Seeing is believing: increasing intraoperative awareness to scattered radiation in interventional procedures by combining augmented reality, Monte Carlo simulations and wireless dosimeters.

scientific article published on 26 February 2015

Seeing is believing: increasing intraoperative awareness to scattered radiation in interventional procedures by combining augmented reality, Monte Carlo simulations and wireless dosimeters. is …
instance of (P31):
scholarly articleQ13442814

External links are
P8978DBLP publication IDjournals/cars/RodasP15
P356DOI10.1007/S11548-015-1161-X
P698PubMed publication ID25712916
P5875ResearchGate publication ID272823284

P50authorNicolas Loy RodasQ86825312
P2093author name stringNicolas Padoy
P2860cites workBrain and neck tumors among physicians performing interventional proceduresQ45895374
Geant4—a simulation toolkitQ56389736
Improving education on C-arm operation and radiation protection with a computer-based training and simulation systemQ82334780
Monte Carlo calculations on extremity and eye lens dosimetry for medical staff at interventional radiology proceduresQ83144676
Interventional fluoroscopy: reducing radiation risks for patients and staffQ84135395
An approach to calculate and visualize intraoperative scattered radiation exposureQ84542971
SIScaR-GPU: fast simulation and visualization of intraoperative scattered radiation to support radiation protection trainingQ84753484
Estimating Radiation Exposure in Interventional EnvironmentsQ85108635
3D global estimation and augmented reality visualization of intra-operative X-ray doseQ85836008
P433issue8
P921main subjectaugmented realityQ254183
P304page(s)1181-1191
P577publication date2015-02-26
P1433published inInternational Journal of Computer Assisted Radiology and SurgeryQ1391665
P1476titleSeeing is believing: increasing intraoperative awareness to scattered radiation in interventional procedures by combining augmented reality, Monte Carlo simulations and wireless dosimeters
P478volume10