Phantom study to evaluate contrast‐medium‐enhanced digital subtraction mammography with a full‐field indirect‐detection system

Palma, B. A.; Rosado-Méndez, Iván M.; Villaseñor, Yolanda; Brandan, M. E.

doi:10.1118/1.3276733

Cited by 19 publications

(9 citation statements)

References 43 publications

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“…5 Our group has proposed a combination of both schemes called DE temporal (DET) 6 which offers advantages in the contrast-to-noise ratio of the resulting image; this proposal has been validated by data from a homogeneous phantom. 7 Under optimum performance of the technique, both subtraction modalities, SET and DET-if applied to the same set of images containing a given amount of iodine-should deliver equivalent results in terms of contrast, which under appropriate calibration can be translated into CM mass thickness.…”

Section: Introductionmentioning

confidence: 99%

Clinical study of contrast-enhanced digital mammography and the evaluation of blood and lymphatic microvessel density

Brandan

Cruz‐Bastida

Rosado-Méndez

et al. 2016

BJR

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Objective: To correlate image parameters in contrastenhanced digital mammography (CEDM) with blood and lymphatic microvessel density (MVD). Methods: 18 Breast Imaging-Reporting and Data System (BI-RADS)-4 to BI-RADS-5 patients were subjected to CEDM. Craniocaudal views were acquired, two views (low and high energy) before iodine contrast medium (CM) injection and four views (high energy) 1-5 min afterwards. Processing included registration and two subtraction modalities, traditional single-energy temporal (highenergy) and "dual-energy temporal with a matrix", proposed to improve lesion conspicuity. Images were calibrated into iodine thickness, and iodine uptake, contrast, time-intensity and time-contrast kinetic curves were quantified. Image indicators were compared with MVD evaluated by anti-CD105 and anti-podoplanin (D2-40) immunohistochemistry. Results: 11 lesions were cancerous and 7 were benign. CEDM subtraction strongly increased conspicuity of lesions enhanced by iodine uptake. A strong correlation was observed between lymphatic vessels and blood vessels; all benign lesions had ,30 blood microvessels per field, and all cancers had more than this value. MVD showed no correlation with iodine uptake, nor with contrast. The most frequent curve was early uptake followed by plateau for uptake and contrast in benign and malignant lesions. The positive-predictive value of uptake dynamics was 73% and that of contrast was 64%. Conclusion: CEDM increased lesion visibility and showed additional features compared with conventional mammography. Lack of correlation between image parameters and MVD is probably due to tumour tissue heterogeneity, mammography projective nature and/or dependence of extracellular iodine irrigation on tissue composition. Advances in knowledge: Quantitative analysis of CEDM images was performed. Image parameters and MVD showed no correlation. Probably, this is indication of the complex dependence of CM perfusion on tumour microenvironment.

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Section: Introductionmentioning

confidence: 99%

Clinical study of contrast-enhanced digital mammography and the evaluation of blood and lymphatic microvessel density

Brandan

Cruz‐Bastida

Rosado-Méndez

et al. 2016

BJR

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“…The optimization was done via the Figure of Merit (FOM) that weights image quality by the dose delivered in the study [10]. The FOM was defined as , 2 ( 2 ) where CNR was the contrast-to-noise ratio and D was the absorbed dose, and applied to subtracted images of the iodinated phantoms.…”

Section: Radiological Technique Optimizationmentioning

confidence: 99%

A method to optimize the image acquisition protocol of a MicroCT unit for preclinical studies using contrast-enhanced digital subtraction

Berumen

Ayala-Domínguez

Medina

et al. 2016

AIP Conference Proceedings

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“…Studies using phantoms containing appropriate iodine concentrations to investigate the relationship between image quality metrics and iodine concentrations, have primarily focused on the optimization procedures (5,6,(14)(15)(16)(17)(18)(19)(20). Only a few studies have addressed the quantitative calibration of the iodine concentration and image quality metrics in contrast-enhanced digital mammography (CEDM).…”

Section: Introductionmentioning

confidence: 99%

Susceptibility of iodine concentration map of dual-energy contrast-enhanced digital mammography for quantitative and tumor enhancement assessment

et al. 2017

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Background Dual-energy (DE) contrast-enhanced digital mammography (DE-CEDM) provides additional information on tumor angiogenesis. Purpose To investigate the susceptibility of reconstructing color-coded iodine concentration maps on the basis of quantitative calibrations of the iodine concentration and contrast-to-noise ratio (CNR) in DE-CEDM applications. Material and Methods A custom-made phantom filled with iodine concentrations in the range of 0.1-10 mg/cm was used in calibrations. All DE images were acquired using the GE Senographe Essential system. From DE subtraction images, the image contrast and CNR were obtained, and the quantitative relationship between these two metrics and the iodine concentration at each phantom thickness was investigated. The quantitative CNR calibration curves were applied to reconstruct color-coded iodine maps on a pixel-by-pixel basis. Results Both the mean contrast and mean CNR increased linearly with the iodine concentration. The iodine concentration estimated from the iodine map reconstructed from quantitative CNR calibrations was highly consistent with the desired iodine concentration (R= 0.989), and smaller relative errors (in the range of 3.0-19.5%) were observed with iodine concentrations not less than 1 mg/cm. Conclusion An iodine concentration map could be reconstructed based on the linear relationship between the CNR and iodine concentration. From the color-coded iodine concentration map, the contrast medium enhancement phenomenon could be further estimated quantitatively, and tumor enhancement patterns could be easily observed.

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Phantom study to evaluate contrast‐medium‐enhanced digital subtraction mammography with a full‐field indirect‐detection system

Cited by 19 publications

References 43 publications

Clinical study of contrast-enhanced digital mammography and the evaluation of blood and lymphatic microvessel density

Clinical study of contrast-enhanced digital mammography and the evaluation of blood and lymphatic microvessel density

A method to optimize the image acquisition protocol of a MicroCT unit for preclinical studies using contrast-enhanced digital subtraction

Susceptibility of iodine concentration map of dual-energy contrast-enhanced digital mammography for quantitative and tumor enhancement assessment

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