Biomechanically constrained groupwise US to CT registration of the lumbar spine

Published in Medical Image Computing and Computer Assisted Intervention (MICCAI), 2009

Recommended citation: Gill S, Mousavi P, Fichtinger G, Chen ECS, Boisvert J, Pichora D, Abolmaesumi P, (2009). "Biomechanically constrained groupwise US to CT registration of the lumbar spine"; in Medical Image Computing and Computer Assisted Intervention -- MICCAI 2009, LNCS 5761, pp. 803-810. https://doi.org/10.1007/978-3-642-04268-3_99

Registration of intraoperative ultrasound (US) with preoperative computed tomography (CT) data for interventional guidance is a subject of immense interest, particularly for percutaneous spinal injections. We propose a biomechanically constrained group-wise registration of US to CT images of the lumbar spine. Each vertebra in CT is treated as a sub-volume and transformed individually. The sub-volumes are then reconstructed into a single volume. The algorithm simulates an US image from the CT data at each iteration of the registration. This simulated US image is used to calculate an intensity based similarity metric with the real US image. A biomechanical model is used to constrain the displacement of the vertebrae relative to one another. Covariance Matrix Adaption - Evolution Strategy (CMA-ES) is utilized as the optimization strategy. Validation is performed on CT and US images from a phantom designed to preserve realistic curvatures of the spine. The technique is able to register initial misalignments of up to 20mm with a success rate of 82%, and those of up to 10mm with a success rate of 98.6%.

Download paper here BibTeX PMID: 20426062