Title :
Image-guided simulation of heterogeneous tissue deformation for augmented reality during hepatic surgery
Author :
Haouchine, Nazim ; Dequidt, Jeremie ; Peterlik, Igor ; Kerrien, Erwan ; Berger, Marie-Odile ; Cotin, Stephane
Author_Institution :
Shacra Team, Inria, France
Abstract :
This paper presents a method for real-time augmentation of vascular network and tumors during minimally invasive liver surgery. Internal structures computed from pre-operative CT scans can be overlaid onto the laparoscopic view for surgery guidance. Compared to state-of-the-art methods, our method uses a real-time biomechanical model to compute a volumetric displacement field from partial three-dimensional liver surface motion. This permits to properly handle the motion of internal structures even in the case of anisotropic or heterogeneous tissues, as it is the case for the liver and many anatomical structures. Real-time augmentation results are presented on in vivo and phantom data and illustrate the benefits of such an approach for minimally invasive surgery.
Keywords :
augmented reality; computerised tomography; liver; medical image processing; phantoms; real-time systems; solid modelling; surgery; tumours; anatomical structures; anisotropic tissue; augmented reality; hepatic surgery; heterogeneous tissue deformation; image-guided simulation; internal structures; laparoscopic view; minimally invasive liver surgery; minimally invasive surgery; partial three-dimensional liver surface motion; phantom data; preoperative CT scans; real-time augmentation; real-time biomechanical model; state-of-the-art method; surgery guidance; tumors; vascular network; volumetric displacement field; Biological system modeling; Biomechanics; Computational modeling; Deformable models; Liver; Surgery; Three-dimensional displays;
Conference_Titel :
Mixed and Augmented Reality (ISMAR), 2013 IEEE International Symposium on
Conference_Location :
Adelaide, SA
DOI :
10.1109/ISMAR.2013.6671780
