Biomedical Engineering Reference
In-Depth Information
Kimmel, CB, Ballard, WW, Kimmel, SR, Ullmann, B, and Schilling, TF 1995, Stages of embryonic devel-
opment of the zebrafish,
Dev. Dyn.
, 203(3), 253-310.
Konig, K 2008, Clinical multiphoton tomography,
J. Biophoton.
, 1(1), 13-23.
Konig, K, So, PTC, Mantulin, WW, and Gratton, E 1997, Cellular response to near-infrared femtosecond
laser pulses in two-photon microscopes,
Opt. Lett.
, 22(2), 135-136.
Kung, CT, Chuang, CC, Huang, YK, Tsai, HJ, and Sun, CK 2007,
In vivo
continuous observation of verte-
brate cardiac valve for congenital heart disease study and drug screening using third harmonic gen-
eration microscopy,
Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science
Conference/Conference on Photonic Applications
, Baltimore, MD, paper CTuP4.
Langley, RGB, Fitzpatric, TB, and Sober, A 1998,
Clinical Characteristics. In: Cutaneous Melanoma
, Quality
Medical Publishing, St Louis.
Lee, JH, Chen, SY, Chu, SW, Wang, LF, Sun, CK, and Chiang, BL 2009, Noninvasive
in vitro
and
in vivo
assessment of epidermal hyperkeratosis and dermal fibrosis in atopic dermatitis,
J. Biomed. Opt.
,
14(1), 014008.
Li, Z, Joseph, NM, and Easter, SSJR 2000, The morphogenesis of the zebrafish eye, including a fate map of
the optic vesicle,
Dev. Dyn.
, 218(1), 175-188.
Liu, TM, Kartner, FX, Fujimoto, JG, and Sun, CK 2005, Multiplying the repetition rate of passive mode-
locked femtosecond lasers by an intracavity flat surface with low reflectivity,
Opt. Lett.
, 30(4), 439-441.
Makino, E, Uchida, T, Matsushita, Y, Inaoki, M, and Fujimoto, W 2007, Melanocytic nevi clinically simu-
lating melanoma,
J. Dermatol.
, 34(1), 52-55.
Matts, PJ, Dykes, PJ, and Marks, R 2007, The distribution of melanin in skin determined
in vivo
,
Brit. J.
Dermatol.
, 156, 620-628.
Maurice, DM 1984,
he Eye,
Third Edition, Academic Press, London, UK.
McCally, RL and Farrell, RA 1990,
Noninvasive Diagnostic Techniques in Ophthalmology
, Springer-Verlag,
New York.
Millard, AC, Wiseman, PW, Fittinghoff, DN, Wilson, KR, Squire, JA, and Muller, M 1999, Third-harmonic
generation microscopy by use of a compact, femtosecond fiber laser source,
Appl. Opt.
, 38(36),
7393-7397.
Mohler, W, Millard, AC, and Campagnola, PJ 2003, Second harmonics generation imaging of endogenous
structural proteins,
Methods
, 29(1), 97-109.
Moreaux, L, Sandre, O, Blanchard-Desce, M, and Mertz, J 2000a, Membrane imaging by simultaneous
second-harmonic and two-photon microscopy,
Opt. Lett.
, 25(5), 320-322.
Moreaux, L, Sandre, O, and Mertz, J 2000b, Membrane imaging by second-harmonic generation micros-
copy,
J. Opt. Soc. Am. B
, 17(10), 1685-1694.
Muller, M, Squier, J, Wilson, KR, and Brakenhoff, GJ 1998, 3D-microscopy of transparent objects using
third-harmonic generation,
J. Microsc
, 191(3), 266-274.
Noguchi, H and Gompper, G 2005, Shape transitions of fluid vesicles and red blood cells in capillary flows,
Proc. Natl. Acad. Sci. USA
, 102(40), 14159-14164.
Nucciotti, V, Stringari, C, Sacconi, L, Vanzi, F, Fusi, L, Linari, M, Piazzesi, G, Lombardi, V, and Pavone, FS
2010, Probing myosin structural conformation
in vivo
by second-harmonic generation microscopy,
Proc. Natl. Acad. Sci. USA
, 107(17), 7763-7768.
Okun, MR 1997, Silhouette symmetry—An unsupportable histologic criterion for distinguishing Spitz
nevi and compound nevi from malignant melanoma,
Arc. Pathol. Lab. Med.
, 121(1), 48-53.
Peleg, G, Lewis, A, Linial, M, and Loew, LM 1999, Non-linear optical measurement of membrane
potential around single molecules at selected cellular sites,
Proc. Natl. Acad. Sci. USA
, 96(12),
6700-6704.
Plotnikov, SV, Millard, AC, Campagnola, PJ, and Mohler, WA 2006, Characterization of the myosin-based
source for second-harmonic generation from muscle sarcomeres,
Biophys. J.
, 90(2), 693-703.
Ramaesh, K, Ramaesh, T, West, JD, and Dhillon, B 2004, Immunolocalisation of leukaemia inhibitory
factor in the cornea,
Eye
, 18(10), 1006-1009.
