3D curve reconstruction by biplane snakes

C. Cañero; P. Radeva; R. Toledo; J. J. Villanueva; J. Mauri

3D curve reconstruction by biplane snakes

C. Cañero, P. Radeva, R. Toledo, J. J. Villanueva, J. Mauri

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

Resum

Stent implantation for coronary disease treatment is a highly important minimally invasive technique that avoids surgery interventions. In order to assure the success of such an intervention, it is very important to determine the real length of the lesion as exactly as possible. Currently, lesion measures are performed directly from the angiography without considering the system projective parameters or, alternatively, from the 3D reconstruction obtained from a correspondence of points defined by the physicians. In this paper, we present a method for 3D vessel reconstruction from biplane images by means of deformable models. In particular, we study the known shortcoming of point-based 3D vessel reconstruction (no intersection of projective beams) and illustrate that using snakes the reconstruction error is minimal. We validate our method by a computer-generated phantom, a real phantom and coronary vessels. © 2000 IEEE.

Idioma original	Anglès
Pàgines (de-a)	563-566
Revista	Proceedings - International Conference on Pattern Recognition
Volum	15
Número	4
Estat de la publicació	Publicada - 1 de des. 2000

Com citar-ho

@article{97c7a906b025420ab088644765b05095,

title = "3D curve reconstruction by biplane snakes",

abstract = "Stent implantation for coronary disease treatment is a highly important minimally invasive technique that avoids surgery interventions. In order to assure the success of such an intervention, it is very important to determine the real length of the lesion as exactly as possible. Currently, lesion measures are performed directly from the angiography without considering the system projective parameters or, alternatively, from the 3D reconstruction obtained from a correspondence of points defined by the physicians. In this paper, we present a method for 3D vessel reconstruction from biplane images by means of deformable models. In particular, we study the known shortcoming of point-based 3D vessel reconstruction (no intersection of projective beams) and illustrate that using snakes the reconstruction error is minimal. We validate our method by a computer-generated phantom, a real phantom and coronary vessels. {\textcopyright} 2000 IEEE.",

author = "C. Ca{\~n}ero and P. Radeva and R. Toledo and Villanueva, {J. J.} and J. Mauri",

year = "2000",

month = dec,

day = "1",

language = "English",

volume = "15",

pages = "563--566",

journal = "Proceedings - International Conference on Pattern Recognition",

issn = "1051-4651",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

number = "4",

}

TY - JOUR

T1 - 3D curve reconstruction by biplane snakes

AU - Cañero, C.

AU - Radeva, P.

AU - Toledo, R.

AU - Villanueva, J. J.

AU - Mauri, J.

PY - 2000/12/1

Y1 - 2000/12/1

N2 - Stent implantation for coronary disease treatment is a highly important minimally invasive technique that avoids surgery interventions. In order to assure the success of such an intervention, it is very important to determine the real length of the lesion as exactly as possible. Currently, lesion measures are performed directly from the angiography without considering the system projective parameters or, alternatively, from the 3D reconstruction obtained from a correspondence of points defined by the physicians. In this paper, we present a method for 3D vessel reconstruction from biplane images by means of deformable models. In particular, we study the known shortcoming of point-based 3D vessel reconstruction (no intersection of projective beams) and illustrate that using snakes the reconstruction error is minimal. We validate our method by a computer-generated phantom, a real phantom and coronary vessels. © 2000 IEEE.

AB - Stent implantation for coronary disease treatment is a highly important minimally invasive technique that avoids surgery interventions. In order to assure the success of such an intervention, it is very important to determine the real length of the lesion as exactly as possible. Currently, lesion measures are performed directly from the angiography without considering the system projective parameters or, alternatively, from the 3D reconstruction obtained from a correspondence of points defined by the physicians. In this paper, we present a method for 3D vessel reconstruction from biplane images by means of deformable models. In particular, we study the known shortcoming of point-based 3D vessel reconstruction (no intersection of projective beams) and illustrate that using snakes the reconstruction error is minimal. We validate our method by a computer-generated phantom, a real phantom and coronary vessels. © 2000 IEEE.

M3 - Article

SN - 1051-4651

VL - 15

SP - 563

EP - 566

JO - Proceedings - International Conference on Pattern Recognition

JF - Proceedings - International Conference on Pattern Recognition

IS - 4

ER -

3D curve reconstruction by biplane snakes

Resum

Fingerprint

Com citar-ho