1. Robotic Assisted Deep Brain Stimulation Neurosurgery: First Steps on System Development
- Author
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Manuel Rito, Carlos Faria, Sergio Neves Monteiro, Luís Louro, Estela Bicho, Wolfram Erlhagen, and Universidade do Minho
- Subjects
System development ,medicine.medical_specialty ,Engineering ,Deep brain stimulation ,Robotic assisted ,business.industry ,medicine.medical_treatment ,media_common.quotation_subject ,DBS ,Robotic neurosurgery ,Stereotactic electrode implantation ,030230 surgery ,03 medical and health sciences ,Consistency (database systems) ,0302 clinical medicine ,Robotic systems ,Human–computer interaction ,Surgery outcome ,medicine ,Quality (business) ,Neurosurgery ,business ,030217 neurology & neurosurgery ,Simulation ,media_common - Abstract
The advantages of Deep Brain Stimulation (DBS) lead to an increasing number of stereotactic DBS surgeries, which are extensive procedures that require extreme precision and steadiness of tool handling. Robotic manipulators known for their consistency, movement precision and steadiness have the potential to be remarkable tools to assist the neurosurgeons and can refine the quality/working conditions, while improving surgery outcome. Currently, robotic systems for stereotactic neurosurgeries with simple/pragmatic low budget solutions that fulfil the surgeons' needs are not yet available. Thus, we have been asked to develop such robotic system. In this paper we present our first steps toward such endeavour. Specifically, we implemented a simulation environment for robotic assisted DBS neurosurgery that allows emulating several hardware setups within the operating room, and to test and assess their performance. The simulator is useful not only as tool for developing specialized control applications, but also for training clinicians. First results support the viability of the sought solution and open way to future developments., This work has been partially financed by projects FP7 Marie Curie ITN - NETT (project no 289146), FCT FCOMP-01-0124-FEDER-022674 and Pest-C/MATUI0013/2011 (FCT grant ref. UMINHO/BIC/8/2012).
- Published
- 2013