Constrained reconstructions for 4D intervention guidance

• Published in: Physics in medicine & biology Vol. 58; no. 10; pp. 3283 - 3300
• Main Authors: Kuntz, J, Flach, B, Kueres, R, Semmler, W, Kachelrieß, M, Bartling, S
• Format: Journal Article
• Language: English
• Published: England IOP Publishing 21.05.2013
• Subjects: Algorithms; Animals; compressed sensing; computed tomography; Four-Dimensional Computed Tomography - methods; intervention guidance; Phantoms, Imaging; Radiation Dosage; Radiology, Interventional - methods; realtime 4D intervention; Swine; undersampled reconstruction
• ISSN: 0031-9155; 1361-6560
• DOI: 10.1088/0031-9155/58/10/3283

Image-guided interventions are an increasingly important part of clinical minimally invasive procedures. However, up to now they cannot be performed under 4D (3D + time) guidance due to the exceedingly high x-ray dose. In this work we investigate the applicability of compressed sensing reconstructions for highly undersampled CT datasets combined with the incorporation of prior images in order to yield low dose 4D intervention guidance. We present a new reconstruction scheme prior image dynamic interventional CT (PrIDICT) that accounts for specific image features in intervention guidance and compare it to PICCS and ASD-POCS. The optimal parameters for the dose per projection and the numbers of projections per reconstruction are determined in phantom simulations and measurements. In vivo experiments in six pigs are performed in a cone-beam CT; measured doses are compared to current gold-standard intervention guidance represented by a clinical fluoroscopy system. Phantom studies show maximum image quality for identical overall doses in the range of 14 to 21 projections per reconstruction. In vivo studies reveal that interventional materials can be followed in 4D visualization and that PrIDICT, compared to PICCS and ASD-POCS, shows superior reconstruction results and fewer artifacts in the periphery with dose in the order of biplane fluoroscopy. These results suggest that 4D intervention guidance can be realized with today's flat detector and gantry systems using the herein presented reconstruction scheme.