Diffusion-weighted imaging (DWI) is a short (under 5 minutes) non-contrast MRI technique that has shown promise for the detection and characterization of breast cancer. Our preliminary data has shown that DWI holds potential for detecting mammographically and clinically-occult breast cancers. However, current technical limitations reduce the sensitivity of DWI for screening applications. The identification of a screening tool to complement mammography that is more accurate than ultrasound and faster, less expensive, and safer than conventional contrast-enhanced MRI would have significant clinical impact by improving the early detection of cancer in women with dense breasts. We hypothesize that an optimized DWI approach will enable detection of mammographically occult breast cancer in women with dense breasts with high sensitivity and low false positive rate.
Hypothesis: With technical optimizations, non-contrast DWI can detect clinically and mammographically occult breast cancer in women with dense breasts with high sensitivity and low false positive rate. Aim 1: Improve the breast DWI technique to maximize spatial resolution, reduce distortion, and increase lesion contrast. * Develop novel DWI acquisition to increase spatial resolution and reduce distortion (using reduced field of-view and/or multishot echo planar imaging techniques) * Identify optimal diffusion sensitization (b-value) to maximize conspicuity of cancers in women with dense breasts Aim 2: Develop interpretation tools to optimize diagnostic performance for detecting cancer on DWI. * Determine quantitative DWI thresholds (contrast-to-noise ratio, apparent diffusion coefficient \[ADC\]) that best differentiate benign and malignant lesions (i.e. maximize sensitivity and specificity) * Develop computer aided assessment tools to facilitate clinical implementation and optimize reader accuracy Aim 3: Test the performance of the optimized DWI approach for detecting clinically and mammographically-occult cancer in women with dense breasts. * Conduct a controlled reader study of non-contrast DWI alone for breast cancer detection * Perform receiver operating characteristic (ROC) analysis and determine the sensitivity and specificity for detection of mammographically occult cancer
Study Type
OBSERVATIONAL
Enrollment
269
Diffusion-weighted imaging (DWI) is a non-contrast MRI technique that typically can be acquired in under 5 minutes. DWI reflects the microscopic cellular environment and can demonstrate differences between normal and malignant breast tissue without the aid of intravenous gadolinium.
Non-contrast MRI scans will include DWI along with anatomical T1-weighted and T2-weighted sequences.
Oregon Health & Science University
Portland, Oregon, United States
Seattle Cancer Care Alliance
Seattle, Washington, United States
Diffusion sensitization (b value)
Identify optimal b value to maximize conspicuity of cancers in women with dense breasts
Time frame: 2.5 years
Reader Interpretation strategy
Identify optimal ADC thresholds to differentiate malignant from benign lesions
Time frame: 3.5 years
Specificity
Specificity will be assessed for non-contrast DWI
Time frame: 4.5 years
Sensitivity
Sensitivity will be assessed for non-contrast DWI
Time frame: 4.5 years
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