Breast density quantification using magnetic resonance imaging (MRI) with bias field correction: A postmortem study

Ding, Huanjun; Johnson, T; Lin, Muqing; Lê, Huy; Ducote, Justin L.; Su, Min‐Ying; Molloi, Sabee

doi:10.1118/1.4831967

Cited by 11 publications

(10 citation statements)

References 51 publications

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“…Precision was determined using a right and left breast density comparison. 33,41 Chemical analysis was used as a reference gold standard to determine the accuracy. 33 Breast density estimation from radiologist reader assessment showed considerable reader variability, which is in agreement with previous reports.…”

Section: Discussionmentioning

confidence: 99%

“…A dual energy mammography technique for breast density measurement has previously been validated in phantoms. 40,41 The purpose of the current study was to validate the dual energy breast density technique using chemical analysis as the reference gold standard. A comparison was also made between breast density estimation using radiologist reader assessment, histogram threshold segmentation, and fuzzy C-mean segmentation.…”

Section: Introductionmentioning

confidence: 99%

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Postmortem validation of breast density using dual‐energy mammography

et al. 2014

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Postmortem validation of breast density using dual‐energy mammography

et al. 2014

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“…Other 3D approaches using mammography exist and also become more common, but are often proprietary [19,53] or may require in-image phantoms [18]. Studies using 3D imaging modalities also continue, with MRI [54,55] as well as 3D digital breast tomosynthesis [56], though neither of these modalities are standard for breast cancer screening. Furthermore, with the exception of Seo et al and Japanese references mentioned in the introduction above, all aforementioned studies have looked at American, European, and Australian populations only, making our study distinctive in terms of population as well.…”

Section: Discussionmentioning

confidence: 99%

Automatic Estimation of Volumetric Breast Density Using Artificial Neural Network-Based Calibration of Full-Field Digital Mammography: Feasibility on Japanese Women With and Without Breast Cancer

et al. 2016

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Breast cancer is the most common invasive cancer among women and its incidence is increasing. Risk assessment is valuable and recent methods are incorporating novel biomarkers such as mammographic density. Artificial neural networks (ANN) are adaptive algorithms capable of performing pattern-to-pattern learning and are well suited for medical applications. They are potentially useful for calibrating full-field digital mammography (FFDM) for quantitative analysis. This study uses ANN modeling to estimate volumetric breast density (VBD) from FFDM on Japanese women with and without breast cancer. ANN calibration of VBD was performed using phantom data for one FFDM system. Mammograms of 46 Japanese women diagnosed with invasive carcinoma and 53 with negative findings were analyzed using ANN models learned. ANN-estimated VBD was validated against phantom data, compared intra-patient, with qualitative composition scoring, with MRI VBD, and interpatient with classical risk factors of breast cancer as well as cancer status. Phantom validations reached an R 2 of 0.993. Intra-patient validations ranged from R 2 of 0.789 with VBD to 0.908 with breast volume. ANN VBD agreed well with BI-RADS scoring and MRI VBD with R 2 ranging from 0.665 with VBD to 0.852 with breast volume. VBD was significantly higher in women with cancer. Associations with age, BMI, menopause, and cancer status previously reported were also confirmed. ANN modeling appears to produce reasonable measures of mammographic density validated with phantoms, with existing measures of breast density, and with classical biomarkers of breast cancer. FFDM VBD is significantly higher in Japanese women with cancer.

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“…Breast tomosynthesis (42), MRI (43, 44) and CT (35, 45, 46) can also be used for breast density measurement. The tomographic nature of these techniques reduces the anatomical background, which simplifies segmentation of fibroglandular and adipose tissues as compared with standard digital mammography.…”

Section: Discussionmentioning

confidence: 99%

Breast Density Evaluation Using Spectral Mammography, Radiologist Reader Assessment, and Segmentation Techniques

Molloi¹,

Ding²,

Feig³

2015

Academic Radiology

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Purpose The purpose of this study was to compare the precision of mammographic breast density measurement using radiologist reader assessment, histogram threshold segmentation, fuzzy C-mean segmentation and spectral material decomposition. Materials and Methods Spectral mammography images from a total of 92 consecutive asymptomatic women (50–69 years old) who presented for annual screening mammography were retrospectively analyzed for this study. Breast density was estimated using 10 radiologist reader assessment, standard histogram thresholding, fuzzy C-mean algorithm and spectral material decomposition. The breast density correlation between left and right breasts was used to assess the precision of these techniques to measure breast composition relative to dual-energy material decomposition. Results In comparison to the other techniques, the results of breast density measurements using dual-energy material decomposition showed the highest correlation. The relative standard error of estimate for breast density measurements from left and right breasts using radiologist reader assessment, standard histogram thresholding, fuzzy C-mean algorithm and dual-energy material decomposition was calculated to be 1.95, 2.87, 2.07 and 1.00, respectively. Conclusion The results indicate that the precision of dual-energy material decomposition was approximately factor of two higher than the other techniques with regard to better correlation of breast density measurements from right and left breasts.

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Breast density quantification using magnetic resonance imaging (MRI) with bias field correction: A postmortem study

Cited by 11 publications

References 51 publications

Postmortem validation of breast density using dual‐energy mammography

Postmortem validation of breast density using dual‐energy mammography

Automatic Estimation of Volumetric Breast Density Using Artificial Neural Network-Based Calibration of Full-Field Digital Mammography: Feasibility on Japanese Women With and Without Breast Cancer

Breast Density Evaluation Using Spectral Mammography, Radiologist Reader Assessment, and Segmentation Techniques

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