View clinical trials related to User-Computer Interface.
Filter by:New devices for anatomic studies and 3-D visualization have proven to be useful for pre-operative surgical planning and intra-operative procedures; the hypothesis of our study is that, in this specific case scenario, Surgical Theater and Vesalius (two devices available at the Besta NeuroSim Center, Foundation I.R.C.C.S. Neurological Institute Carlo Besta) can improve doctor-patient communication during the process of obtaining informed consent: through tridimensional representation of anatomic structures of the brain, these devices are able to help patients understand better their own anatomy and the surgical approach to their disease. The aim of our study is therefore to understand whether this high-technology 3D planning, used as a tool to optimize patient-doctor communication, can effectively improve patients' understanding of the disease and the surgical procedure they will be going through (for which they are supposed to sign the consent), as well as the benefits, the risks and all the possible complications that can derive form surgery. Surgical Theater and Vesalius may be of great help: thanks to the case-specific 3D reconstruction of the patient's anatomy, the explanation of the surgical procedure could be customized for each different person, considering that anyone has certain unique individual features that a regular standardized system could not possibly take into account.
The VitalPAD is a unified, portable and intelligent device that integrates information from multiple patient monitors, mechanical ventilators, infusion pumps and clinical information systems on a mobile platform. It will allow nurses, respiratory therapists and physicians to continuously monitor and coordinate care of critically ill patients. This study will use a participatory design process to guide the design of an integrated mobile device, followed by an evaluation of the proposed device in a simulated ICU setting.
The purpose of this study is to investigate the effect of virtual simulation training on mastoidectomy dissection performance of otorhinolaryngology trainees, to explore performance assessment using a final-product analysis approach and to explore the role of cognitive load.
The purpose of this study is to establish learning curves of mastoidectomy training in virtual surgical simulation training, to establish the long-term effect of repeat simulation training and to explore the transfer of skills, the roles of an integrated tutor function, self-directed learning and cognitive load.
The Mobile Messenger is a unified, portable and intelligent device that integrates information from multiple patient monitors, mechanical ventilators, infusion pumps and clinical information systems on a mobile platform. It will allow nurses, respiratory therapists and physicians to continuously monitor and coordinate care of critically ill patients. This study will use a participatory design process to guide the design of an integrated mobile device. Next, we will evaluate the proposed device in a simulated ICU setting.