Surgical robotics
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Robotics enables surgery to be less invasive and/or to enhance the performance of the surgeon. In minimally invasive surgery (MIS) for instance, robotics can improve the dexterity of conventional instruments, which is restricted by the insertion ports, by adding intra-cavity degrees of freedom. It can also provide the surgeon with augmented visual and haptic inputs. In open surgery, robotics makes it possible to use in real time pre-operative and per-operative image data to improve precision and reproducibility when cutting, drilling, milling bones, to locate accurately and remove tumours. In both cases, as in other surgical specialities, robotics allows the surgeon to perform more precise, reproducible and dextrous motion. It is also a promising solution to minimize his fatigue and to restrict his exposition to radiation. For the patient, robotics surgery may result in less risk, pain and discomfort, as well as a shorter recovery time. These benefits explain the increasing research efforts made all over the world since the early 90's.

Surgical robotics requires great skills in many engineering fields as the integration of robots in the operating room is technically difficult. It induces new problems such as safety, man-machine cooperation, real time sensing and processing, mechanical design, force and vision-based control… However, it is very promising as a mean to improve conventional surgical procedures, for example in neurosurgery and orthopedics, as well as providing innovative new ones in micro-surgery, image-guided therapy, MIS and Natural Orifice Transluminal Endoscopic Surgery (NOTES).

The highly interdisciplinary nature of surgical robotics requires close cooperation between medical staff and researchers in mechanics, computer sciences, control and electrical engineering. This cooperation has resulted in many prototypes for a wide variety of surgical procedures. A few robotics systems are yet available on a commercial basis and have entered the operating room namely in neurosurgery, orthopedics and MIS.

Depending on the application, surgical robotics gets more or less deeply into the following fields: multi-modal information processing; modelling of rigid and deformable anatomical parts; pre-surgical planning and simulation of robotic surgery; design and control of guiding systems for assistance of the surgeon gesture. During the Summer school, these fields will be addressed by surgeons and researchers working in leading hospitals and labs. They will be completed by engineers who will give insight into practical integration problems.

This course is addressed to PhD students, post-docs and researchers already involved in the area or interested by the new challenges of such an emerging area interconnecting technology and surgery. Basic background in mechanical, computer science, control and electrical engineering is recommended.


This Summer School follows five previous editions held in Montpellier on a biennial basis since 2003:

• http://2011.sssr.fr
• http://www.lirmm.fr/UEE09
• http://www.lirmm.fr/UEE07
• http://www.lirmm.fr/UEE05
• http://www.lirmm.fr/manifs/UEE/accueil.htm


Content
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The lectures will be organized in four parts:

• Fundamental aspects of surgical robotics (2 days) : medical imaging, modelling, control, design and safety, planning and registration, haptics;

• Applications (2 days): technical point of view (from design to experiment), and surgical point of view (orthopedics, urology, ENT and abdominal surgery);

• Industrial forum (1 day) : with exhibition of equipments, presentations of applications, and demonstrations; visit of the LIRMM facilities;

• Future trends (1 day): perspectives in small size robots and mechatronic devices for surgery and therapy; perspectives in NOTES.

Time will be reserved for the participants to present their own research work.


Invited lecturers
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Chosen among the most well-known experts worldwide, the lecturers have a significant theoretical and practical background in Surgical Robotics. They represent the clinical, scientific and engineering communities:

• Paolo Dario, Scuola Superiore Sant'Anna, Pisa, Italy
• Christian Duriez, INRIA, Villeneuve d'Ascq, France
• Paolo Fiorini, University of Verona, Italy
• Robert D. Howe, Harvard University, Cambridge, USA
• Gernot Kronreif, ACMIT, Wiener Neustadt, Austria
• Andreas Melzer, IMSaT, Dundee, UK
• Guillaume Morel, ISIR, Paris, France
• Pierre Mozer, ISIR, Paris, France
• Florent Nageotte, ICube, Strasbourg, France
• Silvana Perretta, IRCAD, Strasbourg, France
• Philippe Poignet, LIRMM, Montpellier, France
• Cameron Riviere, Carnegie Mellon University, USA
• Jacob Rosen, University of California, Santa Cruz, USA
• Tim Salcudean, U. British Columbia, Vancouver, Canada
• Luc Soler, IRCAD, Strasbourg, France
• Eric Stindel, CHU-LATIM, Brest, France
• Russ Taylor, John Hopkins University, Baltimore, USA
• Jocelyne Troccaz, TIMC, Grenoble, France
• Robert J. Webster III, Vanderbilt University, USA
• Guang-Zhong Yang, Imperial College, London, UK
• Nabil Zemiti, LIRMM, Montpellier, France


Lectures and school materials
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All lectures will be given in English. The lecturers' slides will be available on line at the time of the class. All the School material (including slides of students' presentations) will be available by the end of September on the website of the Summer school together with significant papers of the lecturers as well as videos.


ECTS
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The 36-hour courses of the Summer School will be accredited by the Doctoral School on Information, Systems and Structure (I2S) of the University of Montpellier 2 (a Doctoral School in the French Universities manages the Ph.D. degree). 5 ECTS credit points will be awarded to student attendees.


Accommodation
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The lectures will be given in the "Centre Rιgional de Documentation Pιdagogique", which is located downtown Montpellier (http://2013.sssr.fr/get.php).
The students will be housed in apartments for two people, in the residence "Les Citadines – Antigone", at walking distance from CRDP.




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