264 - Optofluidics Fundamentals, Devices, and Applications

P. 264

238 Cha pte r Ni ne

46. R. R. Shannon, The Art and Science of Optical Design, Cambridge University
Press, 1997.
47. W. J. Smith, Modern Optical Engineering, 4th, McGraw-Hill Professional, USA,
2007.
48. M. Laikin, Lens Design, CRC Press, USA, 2007.
49. J. M. Geary, Introduction to Lens Design: With Practical Zemax Examples,
Willmann-Bell, USA, 2002.
50. G. H. Smith, Practical Computer-Aided Lens Design, Willmann-Bell Richmond,
Va, Virginia, 1998.
51. M. F. Land and D. E. Nilsson, Animal Eyes, Oxford University Press, Oxford,
2002.
52. http://www.noscar.org/faq.php.
53. W. Qiao, F. Tsai, S.-H. Cho, and Y.-H. Lo, “Fluidic intraocular lens with a
large accommodation range,” IEEE Photonic Technology Letters, vol. 21(5),
March 1,2009.
54. A. Glasser, “Accommodation: mechanism and measurement,” Ophthalmology
clinics of North America, vol. 19, pp. 1–12, v, 2006.
55. J. F. Doane and R. T. Jackson, “Accommodative intraocular lenses: consider-
ations on use, function and design,” Current Opinion in Ophthalmology, vol. 18,
pp. 318–324, 2007.
56. J. Tabernero, P. Piers, and P. Artal, “Intraocular lens to correct corneal coma,”
Optics Letters, vol. 32, pp. 406–408, 2007.
57. M. Packer, I. H. Fine, R. S. Hoffman, and P. A. Piers, “Improved functional
vision with a modified prolate intraocular lens,” Journal of Cataract and
Refractive Surgery, vol. 30, pp. 986–992, 2004.
58. J. S. Cumming, D. M. Colvard, S. J. Dell, J. Doane, I. H. Fine, R. S. Hoffman,
M. Packer, and S. G. Slade, “Clinical evaluation of the crystalens AT-45 accom-
modating intraocular lens: results of the U.S. Food and Drug Administration
clinical trial,” Journal of Cataract and Refractive Surgery, vol. 32, pp. 812–825,
2006.
59. A. Galand, “Performance of the 1CU accommodating IOL,” Journal of Cataract
and Refractive Surgery, vol. 32, p. 3, author reply 3–4, 2006.
60. M. W. Matthews, H. C. Eggleston, and G. E. Hilmas, “Development of a
repeatedly adjustable intraocular lens,” Journal of Cataract and Refractive
Surgery, vol. 29, pp. 2204–2210, 2003.
61. S. D. McLeod, L. G. Vargas, V. Portney, and A. Ting, “Synchrony dual-optic
accommodating intraocular lens. Part 1: optical and biomechanical principles
and design considerations,” Journal of Cataract and Refractive Surgery, vol. 33,
pp. 37–46, 2007.
62. S. D. McLeod, V. Portney, and A. Ting, “A dual optic accommodating fold-
able intraocular lens,” The British Journal of Ophthalmology, vol. 87, pp. 1083–5,
2003.
63. J. E. Wold, A. Hu, S. Chen, and A. Glasser, “Subjective and objective measure-
ment of human accommodative amplitude,” Journal of Cataract and Refractive
Surgery, vol. 29, pp. 1878–88, 2003.
64. J. Kessler, “Experiments in refilling the lens,” Archives of Ophthalmology,
vol. 71, pp. 412–417, 1964.
65. O. Nishi, K. Nishi, Y. Nishi, and S. Chang, “Capsular bag refilling using
a new accommodating intraocular lens,” Journal of Cataract and Refractive
Surgery, vol. 34, pp. 302–309, 2008.
66. O. Nishi and K. Nishi, “Accommodation amplitude after lens refilling with
injectable silicone by sealing the capsule with a plug in primates,” Archives
of Ophthalmology, vol. 116, pp. 1358–1361, 1998.
67. R. Menapace, O. Findl, K. Kriechbaum, and C. Leydolt-Koeppl,
“Accommodating intraocular lenses: a critical review of present and future
concepts,” Graefe’s Archive for Clinical and Experimental Ophthalmology =
Albrecht von Graefes Archiv fur klinische und experimentelle Ophthalmologie,
vol. 245, pp. 473–489, 2007.

259 260 261 262 263 264 265 266 267 268 269