-
P Chauvel,
W Sauerwein,
N Bornfeld,
W Friedrichs,
N Brassart,
A Courdi,
J Herault,
J P Pignol,
P Y Bondiau,
and G Malandain.
Clinical and technical requirements for proton treatment planning of ocular diseases. The SERAG (South Europe Radiotherapy Group).
Front Radiat Ther Oncol,
30:133-42,
1997.
Keyword(s): Comparative Study,
Conjunctival Neoplasms,
diagnosis,
Dose-Response Relationship Radiation,
Follow-Up Studies,
Fundus Oculi,
Human,
Image Processing Computer-Assisted,
Magnetic Resonance Imaging,
Melanoma,
diagnosis,
Neoplasm Recurrence Local,
diagnosis,
Predictive Value of Tests,
Protons,
therapeutic use,
Radiotherapy Planning Computer-Assisted,
methods,
Retrospective Studies,
Tomography X-Ray Computed,
Treatment Outcome,
Uveal Neoplasms,
diagnosis.
@article{chauvel:frto:1997,
author = {P Chauvel and W Sauerwein and N Bornfeld and W Friedrichs and N Brassart and A Courdi and J Herault and J P Pignol and P Y Bondiau and G Malandain},
journal = {Front Radiat Ther Oncol},
keywords = {Comparative Study, Conjunctival Neoplasms, diagnosis, Dose-Response Relationship Radiation, Follow-Up Studies, Fundus Oculi, Human, Image Processing Computer-Assisted, Magnetic Resonance Imaging, Melanoma, diagnosis, Neoplasm Recurrence Local, diagnosis, Predictive Value of Tests, Protons, therapeutic use, Radiotherapy Planning Computer-Assisted, methods, Retrospective Studies, Tomography X-Ray Computed, Treatment Outcome, Uveal Neoplasms, diagnosis},
pages = {133-42},
title = {Clinical and technical requirements for proton treatment planning of ocular diseases. The SERAG (South Europe Radiotherapy Group)},
volume = {30},
year = {1997}
}
-
S. Cotin,
H. Delingette,
N. Ayache,
J.M. Clement,
J. Marescaux,
and M. Nord.
Simulation Active de Chirurgie Endoscopique.
Revue Européenne de Technologie Biomédicale (RBM),
19(5):167-172,
1997.
Keyword(s): journal,
simulation.
@article{cotin_rbm,
author = {S. Cotin and H. Delingette and N. Ayache and J.M. Clement and J. Marescaux and M. Nord},
journal = {Revue Europ\'eenne de Technologie Biom\'edicale (RBM)},
keywords = {journal, simulation},
number = {5},
pages = {167--172},
title = {Simulation Active de Chirurgie Endoscopique},
volume = {19},
year = {1997}
}
-
J. Declerck,
J. Feldmar,
M.L. Goris,
and F. Betting.
Automatic registration and alignment on a template of cardiac stress & rest SPECT reoriented images.
IEEE Transactions on Medical Imaging,
16(6):727-737,
1997.
Keyword(s): registration,
matching,
deformations.
@article{declerck:tmi:97,
author = {J. Declerck and J. Feldmar and M.L. Goris and F. Betting},
journal = {IEEE Transactions on Medical Imaging},
keywords = {registration, matching, deformations},
number = {6},
pages = {727--737},
title = {Automatic registration and alignment on a template of cardiac stress {\&} rest SPECT reoriented images},
volume = {16},
year = {1997}
}
-
H. Delingette.
Réalité virtuelle et médecine.
Revue de la société des électriciens et des électroniciens (REE),
8:43-45,
September 1997.
Keyword(s): journal,
simulation.
@article{ree97,
author = {H. Delingette},
journal = {Revue de la soci\'et\'e des \'electriciens et des \'electroniciens (REE)},
keywords = {journal, simulation},
month = {September},
pages = {43--45},
title = {R\'ealit\'e virtuelle et m\'edecine},
url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/ree.pdf},
volume = {8},
year = {1997}
}
-
J. Feldmar,
N. Ayache,
and F. Betting.
3D-2D projective registration of free-form curves and surfaces.
Journal of Computer Vision and Image Understanding,
65(3):403-424,
1997.
@article{Feldmar4,
author = {J. Feldmar and N. Ayache and F. Betting},
journal = {Journal of Computer Vision and Image Understanding},
number = {3},
pages = {403-424},
title = {3D-2D projective registration of free-form curves and surfaces},
url = {https://www-sop.inria.fr/asclepios/Publications/Nicholas.Ayache/FeldmarCVIU1997.pdf},
volume = {65},
year = {1997}
}
-
J. Feldmar,
J. Declerck,
G. Malandain,
and N. Ayache.
Extension of the ICP Algorithm to Non-Rigid Intensity-Based Registration of 3D Volumes.
Computer Vision and Image Understanding,
66(2):193-206,
May 1997.
Keyword(s): registration,
matching,
deformations.
@article{feldmar-al97,
author = {J. Feldmar and J. Declerck and G. Malandain and N. Ayache},
journal = {Computer Vision and Image Understanding},
keywords = {registration, matching, deformations},
month = {May},
number = {2},
pages = {193--206},
title = {Extension of the {ICP} Algorithm to Non-Rigid Intensity-Based Registration of 3D Volumes},
url = {https://www-sop.inria.fr/asclepios/Publications/Misc/CVIU-97-1.pdf},
volume = {66},
year = {1997}
}
-
Alexandre Guimond,
Gérard Subsol,
and Jean-Philippe Thirion.
Automatic MRI Database Exploration and Applications.
International Journal of Pattern Recognition and Artificial Intelligence,
11(8):1345-1366,
December 1997.
@article{guimond97.3,
author = {Alexandre Guimond and G\'erard Subsol and Jean-Philippe Thirion},
journal = {International Journal of Pattern Recognition and Artificial Intelligence},
month = {December},
number = {8},
pages = {1345--1366},
title = {Automatic MRI Database Exploration and Applications},
url = {http://www.lirmm.fr/~subsol/IJPRAI.1297.pdf},
volume = {11},
year = {1997}
}
-
André Guéziec,
Xavier Pennec,
and Nicholas Ayache.
Medical Image Registration using Geometric Hashing.
IEEE Computational Science and Engineering,
4(4):29-41,
Oct-Dec 1997.
Note: Special issue on Geometric Hashing.
Keyword(s): registration,
matching.
@article{GueziecPennecAyache:CSE:97,
author = {Andr\'e Gu\'eziec and Xavier Pennec and Nicholas Ayache},
doi = {10.1109/99.641607},
journal = {IEEE Computational Science and Engineering},
keywords = {registration, matching},
month = {Oct-Dec},
note = {special issue on Geometric Hashing},
number = {4},
pages = {29--41},
postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Gueziec.Pennec.Ayache.CSE.GH.a4.ps.gz},
title = {Medical Image Registration using Geometric Hashing},
url = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Gueziec.Pennec.Ayache.CSE.GH.pdf},
url-hal = {https://hal.inria.fr/inria-00615068},
url-publisher = {http://computer.org/cse/cs1997/c4toc.htm},
volume = {4},
year = {1997}
}
-
J Marescaux,
J M Clement,
M Nord,
Y Russier,
V Tassetti,
D Mutter,
S Cotin,
and N Ayache.
[A new concept in digestive surgery: the computer assisted surgical procedure, from virtual reality to telemanipulation].
Bull Acad Natl Med,
181(8):1609-21,
November 1997.
Keyword(s): review,
survey,
review,
survey,
Computer Simulation,
Digestive System Surgical Procedures,
English Abstract,
Human,
Telemedicine,
User-Computer Interface.
Abstract:
Surgical simulation increasingly appears to be an essential aspect of tomorrow's surgery. The development of a hepatic surgery simulator is an advanced concept calling for a new writing system which will transform the medical world: virtual reality. Virtual reality extends the perception of our five senses by representing more than the real state of things by the means of computer sciences and robotics. It consists of three concepts: immersion, navigation and interaction. Three reasons have led us to develop this simulator: the first is to provide the surgeon with a comprehensive visualisation of the organ. The second reason is to allow for planning and surgical simulation that could be compared with the detailed flight-plan for a commercial jet pilot. The third lies in the fact that virtual reality is an integrated part of the concept of computer assisted surgical procedure. The project consists of a sophisticated simulator which has to include five requirements: visual fidelity, interactivity, physical properties, physiological properties, sensory input and output. In this report we will describe how to get a realistic 3D model of the liver from bi-dimensional 2D medical images for anatomical and surgical training. The introduction of a tumor and the consequent planning and virtual resection is also described, as are force feedback and real-time interaction. |
@article{marescaux:banm:1997,
abstract = {Surgical simulation increasingly appears to be an essential aspect of tomorrow's surgery. The development of a hepatic surgery simulator is an advanced concept calling for a new writing system which will transform the medical world: virtual reality. Virtual reality extends the perception of our five senses by representing more than the real state of things by the means of computer sciences and robotics. It consists of three concepts: immersion, navigation and interaction. Three reasons have led us to develop this simulator: the first is to provide the surgeon with a comprehensive visualisation of the organ. The second reason is to allow for planning and surgical simulation that could be compared with the detailed flight-plan for a commercial jet pilot. The third lies in the fact that virtual reality is an integrated part of the concept of computer assisted surgical procedure. The project consists of a sophisticated simulator which has to include five requirements: visual fidelity, interactivity, physical properties, physiological properties, sensory input and output. In this report we will describe how to get a realistic 3D model of the liver from bi-dimensional 2D medical images for anatomical and surgical training. The introduction of a tumor and the consequent planning and virtual resection is also described, as are force feedback and real-time interaction.},
author = {J Marescaux and J M Clement and M Nord and Y Russier and V Tassetti and D Mutter and S Cotin and N Ayache},
journal = {Bull Acad Natl Med},
keywords = {review, survey, review, survey, Computer Simulation, Digestive System Surgical Procedures, English Abstract, Human, Telemedicine, User-Computer Interface},
month = {November},
number = {8},
pages = {1609-21},
title = {[A new concept in digestive surgery: the computer assisted surgical procedure, from virtual reality to telemanipulation]},
volume = {181},
year = {1997}
}
-
Xavier Pennec and Jean-Philippe Thirion.
A Framework for Uncertainty and Validation of 3D Registration Methods based on Points and Frames.
International Journal of Computer Vision,
25(3):203-229,
December 1997.
Keyword(s): registration,
matching,
uncertainty,
statistics,
validation.
@article{Pennec:IJCV:97,
author = {Xavier Pennec and Jean-Philippe Thirion},
doi = {10.1023/A:1007976002485},
journal = {International Journal of Computer Vision},
keywords = {registration, matching, uncertainty, statistics, validation},
month = {December},
number = {3},
pages = {203--229},
postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.IJCV97.ps.gz},
title = {A Framework for Uncertainty and Validation of 3D Registration Methods based on Points and Frames},
url = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.IJCV97.pdf},
url-hal = {https://hal.inria.fr/inria-00615070},
url-publisher = {http://www.springerlink.com/openurl.asp?genre=article&issn=0920-5691&volume=25&issue=3&spage=203},
volume = {25},
year = {1997}
}
-
L Picard,
E Maurincomme,
M Soderman,
J Feldmar,
R Anxionnat,
L Launay,
K Ericson,
G Malandain,
S Bracard,
E Kerrien,
O Flodmark,
and N Ayache.
X-ray angiography in stereotactic conditions: techniques and interest for interventional neuroradiology.
Stereotact Funct Neurosurg,
68(1-4 Pt 1):117-20,
1997.
Keyword(s): Angiography Digital Subtraction,
methods,
Carotid Arteries,
anatomy & histology,
Cerebral Angiography,
methods,
Human,
Image Enhancement,
Magnetic Resonance Angiography,
methods,
Radiology Interventional,
methods,
Stereotaxic Techniques.
Abstract:
This paper reports work in progress on X-ray angiography acquired under stereotactic conditions. The objective is to be able to match multimodality images (typically {MRI} and X-ray) without a stereotactic frame but with stereotactic precision. We have identified potential problems and have studied them in detail. We conclude that, although the overall application is feasible, much work remains to be done on the estimation of the X-ray system conic projection and on automatic matching based on vascular structures. |
@article{picard:sfn:1997,
abstract = {This paper reports work in progress on X-ray angiography acquired under stereotactic conditions. The objective is to be able to match multimodality images (typically {MRI} and X-ray) without a stereotactic frame but with stereotactic precision. We have identified potential problems and have studied them in detail. We conclude that, although the overall application is feasible, much work remains to be done on the estimation of the X-ray system conic projection and on automatic matching based on vascular structures.},
author = {L Picard and E Maurincomme and M Soderman and J Feldmar and R Anxionnat and L Launay and K Ericson and G Malandain and S Bracard and E Kerrien and O Flodmark and N Ayache},
journal = {Stereotact Funct Neurosurg},
keywords = {Angiography Digital Subtraction, methods, Carotid Arteries, anatomy & histology, Cerebral Angiography, methods, Human, Image Enhancement, Magnetic Resonance Angiography, methods, Radiology Interventional, methods, Stereotaxic Techniques},
number = {1-4 Pt 1},
pages = {117-20},
title = {X-ray angiography in stereotactic conditions: techniques and interest for interventional neuroradiology},
volume = {68},
year = {1997}
}
-
G. Quatrehomme,
S. Cotin,
G. Subsol,
H. Delingette,
Y. Garidel,
G. Grévin,
and M. Fidrich.
A Fully Three-Dimensional Method for Facial Reconstruction Based on Deformable Models.
Journal of Forensic Sciences,
42(4):649-652,
July 1997.
Keyword(s): journal,
medical.
@article{Quatrehomme97b,
author = {G. Quatrehomme and S. Cotin and G. Subsol and H. Delingette and Y. Garidel and G. Gr\'evin and M. Fidrich},
journal = {Journal of Forensic Sciences},
keywords = {journal, medical},
month = {July},
number = {4},
pages = {649-652},
title = {A Fully Three-Dimensional Method for Facial Reconstruction Based on Deformable Models},
url = {http://www.lirmm.fr/~subsol/JFS.0797.pdf},
volume = {42},
year = {1997}
}
-
G. Subsol,
N. Roberts,
M. Doran,
and J.-Ph. Thirion.
Automatic Analysis of Cerebral Atrophy.
Magnetic Resonance Imaging,
15(8):917-927,
1997.
@article{Subsol97,
author = {G. Subsol and N. Roberts and M. Doran and J.-Ph. Thirion},
journal = {Magnetic Resonance Imaging},
number = {8},
pages = {917-927},
title = {Automatic Analysis of Cerebral Atrophy},
url = {http://www.lirmm.fr/~subsol/MRI.1297.pdf},
volume = {15},
year = {1997}
}
-
J. West,
J. M. Fitzpatrick,
M. Y. Wang,
B. M. Dawant,
C. R. Maurer, Jr.,
R. M. Kessler,
R. J. Maciunas,
C. Barillot,
D. Lemoine,
A. Collignon,
F. Maes,
P. Suetens,
D. Vandermeulen,
P. A. van den Elsen,
S. Napel,
T. S. Sumanaweera,
B. Harkness,
P. F. Hemler,
D. L. G. Hill,
D. J. Hawkes,
C. Studholme,
J. B. A. Maintz,
M. A. Viergever,
G. Malandain,
X. Pennec,
M. E. Noz,
G. Q. Maguire, Jr.,
M. Pollack,
C. A. Pelizzari,
R. A. Robb,
D. Hanson,
and R. P. Woods.
Comparison and evaluation of retrospective intermodality brain image registration techniques.
Journal of Computer Assisted Tomography,
21(4):554-566,
1997.
Keyword(s): registration,
matching,
multimodal,
validation,
uncertainty.
Abstract:
PURPOSE: The primary objective of this study is to perform a blinded evaluation of a group of retrospective image registration techniques using as a gold standard a prospective, marker-based registration method. To ensure blindedness, all retrospective registrations were performed by participants who had no knowledge of the gold standard results until after their results had been submitted. A secondary goal of the project is to evaluate the importance of correcting geometrical distortion in MR images by comparing the retrospective registration error in the rectified images, i.e., those that have had the distortion correction applied, with that of the same images before rectification. METHOD: Image volumes of three modalities (CT, MR, and PET) were obtained from patients undergoing neurosurgery at Vanderbilt University Medical Center on whom bone-implanted fiducial markers were mounted. These volumes had all traces of the markers removed and were provided via the Internet to project collaborators outside Vanderbilt, who then performed retrospective registrations on the volumes, calculating transformations from CT to MR and/ or from PET to MR. These investigators communicated their transformations again via the Internet to Vanderbilt, where the accuracy of each registration was evaluated. In this evaluation, the accuracy is measured at multiple volumes of interest (VOIs), i.e., areas in the brain that would commonly be areas of neurological interest. A VOI is defined in the MR image and its centroid c is determined. Then, the prospective registration is used to obtain the corresponding point c' in CT or PET. To this point, the retrospective registration is then applied, producing c" in MR. Statistics are gathered on the target registration error (TRE), which is the distance between the original point c and its corresponding point c". RESULTS: This article presents statistics on the TRE calculated for each registration technique in this study and provides a brief description of each technique and an estimate of both preparation and execution time needed to perform the registration. CONCLUSION: Our results indicate that retrospective techniques have the potential to produce satisfactory results much of the time, but that visual inspection is necessary to guard against large errors. |
@article{West.etal:JCAT:97,
abstract = {PURPOSE: The primary objective of this study is to perform a blinded evaluation of a group of retrospective image registration techniques using as a gold standard a prospective, marker-based registration method. To ensure blindedness, all retrospective registrations were performed by participants who had no knowledge of the gold standard results until after their results had been submitted. A secondary goal of the project is to evaluate the importance of correcting geometrical distortion in MR images by comparing the retrospective registration error in the rectified images, i.e., those that have had the distortion correction applied, with that of the same images before rectification. METHOD: Image volumes of three modalities (CT, MR, and PET) were obtained from patients undergoing neurosurgery at Vanderbilt University Medical Center on whom bone-implanted fiducial markers were mounted. These volumes had all traces of the markers removed and were provided via the Internet to project collaborators outside Vanderbilt, who then performed retrospective registrations on the volumes, calculating transformations from CT to MR and/ or from PET to MR. These investigators communicated their transformations again via the Internet to Vanderbilt, where the accuracy of each registration was evaluated. In this evaluation, the accuracy is measured at multiple volumes of interest (VOIs), i.e., areas in the brain that would commonly be areas of neurological interest. A VOI is defined in the MR image and its centroid c is determined. Then, the prospective registration is used to obtain the corresponding point c' in CT or PET. To this point, the retrospective registration is then applied, producing c" in MR. Statistics are gathered on the target registration error (TRE), which is the distance between the original point c and its corresponding point c". RESULTS: This article presents statistics on the TRE calculated for each registration technique in this study and provides a brief description of each technique and an estimate of both preparation and execution time needed to perform the registration. CONCLUSION: Our results indicate that retrospective techniques have the potential to produce satisfactory results much of the time, but that visual inspection is necessary to guard against large errors.},
author = {J. West and J. M. Fitzpatrick and M. Y. Wang and B. M. Dawant and Maurer, Jr., C. R. and R. M. Kessler and R. J. Maciunas and C. Barillot and D. Lemoine and A. Collignon and F. Maes and P. Suetens and D. Vandermeulen and van den Elsen, P. A. and S. Napel and T. S. Sumanaweera and B. Harkness and P. F. Hemler and D. L. G. Hill and D. J. Hawkes and C. Studholme and J. B. A. Maintz and M. A. Viergever and G. Malandain and X. Pennec and M. E. Noz and Maguire, Jr., G. Q. and M. Pollack and C. A. Pelizzari and R. A. Robb and D. Hanson and R. P. Woods},
journal = {Journal of Computer Assisted Tomography},
keywords = {registration, matching, multimodal, validation, uncertainty},
number = {4},
pages = {554--566},
title = {Comparison and evaluation of retrospective intermodality brain image registration techniques},
url = {http://www.jcat.org/pt/re/jcat/abstract.00004728-199707000-00007.htm},
url-hal = {https://hal.inria.fr/inria-00615072},
volume = {21},
year = {1997}
}
-
N. Ayache.
Analysis of 3D Brain Images.
In International Workshop on Neuro-informatics,
Karolinska institute, Suede,
September 1997.
@inproceedings{ayache-brain,
address = {Karolinska institute, Suede},
author = {N. Ayache},
booktitle = {International Workshop on Neuro-informatics},
month = {September},
title = {Analysis of 3D Brain Images},
year = {1997}
}
-
N. Ayache.
Medical Image Analysis and Simulation.
In Proceedings of ASIAN'97,
Lecture Notes in Computer Science,
Katmandou, Népal,
December 1997.
Springer.
@inproceedings{ayache-asian,
address = {Katmandou, N\'epal},
author = {N. Ayache},
booktitle = {Proceedings of ASIAN'97},
month = {December},
publisher = {Springer},
series = {Lecture Notes in Computer Science},
title = {Medical Image Analysis and Simulation},
year = {1997}
}
-
N. Ayache,
S. Cotin,
and H. Delingette.
Surgery simulation with visual and haptic feedback.
In Proceedings of the Eighth International Symposium of Robotics Research,
Hayama, Japan,
October 1997.
Keyword(s): workshop,
simulation.
@inproceedings{Ayache97,
address = {Hayama, Japan},
author = {N. Ayache and S. Cotin and H. Delingette},
booktitle = {Proceedings of the Eighth International Symposium of Robotics Research},
keywords = {workshop, simulation},
month = {October},
title = {Surgery simulation with visual and haptic feedback},
year = {1997}
}
-
P.-Y. Bondiau and G. Malandain.
Eye Reconstruction and CT-Retinography Fusion for Proton Treatment Planning of Ocular Diseases.
In CVRMed-MRCAS'97,
volume 1205 of LNCS,
Grenoble, France,
pages 705-714,
March 1997.
Springer.
@inproceedings{bondiau-al97c,
address = {Grenoble, France},
author = {P.-Y. Bondiau and G. Malandain},
booktitle = {CVRMed-MRCAS'97},
month = {March},
pages = {705--714},
publisher = {Springer},
series = {LNCS},
title = {Eye Reconstruction and CT-Retinography Fusion for Proton Treatment Planning of Ocular Diseases},
volume = {1205},
year = {1997}
}
-
P.-Y. Bondiau,
G. Malandain,
N. Ayache,
C. Zur,
P. Chauvel,
and P. Gastaud.
L'oeil virtuel.
In 103ème Congrès de la société française d'ophtalmologie,
Paris, France,
May 1997.
@inproceedings{bondiau-al97,
address = {Paris, France},
author = {P.-Y. Bondiau and G. Malandain and N. Ayache and C. Zur and P. Chauvel and P. Gastaud},
booktitle = {103\`eme Congr\`es de la soci\'et\'e fran\c{c}aise d'ophtalmologie},
month = {May},
title = {L'oeil virtuel},
year = {1997}
}
-
P.-Y. Bondiau,
G. Malandain,
P. Chauvel,
F. Peyrade,
and J.N. Bruneton.
Automatic eye reconstruction for radiotherapy.
In 1st Joint Annual Conference of the International Society for Computer Aided Surgery,
Berlin, Germany,
June 1997.
@inproceedings{bondiau-al97b,
address = {Berlin, Germany},
author = {P.-Y. Bondiau and G. Malandain and P. Chauvel and F. Peyrade and J.N. Bruneton},
booktitle = {1st Joint Annual Conference of the International Society for Computer Aided Surgery},
month = {June},
title = {Automatic eye reconstruction for radiotherapy},
year = {1997}
}
-
Guillaume Calmon and Jean-Philippe Thirion.
Calcul de variation de volume de lésions dans des images médicales tridimensionnelles.
In Traitement du Signal et des Images (GRETSI'97),
Grenoble,
September 1997.
@inproceedings{CT97,
address = {Grenoble},
author = {Guillaume Calmon and Jean-Philippe Thirion},
booktitle = {Traitement du Signal et des Images (GRETSI'97)},
month = {September},
title = {Calcul de variation de volume de l\'esions dans des images m\'edicales tridimensionnelles},
year = {1997}
}
-
A. C. F. Colchester,
J. Zhao,
N. Dorward,
G. Subsol,
and D. G. T. Thomas.
Comparison of Phantom Target Localisation by Frame-Based Stereotaxy and by the VISLAN System.
In J. Troccaz,
E. Grimson,
and R. Mösges, editors,
CVRMed/MRCAS,
volume 1205 of Lecture Notes in Computer Science,
Grenoble (France),
pages 501-510,
March 1997.
@inproceedings{Colchester97,
address = {Grenoble (France)},
author = {A. C. F. Colchester and J. Zhao and N. Dorward and G. Subsol and D. G. T. Thomas},
booktitle = {CVRMed/MRCAS},
editor = {J. Troccaz and E. Grimson and R. M\"osges},
month = {March},
pages = {501-510},
series = {Lecture Notes in Computer Science},
title = {Comparison of Phantom Target Localisation by Frame-Based Stereotaxy and by the VISLAN System},
volume = {1205},
year = {1997}
}
-
J. Declerck,
J. Feldmar,
and N. Ayache.
Definition of a 4D continuous polar transformation for the tracking and the analysis of LV motion.
In Computer Vision, Virtual Reality and Robotics in Medicine II - Medical Robotics and Computer Assisted Surgery III,
volume 1205 of Lecture Notes in Computer Science,
pages 33-42,
March 1997.
Keyword(s): Matching,
Heart,
SPECT,
Splines,
Atlas.
@inproceedings{Declerck-97.3,
author = {J. Declerck and J. Feldmar and N. Ayache},
booktitle = {Computer Vision, Virtual Reality and Robotics in Medicine II - Medical Robotics and Computer Assisted Surgery III},
keywords = {Matching, Heart, SPECT, Splines, Atlas},
month = {March},
pages = {33-42},
series = {Lecture Notes in Computer Science},
title = {Definition of a 4D continuous polar transformation for the tracking and the analysis of LV motion},
volume = {1205},
year = {1997}
}
-
J. Declerck,
J. Feldmar,
and N. Ayache.
Tracking and analysis of left ventricular motion with 4D planispheric transformations.
In Medical and Biological Engineering and Computing,
volume 35,
pages 685,
September 1997.
Keyword(s): Motion tracking,
Heart,
4D.
@inproceedings{Declerck-97.9,
author = {J. Declerck and J. Feldmar and N. Ayache},
booktitle = {Medical and Biological Engineering and Computing},
keywords = {Motion tracking, Heart, 4D},
month = {September},
pages = {685},
title = {Tracking and analysis of left ventricular motion with 4D planispheric transformations},
volume = {35},
year = {1997}
}
-
H. Delingette.
Decimation of isosurfaces with Deformable Models.
In Computer Vision, Virtual Reality and Robotics in Medicine,
pages 83-92,
March 1997.
Keyword(s): conference,
reconstruction.
@inproceedings{Delingette-CVRMED97,
author = {H. Delingette},
booktitle = {Computer Vision, Virtual Reality and Robotics in Medicine},
keywords = {conference, reconstruction},
month = {March},
pages = {83--92},
title = {Decimation of isosurfaces with Deformable Models},
url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/CVRMED.pdf},
year = {1997}
}
-
H. Delingette,
O. Seguin,
R. Perrocheau,
and P. Ménégazzi.
Accuracy evaluation of 3D reconstruction from CT-scan images for inspection of industrial parts.
In CEPADUES Ed., editor,
Proceedings on the Conference on Quality Control with Artificial Vision (QCAV'97),
Le Creusot, France,
May 1997.
Keyword(s): workshop,
reconstruction.
@inproceedings{qcav97,
address = {Le Creusot, France},
author = {H. Delingette and O. Seguin and R. Perrocheau and P. M\'en\'egazzi},
booktitle = {Proceedings on the Conference on Quality Control with Artificial Vision (QCAV'97)},
editor = {CEPADUES Ed.},
keywords = {workshop, reconstruction},
month = {May},
title = {Accuracy evaluation of 3D reconstruction from CT-scan images for inspection of industrial parts},
url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/qcav.pdf},
year = {1997}
}
-
J. Feldmar,
G. Malandain,
N. Ayache,
S. Fernández-Vidal,
E. Maurincomme,
and Y. Trousset.
Matching 3D MR Angiography Data and 2D X-ray Angiograms.
In CVRMed-MRCAS'97,
volume 1205 of LNCS,
Grenoble, France,
pages 129-138,
March 1997.
Springer.
@inproceedings{feldmar-al97b,
address = {Grenoble, France},
author = {J. Feldmar and G. Malandain and N. Ayache and S. Fern\'andez-Vidal and E. Maurincomme and Y. Trousset},
booktitle = {CVRMed-MRCAS'97},
month = {March},
pages = {129--138},
publisher = {Springer},
series = {LNCS},
title = {Matching 3D MR Angiography Data and 2D X-ray Angiograms},
volume = {1205},
year = {1997}
}
-
Márta Fidrich.
Following feature lines across scale.
In Scale-Space Theory in Computer Vision,
volume 1252 of Lecture Notes in Computer Science,
Utrecht,
pages 140-151,
July 1997.
Springer.
@inproceedings{Fidrich97,
address = {Utrecht},
author = {M\'arta Fidrich},
booktitle = {Scale-Space Theory in Computer Vision},
month = {July},
pages = {140-151},
publisher = {Springer},
series = {Lecture Notes in Computer Science},
title = {Following feature lines across scale},
volume = {1252},
year = {1997}
}
-
Alexandre Guimond,
Gérard Subsol,
Jean Meunier,
and Jean-Philippe Thirion.
Automatic Exploration and Morphometry/Morphology Assessment of Medical Image Databases.
In Medical Imaging,
SPIE Proceedings,
Newport Beach, United-States,
pages 659-670,
April 1997.
@inproceedings{guimond97.1,
address = {Newport Beach, United-States},
author = {Alexandre Guimond and G\'erard Subsol and Jean Meunier and Jean-Philippe Thirion},
booktitle = {Medical Imaging},
month = {April},
pages = {659--670},
series = {SPIE Proceedings},
title = {Automatic Exploration and Morphometry/Morphology Assessment of Medical Image Databases},
year = {1997}
}
-
Alexandre Guimond,
Gérard Subsol,
Jean Meunier,
and Jean-Philippe Thirion.
Extraction of 3D Structures and Ranking According to Morphology.
In World Congress on Medical Physics and Biomedical Engineering,
Nice, France,
September 1997.
@inproceedings{guimond97.2,
address = {Nice, France},
author = {Alexandre Guimond and G\'erard Subsol and Jean Meunier and Jean-Philippe Thirion},
booktitle = {World Congress on Medical Physics and Biomedical Engineering},
month = {September},
title = {Extraction of 3D Structures and Ranking According to Morphology},
year = {1997}
}
-
K. Krissian,
G. Malandain,
and N. Ayache.
Directional Anisotropic Diffusion Applied to Segmentation of Vessels in 3D Images.
In Scale-Space Theory in Computer Vision (Scale-Space'97),
volume 1252 of LNCS,
Utrecht, The Netherlands,
pages 345-348,
July 1997.
Springer.
@inproceedings{kkrissia-al97,
address = {Utrecht, The Netherlands},
author = {K. Krissian and G. Malandain and N. Ayache},
booktitle = {Scale-Space Theory in Computer Vision (Scale-Space'97)},
month = {July},
pages = {345--348},
publisher = {Springer},
series = {LNCS},
title = {Directional Anisotropic Diffusion Applied to Segmentation of Vessels in 3D Images},
volume = {1252},
year = {1997}
}
-
O. Migneco,
M. Benoit,
G. Malandain,
J.-P. Thirion,
Ph. Robert,
N. Ayache,
F. Bussière,
and J. Darcourt.
SPECT memory activation thanks to non-rigid coregistration.
In European Association of Nuclear Medecine Meeting,
Glasgow, Scotland,
August 1997.
@inproceedings{migneco-al97c,
address = {Glasgow, Scotland},
author = {O. Migneco and M. Benoit and G. Malandain and J.-P. Thirion and Ph. Robert and N. Ayache and F. Bussi\`ere and J. Darcourt},
booktitle = {European Association of Nuclear Medecine Meeting},
month = {August},
title = {SPECT memory activation thanks to non-rigid coregistration},
year = {1997}
}
-
O. Migneco,
J. Darcourt,
M. Benoit,
G. Malandain,
J.-P. Thirion,
Ph. Robert,
R. Vidal,
Ph. Desvignes,
J. Benoliel,
N. Ayache,
and F. Bussière.
Activation mnésique en TEMP.
In 36eme Colloque de médecine nucléaire 1997,
Rennes, France,
October 1997.
@inproceedings{migneco-al97b,
address = {Rennes, France},
author = {O. Migneco and J. Darcourt and M. Benoit and G. Malandain and J.-P. Thirion and Ph. Robert and R. Vidal and Ph. Desvignes and J. Benoliel and N. Ayache and F. Bussi\`ere},
booktitle = {36eme Colloque de m\'edecine nucl\'eaire 1997},
month = {October},
title = {Activation mn\'esique en TEMP},
year = {1997}
}
-
O. Migneco,
J.-P. Thirion,
M. Benoit,
G. Malandain,
P. Robert,
N. Ayache,
and J. Darcourt.
SPECT memory activation studies thanks to non-rigid automated 3D image registration.
In CVRMed-MRCAS'97,
volume 1205 of LNCS,
Grenoble, France,
pages 487-490,
March 1997.
Springer.
@inproceedings{migneco-al97,
address = {Grenoble, France},
author = {O. Migneco and J.-P. Thirion and M. Benoit and G. Malandain and P. Robert and N. Ayache and J. Darcourt},
booktitle = {CVRMed-MRCAS'97},
month = {March},
pages = {487--490},
publisher = {Springer},
series = {LNCS},
title = {SPECT memory activation studies thanks to non-rigid automated 3D image registration},
volume = {1205},
year = {1997}
}
-
J. Montagnat and H. Delingette.
A Hybrid Framework for Surface Registration and Deformable Models.
In Computer Vision and Pattern Recognition, CVPR'97,
San Juan, Puerto Rico,
pages 1041-1046,
June 1997.
Keyword(s): conference,
reconstruction.
@inproceedings{Montagnat-CVPR97,
address = {San Juan, Puerto Rico},
author = {J. Montagnat and H. Delingette},
booktitle = {Computer Vision and Pattern Recognition, CVPR'97},
keywords = {conference, reconstruction},
month = {June},
pages = {1041--1046},
title = {A Hybrid Framework for Surface Registration and Deformable Models},
year = {1997}
}
-
J. Montagnat and H. Delingette.
Reconstruction surfacique et segmentation robuste à base de maillages déformables.
In Proceedings of Sixth Orasis conference (ORASIS'97),
La Colle-sur-Loup, France,
1997.
Keyword(s): workshop,
reconstruction.
@inproceedings{montagnat-orasis97,
address = {La Colle-sur-Loup, France},
author = {J. Montagnat and H. Delingette},
booktitle = {Proceedings of Sixth Orasis conference (ORASIS'97)},
keywords = {workshop, reconstruction},
pdf = {https://www-sop.inria.fr/asclepios/Publications/Montagnat/ORASIS97.pdf},
title = {Reconstruction surfacique et segmentation robuste \`a base de maillages d\'eformables},
year = {1997}
}
-
J. Montagnat and H. Delingette.
Volumetric Medical Images Segmentation using Shape Constrained Deformable Models.
In Proceedings of the First Joint Conference CVRMed-MRCAS'97,
volume 1205 of Lecture Notes in Computer Science,
pages 13-22,
March 1997.
Keyword(s): conference,
reconstruction.
@inproceedings{Montagnat-CVRMED97,
author = {J. Montagnat and H. Delingette},
booktitle = {Proceedings of the First Joint Conference CVRMed-MRCAS'97},
keywords = {conference, reconstruction},
month = {March},
pages = {13--22},
series = {Lecture Notes in Computer Science},
title = {Volumetric Medical Images Segmentation using Shape Constrained Deformable Models},
volume = {1205},
year = {1997}
}
-
J. Montagnat,
H. Delingette,
N. Ayache,
J.M. Clément,
C. Roy,
Y. Russier,
V. Tassetti,
and J. Marescaux.
Liver Segmentation in Contrast Enhanced Helical CT-Scans.
In Proceedings of World Congress on Medical Physics and Biomedical Engineering,
Nice, France,
1997.
Keyword(s): workshop,
reconstruction.
@inproceedings{montagnat-nice97,
address = {Nice, France},
author = {J. Montagnat and H. Delingette and N. Ayache and J.M. Cl\'ement and C. Roy and Y. Russier and V. Tassetti and J. Marescaux},
booktitle = {Proceedings of World Congress on Medical Physics and Biomedical Engineering},
keywords = {workshop, reconstruction},
title = {Liver Segmentation in Contrast Enhanced Helical CT-Scans},
url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/nice97.montagnat.pdf},
year = {1997}
}
-
Xavier Pennec.
Registration of Uncertain Geometric Features: Estimating the Pose and its Accuracy.
In J. Le Moigne, editor,
Proc of the First Image Registration Workshop, November 20-21 1997, Greenbelt, Maryland, USA,
pages 263-272,
November 1997.
CESDIS.
Keyword(s): registration,
matching,
uncertainty,
validation,
geometry.
@inproceedings{Pennec:IRW:97,
author = {Xavier Pennec},
booktitle = {Proc of the First Image Registration Workshop, November 20-21 1997, Greenbelt, Maryland, USA},
editor = {J. Le Moigne},
keywords = {registration, matching, uncertainty, validation, geometry},
month = {November},
organization = {CESDIS},
pages = {263--272},
postscript = {https://www-sop.inria.fr/asclepios/Publications/Xavier.Pennec/Pennec.IRW97.a4.ps.gz},
title = {Registration of Uncertain Geometric Features: Estimating the Pose and its Accuracy},
year = {1997}
}
-
L. Robert and G. Malandain.
Fast Binary Image Processing Using Binary Decision Diagrams.
In Computer Vision and Pattern Recognition,
Puerto Rico,
pages 97-102,
June 1997.
IEEE.
@inproceedings{robert-al97,
address = {Puerto Rico},
author = {L. Robert and G. Malandain},
booktitle = {Computer Vision and Pattern Recognition},
month = {June},
organization = {IEEE},
pages = {97--102},
title = {Fast Binary Image Processing Using Binary Decision Diagrams},
year = {1997}
}
-
L. Soler,
G. Malandain,
and H. Delingette.
Segmentation automatique : application aux angioscanners 3D du foie.
In Proceedings of Sixth Orasis conference (ORASIS'97),
La Colle-sur-Loup, France,
1997.
Keyword(s): workshop,
reconstruction.
@inproceedings{soler-orasis97,
address = {La Colle-sur-Loup, France},
author = {L. Soler and G. Malandain and H. Delingette},
booktitle = {Proceedings of Sixth Orasis conference (ORASIS'97)},
keywords = {workshop, reconstruction},
title = {Segmentation automatique : application aux angioscanners 3D du foie},
url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/orasis97.soler.pdf},
year = {1997}
}
-
L. Soler,
G. Malandain,
J. Montagnat,
H. Delingette,
N. Ayache,
J.M. Clément,
C. Roy,
Y. Russier,
V. Tassetti,
and J. Marescaux.
Automatic Segmentation of Portal Vein in CT-Scans of the Liver.
In Proceedings of World Congress on Medical Physics and Biomedical Engineering,
number 2,
Nice, France,
pages 788,
1997.
Keyword(s): workshop,
reconstruction.
@inproceedings{soler-nice97,
address = {Nice, France},
author = {L. Soler and G. Malandain and J. Montagnat and H. Delingette and N. Ayache and J.M. Cl\'ement and C. Roy and Y. Russier and V. Tassetti and J. Marescaux},
booktitle = {Proceedings of World Congress on Medical Physics and Biomedical Engineering},
keywords = {workshop, reconstruction},
number = {2},
pages = {788},
title = {Automatic Segmentation of Portal Vein in CT-Scans of the Liver},
url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/nice97.soler.pdf},
year = {1997}
}
-
Jean-Philippe Thirion and Guillaume Calmon.
Measuring Lesion Growth from 3D Medical Images.
In Non Rigid and Articulated Motion Workshop (NAM '97) in conjunction with CVPR '97,
June 1997.
@inproceedings{TC97b,
author = {Jean-Philippe Thirion and Guillaume Calmon},
booktitle = {Non Rigid and Articulated Motion Workshop (NAM '97) in conjunction with CVPR '97},
month = {June},
title = {Measuring Lesion Growth from 3D Medical Images},
year = {1997}
}
-
Guillaume Calmon.
Mesure des variations de volume dans des images médicales tridimensionnelles.
Master's thesis,
École des Mines de Paris,
1997.
@mastersthesis{Cal97,
author = {Guillaume Calmon},
school = {\'Ecole des Mines de Paris},
title = {Mesure des variations de volume dans des images m\'edicales tridimensionnelles},
year = {1997}
}
-
M. A. González Ballester.
Computer-Aided MRI-Based Analysis of Brain Morphology.
DPhil Transfer Thesis,
University of Oxford,
1997.
@mastersthesis{Gonzalez:Transfer:1997,
author = {Gonz\'alez Ballester, M. A.},
school = {University of Oxford},
title = {Computer-Aided MRI-Based Analysis of Brain Morphology},
type = {DPhil Transfer Thesis},
year = {1997}
}
-
S. Jourdan.
Étude statistique d'images SPECT fonctionnelles à l'aide du logiciel SPM.
Rapport de D.E.A.,
université de Nice-Sophia Antipolis,
June 1997.
@mastersthesis{jourdan97,
author = {S. Jourdan},
month = {June},
school = {universit\'e de Nice-Sophia Antipolis},
title = {\'Etude statistique d'images SPECT fonctionnelles \`a l'aide du logiciel SPM},
type = {Rapport de D.E.A.},
year = {1997}
}
-
M.G. Linguraru.
Aplicatii ale Calculatoarelor si Segmenatarilor de Imagini in Medicina.
MSc Thesis,
Universitatea Lucian Blaga Sibiu,
1997.
@mastersthesis{Linguraru:MsC:97,
author = {M.G. Linguraru},
school = {Universitatea Lucian Blaga Sibiu},
title = {Aplicatii ale Calculatoarelor si Segmenatarilor de Imagini in Medicina},
type = {MSc Thesis},
year = {1997}
}
-
Guillaume Picinbono.
Modèle géométrique de contour déformable implicite pour la segmentation et la simulation.
Master's thesis,
université de Nice-Sophia Antipolis,
1997.
Keyword(s): thesis,
reconstruction.
@mastersthesis{rappdea-picinbonno,
author = {Guillaume Picinbono},
keywords = {thesis, reconstruction},
school = {universit\'e de Nice-Sophia Antipolis},
title = {Mod\`ele g\'eom\'etrique de contour d\'eformable implicite pour la segmentation et la simulation},
url = {https://www-sop.inria.fr/asclepios/Publications/Herve.Delingette/rapport.picinbono.pdf},
year = {1997}
}
-
Sylvain Prima.
Étude de la dissymétrie dans des images volumiques cérébrales.
Rapport de D.E.A.,
université Paris-Dauphine,
September 1997.
@mastersthesis{Prima97a,
author = {Sylvain Prima},
month = {September},
school = {universit\'e Paris-Dauphine},
title = {\'Etude de la dissym\'etrie dans des images volumiques c\'er\'ebrales},
type = {Rapport de D.E.A.},
year = {1997}
}
-
Guillaume Calmon and Jean-Philippe Thirion.
Analyse d'images tridimensionnelles - Application à la sclérose en plaques.
Audiovisual material produced by INRIA audiovisuel,
1997.
Keyword(s): video.
@misc{film-sclerose-1997,
author = {Guillaume Calmon and Jean-Philippe Thirion},
howpublished = {Audiovisual material produced by INRIA audiovisuel},
keywords = {video},
title = {Analyse d'images tridimensionnelles - Application \`a la scl\'erose en plaques},
url = {http://www.inria.fr/multimedia/Videotheque/0-Fiches-Videos/382-fra.html},
year = {1997}
}
-
J. Declerck,
J. Feldmar,
and N. Ayache.
Studying the Heart Left Ventricular Motion with 4D Transformations.
ERCIM News No.31,
October 1997.
@misc{Declerck:Ercim:97,
author = {J. Declerck and J. Feldmar and N. Ayache},
howpublished = {ERCIM News No.31},
month = {October},
title = {Studying the Heart Left Ventricular Motion with 4D Transformations},
year = {1997}
}
-
L. Soler,
G. Malandain,
H. Delingette,
and J. Montagnat.
Computerized anatomical segmentation of the liver from helical CT-Scanners.
ERCIM News No.31,
October 1997.
@misc{luc-art:98:1,
author = {L. Soler and G. Malandain and H. Delingette and J. Montagnat},
howpublished = {ERCIM News No.31},
month = {October},
title = {Computerized anatomical segmentation of the liver from helical CT-Scanners},
url-publisher = {http://www.ercim.org/publication/Ercim_News/enw31/},
year = {1997}
}
-
Alexandre Guimond.
Classification d'images anatomiques tridimensionnelles.
Note: Proposition de thèse, université de Montréal, 67 pages,
May 1997.
@unpublished{guimond97.4,
author = {Alexandre Guimond},
month = {May},
note = {Proposition de th\`ese, universit\'e de Montr\'eal, 67 pages},
title = {Classification d'images anatomiques tridimensionnelles},
year = {1997}
}