Publications of year 2001

Articles in journal, book chapters

1. H. Frimmel, L. Egevad, C. Busch, and E. Bengtsson. Automatic registration and error detection of multiple slices using landmarks. Anal Cell Pathol, 23:159-165, 2001.
   

   @ARTICLE{frimmel0005,
   AUTHOR = {H.~Frimmel and L.~Egevad and C.~Busch and E.~Bengtsson},
   TITLE = {Automatic registration and error detection of multiple slices using landmarks},
   JOURNAL = {Anal Cell Pathol},
   YEAR = {2001},
   VOLUME = {23},
   PAGES = {159-165},
   
   }
   



2. S. Ourselin, A. Roche, G. Subsol, X. Pennec, and N. Ayache. Reconstructing a 3D Structure from Serial Histological Sections. Image and Vision Computing, 19(1-2):25-31, January 2001.
   

   @ARTICLE{Ourselin:ivc:01,
   AUTHOR = {Ourselin, S. and Roche, A. and Subsol, G. and Pennec, X. and Ayache, N.},
   JOURNAL = "Image and Vision Computing",
   TITLE = {Reconstructing a 3D Structure from Serial Histological Sections},
   YEAR = 2001,
   month = "January",
   volume = 19,
   number = "1-2",
   pages = "25--31" 
   }
   

Conference articles

1. Oscar Acosta, Pascal Haigron, Antoine Lucas, and Marc E. Bellemare. Application of virtual endoscopy to the patient-specific planning of endovascular surgical procedures.. In Proceedings of SPIE: physiology and function from multidimensional images., volume 4321-2, San Diego, USA, pages 58-69, 2001. Keyword(s): Virtual Endoscopy, Vascular Surgery Simulation, Stenosis Characterization, Surface Detection, Minimally Invasive Surgery. Abstract:

   We propose a new approach of patient-specific simulation and planning of vascular interventions using standard CT data. It is based on the virtual environment developed for the exploratory navigation within 3-D volume images. Tools actions involved in the considered minimal invasive procedure have been analyzed and we present the basis of a methodological framework for the simulation of particular endovascular procedure, i.e. the artery wall expansion using a non-compliant balloon. We especially describe the characterization step, which concerns the accurate and automatic detection of the internal wall of the vessel, the description of the lumen surface, the extraction of a region of interest and the analysis of the parietal quality including the lesion. A preliminary surface model of the tool, interacting with a volume representation of the vessel wall, has been introduced in order to predict the plaque behavior during the surgical procedure. Thus, the ideal surface of the lumen and the final shape of the vessel as well as the optimal tool parameters (size, position) taking into account the lesion characteristics could be computed in the simulation process to perform actually a patient-specific planning of intervention.

   
   

   @InProceedings{Acosta2001,
   Author = {Acosta, Oscar and Haigron, Pascal and Lucas, Antoine and Bellemare, Marc E.},
   Title = {Application of virtual endoscopy to the patient-specific planning of endovascular surgical procedures.},
   BookTitle = {Proceedings of {SPIE}: physiology and function from multidimensional images.},
   Volume = {4321-2},
   Pages = {58-69},
   Address = {San Diego, USA},
   abstract = {We propose a new approach of patient-specific simulation and planning of vascular interventions using standard CT data. It is based on the virtual environment developed for the exploratory navigation within 3-D volume images. Tools actions involved in the considered minimal invasive procedure have been analyzed and we present the basis of a methodological framework for the simulation of particular endovascular procedure, i.e. the artery wall expansion using a non-compliant balloon. We especially describe the characterization step, which concerns the accurate and automatic detection of the internal wall of the vessel, the description of the lumen surface, the extraction of a region of interest and the analysis of the parietal quality including the lesion. A preliminary surface model of the tool, interacting with a volume representation of the vessel wall, has been introduced in order to predict the plaque behavior during the surgical procedure. Thus, the ideal surface of the lumen and the final shape of the vessel as well as the optimal tool parameters (size, position) taking into account the lesion characteristics could be computed in the simulation process to perform actually a patient-specific planning of intervention.},
   keywords = {Virtual Endoscopy, Vascular Surgery Simulation, Stenosis Characterization, Surface Detection, Minimally Invasive Surgery},
   year = 2001 
   }
   



2. Oscar Acosta, Cécile Moisan, Pascal Haigron, and Antoine Lucas. Planning d'une angioplastie transluminale par navigation exploratoire virtuelle. In 11 eme forum de jeunes chercheurs en gbm, Compiegne, France, pages 6-7, 2001. Keyword(s): Keywords: Virtual Endoscopy, Vascular Surgery Simulation, Stenosis Characterization, Surface Detection, Minimally Invasive Surgery. Abstract:

   We propose a new approach for the patient-specific planning of transluminal angioplasty using standard CT data. It is based on the virtual environment developed for the exploratory navigation within 3-D volume images. The objective is to provide the surgeon with the primary elements to plan the intervention and consequently to make the surgical procedure more secure and reliable. We describe the methodology for the characterization of the vessel wall and the estimation of the optimal parameters of the tool (size and position) using a preliminary surface model. We show that these geometric parameters can be used for the prevention of restenosis (transluminal angioplasty) as well as for the treatment of restenosis (endovascular radiotherapy).

   
   

   @InProceedings{Acosta2001a,
   Author = {Acosta, Oscar and Moisan, C\'ecile and Haigron, Pascal and Lucas, Antoine},
   Title = {Planning d'une angioplastie transluminale par navigation exploratoire virtuelle},
   BookTitle = {11 eme forum de jeunes chercheurs en gbm},
   Pages = {6-7},
   Address = {Compiegne, France},
   abstract = {We propose a new approach for the patient-specific planning of transluminal angioplasty using standard CT data. It is based on the virtual environment developed for the exploratory navigation within 3-D volume images. The objective is to provide the surgeon with the primary elements to plan the intervention and consequently to make the surgical procedure more secure and reliable. We describe the methodology for the characterization of the vessel wall and the estimation of the optimal parameters of the tool (size and position) using a preliminary surface model. We show that these geometric parameters can be used for the prevention of restenosis (transluminal angioplasty) as well as for the treatment of restenosis (endovascular radiotherapy).},
   keywords = {Keywords: Virtual Endoscopy, Vascular Surgery Simulation, Stenosis Characterization, Surface Detection, Minimally Invasive Surgery},
   year = 2001 
   }
   



3. I. Atmosukarto, L. Zhou, W.K. Leow, and Z. Huang. Polygonizing Nonuniformly Distributed 3D Points by Advancing Mesh Frontier. In Proceedings of Computer Graphics International (CGI), pages 175-182, 2001.
   

   @inproceedings{Atmosukarto_CGI_2001,
   author = {Atmosukarto, I. and Zhou, L. and Leow, W.K. and Huang, Z.},
   title = {Polygonizing Nonuniformly Distributed 3D Points by Advancing Mesh Frontier},
   booktitle = {Proceedings of Computer Graphics International (CGI)},
   address = {},
   month = {},
   year = {2001},
   pages = {175--182} 
   }
   



4. E. Bardinet, A. Colchester, A. Roche, Y. Zhu, Y. He, S. Ourselin, B. Nailon, S.A. Hojjat, J. Ironside, S. Al-Sarraj, N. Ayache, and J. Wardlaw. Registration of Reconstructed Post Mortem Opticla Data with MR Scans of the Same Patient. In 4th International Conference on Medical Image Computing And Computer-Assisted Intervention (MICCAI'01), volume 2208 of LNCS, Utrecht, October 2001.
   

   @INPROCEEDINGS{Bardinet:miccai:01,
   AUTHOR = {Bardinet, E. and Colchester, A. and Roche, A. and Zhu, Y. and He, Y. and Ourselin, S. and Nailon, B. and Hojjat, S.A. and Ironside, J. and Al-Sarraj, S. and Ayache, N. and Wardlaw, J.},
   ADDRESS = {Utrecht},
   booktitle = "4th International Conference on Medical Image Computing And Computer-Assisted Intervention (MICCAI'01)",
   MONTH = "October",
   TITLE = {Registration of Reconstructed Post Mortem Opticla Data with MR Scans of the Same Patient},
   YEAR = {2001},
   series = {LNCS},
   volume = 2208 
   }
   



5. H. Delingette, E. Bardinet, D. Rey, J.D. Lemarechal, J. Montagnat, S. Ourselin, A. Roche, D. Dormont, J. Yelnik, and N. Ayache. YAV++: a Software Platform for Medical Image Processing and Visualization. In Workshop on Interactive Medical Image Visualization and Analysis, Utrecht, October 2001.
   

   @INPROCEEDINGS{Delingette:imiva:01,
   AUTHOR = {Delingette , H. and Bardinet, E. and Rey, D. and Lemarechal, J.D. and Montagnat, J. and Ourselin, S. and Roche, A. and Dormont, D. and Yelnik, J. and Ayache, N.},
   ADDRESS = {Utrecht},
   BOOKTITLE = {Workshop on Interactive Medical Image Visualization and Analysis},
   MONTH = "October",
   TITLE = {YAV++: a Software Platform for Medical Image Processing and Visualization},
   YEAR = {2001} 
   }
   



6. S. Ourselin, E. Bardinet, D. Dormont, G. Malandain, A. Roche, N. Ayache, D. Tandé, K. Parain, and J. Yelnik. Fusion of Histological Sections and MR Images: Towards the Construction of an Atlas of the Human Basal Ganglia. In 4th International Conference on Medical Image Computing And Computer-Assisted Intervention (MICCAI'01), volume 2208 of LNCS, Utrecht, October 2001.
   

   @INPROCEEDINGS{Ourselin:miccai:01,
   AUTHOR = {Ourselin, S. and Bardinet, E. and Dormont, D. and Malandain, G. and Roche, A. and Ayache, N. and Tand\'e, D. and Parain, K. and Yelnik, J.},
   ADDRESS = {Utrecht},
   booktitle = "4th International Conference on Medical Image Computing And Computer-Assisted Intervention (MICCAI'01)",
   MONTH = "October",
   TITLE = {Fusion of Histological Sections and MR Images: Towards the Construction of an Atlas of the Human Basal Ganglia},
   YEAR = {2001},
   series = {LNCS},
   volume = 2208 
   }
   



7. D. Xiao, W.S. Ng, U.R. Abeyratne, and C.B.S. Tsang. Multigradient field active contour for multilayer detection of ultrasound rectal wall image. In Proc. of 23rd Annual International Conference of the IEEE Engineering in Medicine and Biology, Istanbul, Turkey, pages 2645-2648, October 2001.
   

   @INPROCEEDINGS{DiXiaoC013,
   author = {D. Xiao and W.S. Ng and U.R. Abeyratne and C.B.S. Tsang},
   title = {Multigradient field active contour for multilayer detection of ultrasound rectal wall image},
   booktitle = {Proc. of 23rd Annual International Conference of the IEEE Engineering in Medicine and Biology},
   year = {2001},
   pages = {2645-2648},
   address = {Istanbul, Turkey},
   month = {Oct} 
   }
   



8. D. Xiao, W.S. Ng, U.R. Abeyratne, C.B.S. Tsang, and S. Cheon. Rectal wall structure delineation and broken layer recognition by multigradient field active contour. In Proc. Intelligent Information Systems Conference The Seventh Australian and New Zealand 2001, Australia, pages 123-127, November 2001.
   

   @INPROCEEDINGS{DiXiaoC014,
   author = {D. Xiao and W.S. Ng and U.R. Abeyratne and C.B.S. Tsang and S. Cheon},
   title = {Rectal wall structure delineation and broken layer recognition by multigradient field active contour},
   booktitle = {Proc. Intelligent Information Systems Conference The Seventh Australian and New Zealand 2001},
   year = {2001},
   pages = {123-127},
   address = {Australia},
   month = {Nov} 
   }
   



9. H. de Visser, E.A.M. Heijnsdijk, P.V. Pistecky, and H.G. Stassen. Forces surgeons apply during colon surgery. In Final Programme of the 9th International Congress of the European Association for Endoscopic Surgery, Maastricht, The Netherlands, pages 113, June 13-16 2001.
   

   @InProceedings{deVisser:eaes:01,
   author = {de Visser, H. and Heijnsdijk, E.A.M. and Pistecky, P.V. and Stassen, H.G.},
   title = {Forces surgeons apply during colon surgery},
   booktitle = {Final Programme of the 9th International Congress of the European Association for Endoscopic Surgery},
   address = {Maastricht, The Netherlands},
   year = {2001},
   month = {June 13-16},
   pages = {113} 
   }
   

Internal reports

1. S. Ourselin, X. Pennec, and R. Stefanescu. Robust Registration of Multi-Modal Images: Towards Real-Time Clinical Applications. Technical report 4333, INRIA, 2001.
   

   @TECHREPORT{Ourselin:rr:01,
   AUTHOR = {Ourselin, S. and Pennec, X. and Stefanescu, R.},
   INSTITUTION = {INRIA},
   TITLE = {Robust Registration of Multi-Modal Images: Towards Real-Time Clinical Applications},
   YEAR = {2001},
   NUMBER = {4333} 
   }