Abstract

Therapeutic ultrasound (US) can be noninvasively focused to activate drugs, ablate tumors and deliver drugs beyond the blood brain barrier. However, well-controlled guidance of US therapy requires fusion with a navigational modality, such as magnetic resonance imaging (MRI) or X-ray computed tomography (CT). Here, we developed and validated tissue characterization using a fusion between US and CT. The performance of the CT/US fusion was quantified by the calibration error, target registration error and fiducial registration error. Met-1 tumors in the fat pads of 12 female FVB mice provided a model of developing breast cancer with which to evaluate CT-based tissue segmentation. Hounsfield units (HU) within the tumor and surrounding fat pad were quantified, validated with histology and segmented for parametric analysis (fat: -300 to 0 HU, protein-rich: 1 to 300 HU, and bone: HU>300). Our open source CT/US fusion system differentiated soft tissue, bone and fat with a spatial accuracy of ∼1 mm. Region of interest (ROI) analysis of the tumor and surrounding fat pad using a 1 mm(2) ROI resulted in mean HU of 68±44 within the tumor and -97±52 within the fat pad adjacent to the tumor (p<0.005). The tumor area measured by CT and histology was correlated (r(2) = 0.92), while the area designated as fat decreased with increasing tumor size (r(2) = 0.51). Analysis of CT and histology images of the tumor and surrounding fat pad revealed an average percentage of fat of 65.3% vs. 75.2%, 36.5% vs. 48.4%, and 31.6% vs. 38.5% for tumors <75 mm(3), 75-150 mm(3) and >150 mm(3), respectively. Further, CT mapped bone-soft tissue interfaces near the acoustic beam during real-time imaging. Combined CT/US is a feasible method for guiding interventions by tracking the acoustic focus within a pre-acquired CT image volume and characterizing tissues proximal to and surrounding the acoustic focus.

Keywords

Hounsfield scaleFiducial markerMedicineMagnetic resonance imagingHistologyNuclear medicineBreast cancerUltrasoundRegion of interestSoft tissueRadiologyComputed tomographyCancerPathologyInternal medicine

MeSH Terms

Adipose TissueAnimalsAutomationCalibrationElectromagnetic FieldsFeasibility StudiesFemaleImage ProcessingComputer-AssistedMiceNeoplasmsOrgan SpecificityTomographyX-Ray ComputedUltrasonography

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Publication Info

Year
2011
Type
article
Volume
6
Issue
11
Pages
e27372-e27372
Citations
12
Access
Closed

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Charles F. Caskey, Mario Hlawitschka, Shengping Qin et al. (2011). An Open Environment CT-US Fusion for Tissue Segmentation during Interventional Guidance. PLoS ONE , 6 (11) , e27372-e27372. https://doi.org/10.1371/journal.pone.0027372

Identifiers

DOI
10.1371/journal.pone.0027372
PMID
22132098
PMCID
PMC3223172

Data Quality

Data completeness: 86%