MIRAB: An Image-Guided Multichannel Robot for Prostate Brachytherapy

Purpose: To date, twelve robotic systems have been developed worldwide for brachytherapy, especially for seed implantation. However, the only system that has provision for simultaneous insertion of multiple needles is the MIRAB system. This article reports the feasibility and efficacy of the MIRAB robot as ultrasound image-guided autonomous delivery of radioactive seeds for treating prostate cancers. American Society for Therapeutic Radiation Oncology (ASTRO) 52nd Annual Meeting October 31 - November 4, San Diego, C

An Open-Source 7-Axis, Robotic Platform to Enable Dexterous Procedures within CT Scanners

This paper describes the design, manufacture, and performance of a highly dexterous, low-profile, 7 Degree-of-Freedom (DOF) robotic arm for CT-guided percutaneous needle biopsy. Direct CT guidance allows physicians to localize tumours quickly; however, needle insertion is still performed by hand. This system is mounted to a fully active gantry superior to the patient's head and teleoperated by a radiologist. Unlike other similar robots, this robot's fully serial-link approach uses a unique combination of belt and cable drives for high-transparency and minimal-backlash, allowing for an expansive working area and numerous approach angles to targets all while maintaining a small in-bore cross-section of less than $16cm^2$. Simulations verified the system's expansive collision free work-space and ability to hit targets across the entire chest, as required for lung cancer biopsy. Targeting error is on average $<1mm$ on a teleoperated accuracy task, illustrating the system's sufficient accuracy to perform biopsy procedures. The system is designed for lung biopsies due to the large working volume that is required for reaching peripheral lung lesions, though, with its large working volume and small in-bore cross-sectional area, the robotic system is effectively a general-purpose CT-compatible manipulation device for percutaneous procedures. Finally, with the considerable development time undertaken in designing a precise and flexible-use system and with the desire to reduce the burden of other researchers in developing algorithms for image-guided surgery, this system provides open-access, and to the best of our knowledge, is the first open-hardware image-guided biopsy robot of its kind.Comment: 8 pages, 9 figures, final submission to IROS 201

Bodine Journal, Table of Contents, Volume 3, Issue 1, Fall 2010

Table of Contents for Fall 2010 issue of Bodine Journal

Développement et application préclinique du robot de curiethérapie PROSPER

Introduction : Rapporter le développement et les expérimentations d'un nouveau système robotisé destiné à la curiethérapie prostatique possédant un système de suivi de la prostate et une possibilité de fusion écho-IRM. Matériel et méthodes : Un robot d'implantation d'aiguilles transpérinéales guidé par échographie transrectale avec suivi peropératoire des mouvements et de la déformation de la prostate a été crée. Les expériences ont été conduites sur 90 cibles réalisées dans 9 fantômes conçus pour être mobiles et déformables. Les expériences ont été ensuite conduites chez 2 cadavres. Le robot a cherché à déposer des billes de verre simulant des grains de curiethérapie aussi près que possible des cibles dans des fantômes évaluables par différentes modalités d'imagerie dont le scanner et dans des prostates de cadavre. Les résultats étaient mesurés en segmentant les cibles et les billes de verre sur des volumes tomodensitométriques des fantômes et des cadavres. Résultats : Le robot était capable d'atteindre les cibles choisies dans les fantômes avec une précision médiane de 2.73 mm, avec un déplacement médian de la prostate de 5.46 mm. La précision était meilleure à la base qu'à l'apex (2.28 mm vs 3.83 mm, p<0.01) et n'était pas significativement différente pour les implantations horizontales et obliques (2.7 vs 2.82 mm, p=0.18). Les tests sur cadavre ont montré la faisabilité et l'ergonomie du robot en salle d'opération mais des expérimentations plus poussées sont nécessaires. Conclusion : Ce robot destiné à la curiethérapie prostatique est le premier système utilisant le suivi de la prostate intra-opératoire pour guider des aiguilles dans la prostate. Les expériences préliminaires montrent sa capacité à atteindre des cibles malgré les mouvements de la prostate. Les applications pourraient être élargies à la thérapie focale et aux biopsies guidées compte-tenu de sa possibilité à fusionner l'imagerie IRM et l'échographie.Purpose: To report on the development and the initial experience with a new 3D ultrasound robotic system for prostate brachytherapy assistance and focal therapy. MRI-TRUS fusion as well as its ability to track prostate motion intra-operatively allows it to manage motions and guide needles to MRI enhanced tumor foci. Materials and methods: A robotic system for TRUS-guided needle implantation combined with intraoperative prostate tracking was created. Experiments were conducted on 90 targets embedded in 9 mobile and deformable synthetic prostate phantoms. A preliminary feasibility study on 2 cadavers was also carried out. The experiments involved trying to insert glass beads as close as possible to targets in multimodal imaging phantoms and in cadaver prostates. The results were measured by segmenting the inserted beads in CT scan volumes of the phantoms and of the cadaver's radical prostatectomy specimens. Results: The robot was able to reach the chosen targets in phantoms with a median accuracy of 2.73 mm, with a median prostate motion of 5.46 mm. Accuracy was better in apex than in base (2.28 vs 3.83 mm, p<0.001) and was similar for horizontal and angled needle inclinations (2.7 vs 2.82 mm, p=0.18). Cadaver tests showed the feasibility of the robot's ergonomics in the operating room but further in vivo assessments are needed. Conclusion: This robot for prostate focal therapy and brachytherapy is the first system using intraoperative prostate motion tracking to guide needles into the prostate. The preliminary experiments described show its ability to reach targets in spite of the motion of the prostate.SAVOIE-SCD - Bib.électronique (730659901) / SudocGRENOBLE1/INP-Bib.électronique (384210012) / SudocGRENOBLE2/3-Bib.électronique (384219901) / SudocSudocFranceF

Enabling technologies for MRI guided interventional procedures

This dissertation addresses topics related to developing interventional assistant devices for Magnetic Resonance Imaging (MRI). MRI can provide high-quality 3D visualization of target anatomy and surrounding tissue, but the benefits can not be readily harnessed for interventional procedures due to difficulties associated with the use of high-field (1.5T or greater) MRI. Discussed are potential solutions to the inability to use conventional mecha- tronics and the confined physical space in the scanner bore. This work describes the development of two apparently dissimilar systems that repre- sent different approaches to the same surgical problem - coupling information and action to perform percutaneous (through the skin) needle placement with MR imaging. The first system addressed takes MR images and projects them along with a surgical plan directly on the interventional site, thus providing in-situ imaging. With anatomical images and a corresponding plan visible in the appropriate pose, the clinician can use this information to perform the surgical action. My primary research effort has focused on a robotic assistant system that overcomes the difficulties inherent to MR-guided procedures, and promises safe and reliable intra-prostatic needle placement inside closed high-field MRI scanners. The robot is a servo pneumatically operated automatic needle guide, and effectively guides needles under real- time MR imaging. This thesis describes development of the robotic system including requirements, workspace analysis, mechanism design and optimization, and evaluation of MR compatibility. Further, a generally applicable MR-compatible robot controller is de- veloped, the pneumatic control system is implemented and evaluated, and the system is deployed in pre-clinical trials. The dissertation concludes with future work and lessons learned from this endeavor

Needle and Biopsy Robots: a Review

Purpose of the review Robotics is a rapidly advancing field, and its introduction in healthcare can have a multitude of benefits for clinical practice. Especially, applications depending on the radiologist\u2019s accuracy and precision, such as percutaneous interventions, may profit. This paper provides an overview of recent robot-assisted percutaneous solutions. Recent findings Percutaneous interventions are relatively simple and the quality of the procedure increases a lot by introducing robotics due to the improved accuracy and precision. The success of the procedure is heavily dependent on the ability to merge pre- and intraoperative images, as an accurate estimation of the current target location allows to exploit the robot\u2019s capabilities. Summary Despite much research, the application of robotics in some branches of healthcare is not commonplace yet. Recent advances in percutaneous robotic solutions and imaging are highlighted, as they will pave the way to more widespread implementation of robotics in clinical practic

The Use of Biomaterials in Internal Radiation Therapy

Radiotherapy has become one of the most prominent and effective modalities for cancer treatment and care. Ionising radiation, delivered either from external or internal sources, can be targeted to cancerous cells causing damage to DNA that can induce apoptosis. External beam radiotherapy delivers either photon radiation (x-rays or gamma rays) or particle radiation (neutrons or protons) in a targeted manner to specific tumour locations. Internal radiotherapy involves placing radioactive sources within the body to deliver localised doses of therapeutic radiation to tumours using short range radionuclides. Biomaterials have been developed to allow more precise targeting of radiotherapy in order to reduce toxicity to surrounding healthy tissues and increase treatment efficacy. These unique biomaterials have been developed from polymers, glasses and ceramics. Polymeric materials have been used to both displace healthy tissue from tumours receiving radiation, and to deliver radioactive sources into the body. These polymers can respond to various stimuli, such as radiation or reactive oxygen species, to deliver therapeutic payloads to target tissue during or post radiotherapy. Glass-based biomaterials doped with radionuclides have also been developed to provide in situ radiotherapy. Novel biomaterials that can enhance the synergistic effect of other treatment modalities, such as chemotherapy and immunotherapy, continue to be developed. Theranostic materials that are capable of providing diagnostic information whilst simultaneously delivering a therapeutic effect to enhance radiotherapy are also briefly reviewed

A Review on Advances in Intra-operative Imaging for Surgery and Therapy: Imagining the Operating Room of the Future

none4openZaffino, Paolo; Moccia, Sara; De Momi, Elena; Spadea, Maria FrancescaZaffino, Paolo; Moccia, Sara; De Momi, Elena; Spadea, Maria Francesc