Biomedical Engineering Reference
In-Depth Information
61. E.A. Jares-Erijman, T.M. Jovin, FRET imaging. Nat. Biotechnol.
21
, 1387-1395 (2003)
62. C.L. Lawson, R.J. Hanson,
Solving Least Square Problems
(Prentice-Hall, Englewood Cliffs,
1974)
63. J.R.
Lakowicz,
Principles
of
Fluorescence
Spectroscopy
.
3rd
edn.
(Plenum
Press,
New York/London, 1986)
64. R. Zhou, E.H. Hammond, D.L. Parker, A multiple wavelength algorithm in color image
analysis and its applications in stain decomposition in microscopy images. Med. Phys.
23
,
1977-1986 (1996)
65. R.L. Ornberg, B.M. Woerner, D.A. Edwards, Analysis of stained objects in histological
sections by spectral
imaging and
differential
absorption.
J.
Histochem. Cytochem.
47
,
1307-1314 (1999)
66. M.V. Macville, J.A. Van Der Laak, E.J. Speel, N. Katzir, Y. Garini, D. Soenksen, G. McNa-
mara, P.C. de Wilde, A.G. Hanselaar, A.H. Hopman, T. Ried, Spectral imaging of multi-color
chromogenic dyes in pathological specimens. Anal. Cell. Pathol.
22
, 133-142 (2001)
67. I.T. Jolliffe,
Principle Component Analysis
, 2nd edn. Springer series in statistics (Springer,
New York, 2002)
68. E. Schrock, S. du Manoir, T. Veldman, B. Schoell, J. Wienberg, M.A. Ferguson-Smith, Y. Ning,
D.H. Ledbetter, I. Bar-Am, D. Soenksen, Y. Garini, T. Ried, Multicolor spectral karyotyping
of human chromosomes. Science
273
, 494-497 (1996)
69. E. Schrock, H. Padilla-Nash, Spectral karyotyping and multicolor fluorescence in situ
hybridization reveal new tumor-specific chromosomal aberrations. Seminal Hematol.
37
,
334-347 (2000)
70. M.R. Speicher, S. Gwyn Ballard, D.C. Ward, Karyotyping human chromosomes by combina-
torial multi-fluor FISH. Nat. Genet.
12
, 368-375 (1996)
71. H.J. Tanke, J. Wiegant, R.P. van Gijlswijk, V. Bezrookove, H. Pattenier, R. J. Heetebrij,
E.G. Talman, A.K. Raap, J. Vrolijk, New strategy for multi-color fluorescence in situ
hybridisation: COBRA: Combined Binary RAtio labeling. Eur. J. Hum. Genet.
7
, 2-11 (1999)
72. H. Tsurui, H. Nishimura, S. Hattori, S. Hirose, K. Okumura, T. Shirai, Seven-color fluorescence
imaging of tissue samples based on Fourier spectroscopy and singular value decomposition.
J. Histochem. Cytochem.
48
, 653-662 (2000)
73. C. Pautke, S. Vogt, T. Tischer, G. Wexel, H. Deppe, S. Milz, M. Schieker, A. Kolk, Polychrome
labeling of bone with seven different fluorochromes: Enhancing fluorochrome discrimination
by spectral image analysis. Bone
37
, 441-445 (2005)
74. R.C. Ecker, R.D. Martin, G.E. Steiner, J.A. Schmid, Application of spectral imaging
microscopy in cytomics and fluorescence resonance energy transfer (FRET) analysis. Cytom-
etry
59A
, 172-181 (2004)
75. A. Mittag, D. Lenz, A.O.H. Gerstner, U. Sack, M. Steinbrecher, M. Koksch, A. Raffael,
J. Bocsi, A. Tarnok, Polychromatic (eight-color) slide-based cytometry for the phenotyping
of leukocyte NK and NKT subsets. Cytometry
65A
, 103-115 (2005)
76. R. Levenson, J.R. Mansfield, Multispectral imaging in biology and medicine: slices of life.
Cytometry
69A
, 748-758 (2006)
77. M. Elias, P. Cotte, Multispectral camera and radiative transfer equation used to depict
Leonardo's sfumato in Mona Lisa. Appl. Opt.
47
, 2146-2154 (2008)
Search WWH ::
Custom Search