611 research outputs found
Concept and Design of a Hand-held Mobile Robot System for Craniotomy
This work demonstrates a highly intuitive robot for Surgical Craniotomy Procedures. Utilising a wheeled hand-held robot, to navigate the Craniotomy Drill over a patient\u27s skull, the system does not remove the surgeons from the procedure, but supports them during this critical phase of the operation
Concept and Design of a Hand-held Mobile Robot System for Craniotomy
This work demonstrates a highly intuitive robot for Surgical Craniotomy Procedures. Utilising a wheeled hand-held robot, to navigate the Craniotomy Drill over a patient\u27s skull, the system does not remove the surgeons from the procedure, but supports them during this critical phase of the operation
Review of robotic technology for keyhole transcranial stereotactic neurosurgery
The research of stereotactic apparatus to guide surgical devices began in 1908, yet a major part of today's stereotactic neurosurgeries still rely on stereotactic frames developed almost half a century ago. Robots excel at handling spatial information, and are, thus, obvious candidates in the guidance of instrumentation along precisely planned trajectories. In this review, we introduce the concept of stereotaxy and describe a standard stereotactic neurosurgery. Neurosurgeons' expectations and demands regarding the role of robots as assistive tools are also addressed. We list the most successful robotic systems developed specifically for or capable of executing stereotactic neurosurgery. A critical review is presented for each robotic system, emphasizing the differences between them and detailing positive features and drawbacks. An analysis of the listed robotic system features is also undertaken, in the context of robotic application in stereotactic neurosurgery. Finally, we discuss the current perspective, and future directions of a robotic technology in this field. All robotic systems follow a very similar and structured workflow despite the technical differences that set them apart. No system unequivocally stands out as an absolute best. The trend of technological progress is pointing toward the development of miniaturized cost-effective solutions with more intuitive interfaces.This work has been partially financed by the NETT Project (FP7-PEOPLE-2011-ITN-289146), ACTIVE Project (FP7-ICT-2009-6-270460), and FCT PhD grant (ref. SFRH/BD/86499/2012)
Robot Assisted Laser Osteotomy
In the scope of this thesis world\u27s first robot system was developed, which facilitates osteotomy using laser in arbitrary geometries with an overall accuracy below 0.5mm. Methods of computer and robot assisted surgery were reconsidered and composed to a workflow. Adequate calibration and registration methods are proposed. Further a methodology for transferring geometrically defined cutting trajectories into pulse sequences and optimized execution plans is developed
Intraoperative Navigation Systems for Image-Guided Surgery
Recent technological advancements in medical imaging equipment have resulted in
a dramatic improvement of image accuracy, now capable of providing useful information
previously not available to clinicians. In the surgical context, intraoperative
imaging provides a crucial value for the success of the operation.
Many nontrivial scientific and technical problems need to be addressed in order to
efficiently exploit the different information sources nowadays available in advanced
operating rooms. In particular, it is necessary to provide: (i) accurate tracking of
surgical instruments, (ii) real-time matching of images from different modalities, and
(iii) reliable guidance toward the surgical target. Satisfying all of these requisites
is needed to realize effective intraoperative navigation systems for image-guided
surgery.
Various solutions have been proposed and successfully tested in the field of image
navigation systems in the last ten years; nevertheless several problems still arise in
most of the applications regarding precision, usability and capabilities of the existing
systems. Identifying and solving these issues represents an urgent scientific challenge.
This thesis investigates the current state of the art in the field of intraoperative
navigation systems, focusing in particular on the challenges related to efficient and
effective usage of ultrasound imaging during surgery.
The main contribution of this thesis to the state of the art are related to:
Techniques for automatic motion compensation and therapy monitoring applied
to a novel ultrasound-guided surgical robotic platform in the context of
abdominal tumor thermoablation.
Novel image-fusion based navigation systems for ultrasound-guided neurosurgery
in the context of brain tumor resection, highlighting their applicability
as off-line surgical training instruments.
The proposed systems, which were designed and developed in the framework of
two international research projects, have been tested in real or simulated surgical
scenarios, showing promising results toward their application in clinical practice
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