Purpose: Flat-detector CT can be integrated with C-arm fluoroscopy for CT-guided neurosurgical and endovascular procedures. We studied the accuracy of this technique with laser assistance in targeting intracranial lesions in a cranial model.
Methods: An acrylic scale-model skull containing foam parenchyma was embedded with 2.16-mm-diameter targets. A flat-detector CT was acquired and registered to the skull's position. Ten targets were accessed with biopsy needles under fluoroscopic guidance, flat-detector CT overlay, and laser assistance. Accuracy was measured from the needle tip to the target center using flat-detector CT.
Results: Ten targets were accessed successfully using XperGuide software. Needles were placed within 1.30 [Formula: see text] 0.63 mm of target isocenter. Accuracy did not vary by entry site, operator, location, or lesion depth.
Conclusions: Laser-assisted flat-detector CT-guided targeting of all intracranial targets was successful with excellent accuracy. This technique can be applied to other minimally invasive neurosurgical procedures.
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| http://dx.doi.org/10.1007/s11548-015-1271-5 | DOI Listing |
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Laser-assisted flat-detector CT-guided intracranial access.
Int J Comput Assist Radiol Surg
March 2016
Department of Neurological Surgery, Harborview Medical Center, University of Washington, 325 Ninth Avenue, Box 359924, Seattle, WA, 98104-2499, USA.
Purpose: Flat-detector CT can be integrated with C-arm fluoroscopy for CT-guided neurosurgical and endovascular procedures. We studied the accuracy of this technique with laser assistance in targeting intracranial lesions in a cranial model.
Methods: An acrylic scale-model skull containing foam parenchyma was embedded with 2.
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