Computer-assisted 3D ultrasound-guided neurosurgery: technological contributions, including multimodal registration and advanced display, demonstrating future perspectives

Background Navigation systems are now frequently being used for guiding surgical procedures. Existing neuronavigation systems suffer from the lack of updated images when tissue changes during surgery as well as from userfriendly displays of all essential images for accurate and safe surgery guidance...

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Published in:The international journal of medical robotics + computer assisted surgery 2006-03, Vol.2 (1), p.45-59
Main Authors: Nagelhus Hernes, Toril A., Lindseth, Frank, Selbekk, Tormod, Wollf, Arild, Solberg, Ole Vegard, Harg, Erik, Rygh, Ola M., Tangen, Geir Arne, Rasmussen, Inge, Augdal, Sigmund, Couweleers, Fred, Unsgaard, Geirmund
Format: Article
Language:English
Subjects:
Algorithms
Brain - pathology
Brain - surgery
Brain Neoplasms - pathology
Brain Neoplasms - surgery
brain shift
Data Display
Equipment Design
Humans
Imaging, Three-Dimensional
intraoperative 3D ultrasound
Magnetic Resonance Imaging
minimally invasive surgery
multimodal imaging
neuronavigation
Neuronavigation - instrumentation
Neuronavigation - methods
Neurosurgical Procedures - instrumentation
Neurosurgical Procedures - trends
registration
Software
Surgery, Computer-Assisted - instrumentation
Surgery, Computer-Assisted - trends
Ultrasonography
User-Computer Interface
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Summary:Background Navigation systems are now frequently being used for guiding surgical procedures. Existing neuronavigation systems suffer from the lack of updated images when tissue changes during surgery as well as from userfriendly displays of all essential images for accurate and safe surgery guidance. Methods We have developed various new technologies for improved neuronavigation. Using intraoperative 3D ultrasound (US) imaging, we have developed various registration algorithms for using and updating a complete multimodal and multivolume 3D map for navigation. Results We experienced that advanced multimodal visualization makes it easy to interpret information from several image volumes and modalities simultaneously. Using high quality intraoperative 3D ultrasound, essential preoperative information could be corrected due to brain shift. fMRI and other important preoperative data could then be used together with intraoperative ultrasound imaging for more accurate, safer and improved guidance of therapy. Conclusions We claim that new features, as demonstrated in the present paper, using intraoperative 3D ultrasound in combination with advanced registration and display algorithms will represent important contributions towards more accurate, safer and more optimized future patient treatment. Copyright © 2006 John Wiley & Sons, Ltd.
ISSN:1478-5951
1478-596X
DOI:10.1002/rcs.68