RosaGMElizondoML. Use of a gesture user interface as a touchless image navigation system in dental surgery: case series report. Imaging Sci Dent. 2014;44:155-160.
2.
EbertLCHatchGAmpanoziGThaliMJRossS. You can’t touch this: touch-free navigation through radiological images. Surg Innov. 2012;19:301-307.
3.
TaniBMaiaRVon WangenheimA. A gesture interface for radiological workstations. Paper presented at: Proceedings of the Twentieth IEEE International Symposium on Computer-Based Medical Systems (CBMS ’07). Washington, DC: IEEE Computer Society; 2007:27-32. doi:10.1109/CBMS.2007.6.
4.
BigdelouASchwarzANavabN. An adaptive solution for intra-operative gesture-based human-machine interaction. Paper presented at: Proceedings of the 2012 ACM International Conference on Intelligent User Interfaces (IUI ’12). New York, NY: ACM; 2012:75-84. doi:10.1145/2166966.2166981.
5.
JacobMGWachsJPPackerRA. Hand-gesture-based sterile interface for the operating room using contextual cues for the navigation of radiological images. J Am Med Inform Assoc. 2013;20:e183-e186.
6.
WeichertFBachmannDRudakBFisselerD. Analysis of the accuracy and robustness of the Leap Motion Controller. Sensors (Basel). 2013;13:6380-6393.
7.
RuppertGCReisLOAmorimPHde MoraesTFda SilvaJV. Touchless gesture user interface for interactive image visualization in urological surgery. World J Urol. 2012;30:687-691.
8.
BizzottoNCostanzoABizzottoLRegisDSandriAMagnanB. Leap motion gesture control with OsiriX in the operating room to control imaging: first experiences during live surgery. Surg Innov. 2014;21:655-656.
9.
BizzottoNCostanzoAMalutaT. Preliminary experience with the use of leap motion gesture control to manage imaging in the operating room. J Orthop Traumatol. 2014;15(suppl 1):S19-S20.
10.
FrameM. A novel system for hands free manipulation of digital X-rays in a sterile environment using consumer electronics and software. Paper presented at: CARS 2012: Computer Assisted Radiology and Surgery: 26th International Congress and Exhibition; June 27-30, 2012; Pisa, Italy.
11.
OguraTSatoMIshidaYHayashiNDoiK. Development of a novel method for manipulation of angiographic images by use of a motion sensor in operating rooms. Radiol Phys Technol. 2014;7:228-234.
12.
JohnsonRO’HaraKSellenACousinsCCriminisiC. Exploring the potential for touchless interaction in image-guided interventional radiology. In: Proceedings of the SIGCHI Conference on Human Factors in Computing Systems (CHI ’11). New York, NY: ACM; 2011:3323-3332. doi:10.1145/1978942.1979436.
13.
VargasHFVivasOA. Gesture recognition system for surgical robot’s manipulation. Paper presented at: 2014 XIX Symposium on Image, Signal Processing and Artificial Vision; September 17-19, 2014; Armenia. IEEE. doi:10.1109/STSIVA.2014.7010172.
