Direct navigation on 3D rotational x-ray data acquired with a mobile propeller C-arm: accuracy and application in functional endoscopic sinus surgery

Abstract: Recently, three-dimensional (3D) rotational x-ray imaging has been combined with navigation technology, enabling direct 3D navigation for minimally invasive image guided interventions. In this study, phantom experiments are used to determine the accuracy of such a navigation set-up for a mobile C-arm with propeller motion. After calibration of the C-arm system, the accuracy is evaluated by pinpointing divots on a special-purpose phantom with known geometry. This evaluation is performed both with and without C-… Show more

“…As CBCT provides in situ imaging, it can potentially be used for registrationless navigation, [4][5][6] streamlining the clinical workflow to only two steps: ͑1͒ Acquire a 3D image and ͑2͒ navigate. This is possible as the 3D image is acquired in situ, allowing us to replace the intraoperative registration step with a one-time calibration.…”

Localizing spherical fiducials in C‐arm based cone‐beam CT

“…As CBCT provides in situ imaging, it can potentially be used for registrationless navigation, [4][5][6] streamlining the clinical workflow to only two steps: ͑1͒ Acquire a 3D image and ͑2͒ navigate. This is possible as the 3D image is acquired in situ, allowing us to replace the intraoperative registration step with a one-time calibration.…”

Localizing spherical fiducials in C‐arm based cone‐beam CT

An on-board surgical tracking and video augmentation system for C-arm image guidance

Quantitative Measurement of Iodine Concentration in the Liver Using Abdominal C-Arm Computed Tomography