Computed tomographic colonography (CTC), or virtual colonoscopy (VC), has been confirmed as a viable and cost-effective alternative to optical colonoscopy for colon cancer screening by large-scale and multi-center clinical trials. Cathartic bowel preparation is one of the major drawbacks for the wide acceptance of CTC as a mass screening tool. The main technical barrier to applying non-cathartic bowel preparation to CTC examination (ncCTC) is the lack of an accurate visualization method to subtraction of tagged fecal residuals in CTC images. Current solution is applying an image processing method named electronic cleansing (EC), or digital bowel cleansing, for removing tagged fecal regions in CTC images after image acquisition. However, an accurate and artifact-free EC solution has not been found in clinical research, in particularly for ncCTC. Applying dual-energy CT (DE-CT) to ncCTC image acquisition (nc-DE-CTC) provides a promising solution to differentiating tagged fecal materials from colonic soft-tissue structures. However, current EC methods in DE-CTC utilize only the differences in Hounsfield (HU) value to characterize tagged fecal materials. These methods are thus heuristic and incomplete to overcome the major EC artifacts in nc-DE-CTC. Based on our recent finding that the DE-CT derived effective atomic numbers (Zeff) by fractions of atomic mass number are substantially higher in air and iodine-tagged fecal materials (the two substitutes in colonic lumen) than those in soft tissue and fat, we will develop an innovative dual-energy EC (DE-EC) method, named ZEC, by utilization of a Zeff transfer function for direct visualization of the colonic soft-tissue structures and suppression of tagged fecal materials without explicit segmentation and removal of tagged fecal materials in CTC images. The central hypothesis is that the DE-CT derived effective atomic number (Zeff) is an accurate physical parameter for characterizing colonic lumen (air and the tagged fecal residuals) from colonic soft-tissue structures in nc-DE-CTC images, which provides the physical model for the development of the proposed ZEC method. The primary aim is to develop a Zeff-based DE-EC scheme for direct visualization of nc-DE-CTC images without applying explicit segmentation of tagged fecal regions in conventional EC, and to evaluate the performance of the proposed ZEC scheme in reading of nc-DE-CTC in reference to the ?ground truth? established by optical colonoscopy. The successful development and validation of the proposed ZEC scheme will deliver an accurate and efficient solution for artifact-free visualization of ncCTC images, substantially improve patient adherence and compliance to undergoing CTC examination, and thus promote the acceptance of CTC as a highly reliable and cost-effective colon cancer screening strategy.

Public Health Relevance

Dual-energy CT colonography (DE-CTC) is a promising imaging modality to overcome the main technical barrier to applying non-cathartic bowel preparation to CTC examination by using the material differentiation ability of DE-CT in the electronic cleansing (EC) of tagged fecal residuals. Based on our recent finding that the DE-CT derived effective atomic numbers (Zeff) by fractions of atomic mass number are substantially higher in air and iodine-tagged fecal materials (the two substitutes in colonic lumen) than those in soft tissue and fat, we will develop an innovative dual-energy electronic cleansing (EC) method based on Zeff, named ZEC, for direct visualization of the entire colonic mucosal surface including those submerged in tagged fecal residuals using a Zeff transfer function that suppresses the visibility of colonic lumen including both air and tagged fecal materials without explicit segmentation and removal of tagged fecal regions in CTC images. The performance of the proposed ZEC will be evaluated using non-cathartic sub-mSv (ultralow dose) dual-energy CTC cases.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Small Research Grants (R03)
Project #
1R03CA223711-01
Application #
9442300
Study Section
Special Emphasis Panel (ZCA1)
Program Officer
Tata, Darayash B
Project Start
2018-01-08
Project End
2019-12-31
Budget Start
2018-01-08
Budget End
2018-12-31
Support Year
1
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code