Cryosurgery planning using bubble packing in 3D
- 22 February 2008
- journal article
- research article
- Published by Taylor & Francis in Computer Methods in Biomechanics and Biomedical Engineering
- Vol. 11 (2) , 113-121
- https://doi.org/10.1080/10255840701336653
Abstract
As part of an ongoing project to develop automated tools for cryosurgery planning, the current study focuses on the development of a 3D bubble packing method. A proof-of-concept for the new method is demonstrated on five prostate models, reconstructed from ultrasound images. The new method is a modification of an established method in 2D. Ellipsoidal bubbles are packed in the volume of the prostate in the current study; such bubbles can be viewed as a first-order approximation of a frozen region around a single cryoprobe. When all cryoprobes are inserted to the same depth, optimum planning was found to occur at about 60% of the length of the prostate (measured from its apex), which leads to cooling of approximately 75% of the prostate volume below a specific temperature threshold of −22°C. Bubble packing has the potential to dramatically reduce the run time for automated planning.Keywords
This publication has 15 references indexed in Scilit:
- An efficient numerical technique for bioheat simulations and its application to computerized cryosurgery planningComputer Methods and Programs in Biomedicine, 2007
- Two-Phase Computerized Planning of Cryosurgery Using Bubble-Packing and Force-Field AnalogyJournal of Biomechanical Engineering, 2005
- Computerized Planning for Multiprobe Cryosurgery using a Force-field AnalogyComputer Methods in Biomechanics and Biomedical Engineering, 2004
- A general model for the propagation of uncertainty in measurements into heat transfer simulations and its application to cryosurgeryCryobiology, 2003
- The thermal effect of urethral warming during cryosurgery.2003
- Simultaneous optimization of cryoprobe placement and thermal protocol for cryosurgery.Physics in Medicine & Biology, 2001
- A semi-empirical treatment planning model for optimization of multiprobe cryosurgeryPhysics in Medicine & Biology, 2000
- Mechanisms of Tissue Injury in CryosurgeryCryobiology, 1998
- Automatic triangular mesh generation of trimmed parametric surfaces for finite element analysisComputer Aided Geometric Design, 1998
- Urethral warming catheter for use during cryoablation of the prostateUrology, 1995