Image Processing Reference
In-Depth Information
142.
Shi, P., Sinusas, A., Constable, R., Ritman, E., and Duncan, J. (2000). Point-
tracked quantitative analysis of left ventricular surface motion from 3-D image
sequences: algorithms and validation.
IEEE Trans. Med. Imaging,
19(1):
36-50.
143.
Duncan, J., Shi, P., Constable, T., and Sinusas, A. (1998). Physical and geometrical
modeling for image-based recovery of left ventricular deformation.
Prog. Biophys.
Mol. Biol
. 69(1-2): 333-351.
144.
Montagnat, J., Delingette, H., and Malandain, G. (1999). Cylindrical echocardio-
graphic image segmentation based on 3-D deformable models. in
MICCAI,
Lecture
Notes Comp. Science,
168-175.
145.
Biedenstein, S., Schäfers, M., Stegger, L., Kuwert, T., and Schober, O. (1999).
Three-dimensional contour detection of left ventricular myocardium using elastic
surfaces.
Eur. J. Nucl. Med
. 26(3): 201-207.
146.
Gerard, O., Billon, A., Rouet, J., Jacob, M., Fradkin, M., and Allouche, C. (2002).
Efficient model-based quantification of left ventricular function in 3-D echocar-
diography.
IEEE Trans. Med. Imaging
. 21(9): 1059-1068.
147.
Song, M., Haralick, R., Sheehan, F., and Johnson, R. (2002). Integrated surface
model optimization for freehand three-dimensional echocardiography.
IEEE
Trans. Med. Imaging
. 21(9): 1077-1090.
148.
Makela, T., Pham, Q., Clarysse, P., Nenonen, J., Lotjonen, J., Sipila, O., Hanninen,
H., Lauerma, K., Knuuti, J., Katila, T., and Magnin, I. (2003). A 3-D model-based
registration approach for the PET, MR and MCG cardiac data fusion.
Med. Image
Anal
. 7(3): 377-389.
149.
Lötjönen, J., Reissman, P.J., Magnin, I., and Katila, T. (1999). Model extraction
from magnetic resonance volume data using a deformable pyramid.
Med. Image
Anal
. 3(4): 387-406.
150.
Fan, L., Tamez-Pena, J., and Chen, C. (2003). Local force model for cardiac
dynamics analysis from volumetric image sequences.
Comput. Med. Image and
Graph
. 27(6): 437-446.
151.
Lorenzo-Valdes, M., Sanchez-Ortiz, G., Elkington, A., Mohiaddin, R., and Rueck-
ert, D. (2004). Segmentation of 4-D cardiac MR images using a probabilistic atlas
and the EM algorithm.
Med. Image Anal
. 8(3): 255-265.
152.
van Assen, H., Danilouchkine, M., Behloul, F., Lamb, H., van der Geest, R., Reiber
J., and Lelieveldt, B. (2003). Cardiac LV segmentation using a 3-D active shape
model driven by fuzzy inference. in
MICCAI
, Vol. 2878 of
Lecture Notes in
Computer Science,
535-540.
153.
van Assen, H., Danilouchkine, M., Dirksen, M., Lamb, H., van der Geest, R.,
Reiber, J., and Lelieveldt, B. (2004). A 3D-active shape model driven by fuzzy
inference: application to cardiac CT and MR.
154.
Kaus, M., von Berg, J., Weese, J., Niessen, W., and Pekar, V. (2004). Automated
segmentation of the left ventricle in cardiac MRI.
Med. Image Anal
. in press.
155.
Wierzbicki, M., Drangova, M., Guiraudon, G., and Peters, T. (2004). Validation
of dynamic heart models obtained using non-linear registration for virtual reality
training, planning, and guidance of minimally invasive cardiac surgeries.
Med.
Image Anal
. 8(3): 245-254.
156.
Yezzi, A., Tannenbaum, A., Kichenassamy, S., and Olver, P. (1996). A gradient
surface approach to 3-D segmentation. in
Proc IS&T 49th Ann. Conf
. Minneapolis,
USA.
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