Your search keyword '"Nicola Balestreri"' showing total 17 results

1. Breast tissue composition and its dependence on demographic risk factors for breast cancer: non-invasive assessment by time domain diffuse optical spectroscopy.

Author

Paola Taroni, Giovanna Quarto, Antonio Pifferi, Francesca Abbate, Nicola Balestreri, Simona Menna, Enrico Cassano, and Rinaldo Cubeddu

Subjects

Medicine, Science

Abstract

BACKGROUND:Breast tissue composition is recognized as a strong and independent risk factor for breast cancer. It is a heritable feature, but is also significantly affected by several other elements (e.g., age, menopause). Nowadays it is quantified by mammographic density, thus requiring the use of ionizing radiation. Optical techniques are absolutely non-invasive and have already proved effective in the investigation of biological tissues, as they are sensitive to tissue composition and structure. METHODS:Time domain diffuse optical spectroscopy was performed at 7 wavelengths (635-1060 nm) on 200 subjects to derive their breast tissue composition (in terms of water, lipid and collagen content), blood parameters (total hemoglobin content and oxygen saturation level), and information on the microscopic structure (scattering amplitude and power). The dependence of all optically-derived parameters on age, menopausal status, body mass index, and use of oral contraceptives, and the correlation with mammographic density were investigated. RESULTS:Younger age, premenopausal status, lower body mass index values, and use of oral contraceptives all correspond to significantly higher water, collagen and total hemoglobin content, and lower lipid content (always p < 0.05 and often p < 10-4), while oxygen saturation level and scattering parameters show significant dependence only on some conditions. Even when age-adjusted groups of subjects are compared, several optically derived parameters (and in particular always collagen and total hemoglobin content) remain significantly different. CONCLUSIONS:Time domain diffuse optical spectroscopy can probe non-invasively breast tissue composition and physiologic blood parameters, and provide information on tissue structure. The measurement is suitable for in vivo studies and monitoring of changes in breast tissue (e.g., with age, lifestyle, chemotherapy, etc.) and to gain insight into related processes, like the origin of cancer risk associated with breast density.

Published

2015

2. Breast Digital Tomosynthesis versus Contrast-Enhanced Mammography: Comparison of Diagnostic Application and Radiation Dose in a Screening Setting

Author

Luca Nicosia, Anna Carla Bozzini, Filippo Pesapane, Anna Rotili, Irene Marinucci, Giulia Signorelli, Samuele Frassoni, Vincenzo Bagnardi, Daniela Origgi, Paolo De Marco, Ida Abiuso, Claudia Sangalli, Nicola Balestreri, Giovanni Corso, Enrico Cassano, Nicosia, L, Bozzini, A, Pesapane, F, Rotili, A, Marinucci, I, Signorelli, G, Frassoni, S, Bagnardi, V, Origgi, D, De Marco, P, Abiuso, I, Sangalli, C, Balestreri, N, Corso, G, and Cassano, E

Subjects

Cancer Research, Oncology, Digital Breast Tomosynthesi, Contrast-Enhanced Mammography, Digital Breast Tomosynthesis, breast cancer screening, Average Glandular Dose

Abstract

This study aims to evaluate the Average Glandular Dose (AGD) and diagnostic performance of CEM versus Digital Mammography (DM) as well as versus DM plus one-view Digital Breast Tomosynthesis (DBT), which were performed in the same patients at short intervals of time. A preventive screening examination in high-risk asymptomatic patients between 2020 and 2022 was performed with two-view Digital Mammography (DM) projections (Cranio Caudal and Medio Lateral) plus one Digital Breast Tomosynthesis (DBT) projection (mediolateral oblique, MLO) in a single session examination. For all patients in whom we found a suspicious lesion by using DM + DBT, we performed (within two weeks) a CEM examination. AGD and compression force were compared between the diagnostic methods. All lesions identified by DM + DBT were biopsied; then, we assessed whether lesions found by DBT were also highlighted by DM alone and/or by CEM. We enrolled 49 patients with 49 lesions in the study. The median AGD was lower for DM alone than for CEM (3.41 mGy vs. 4.24 mGy, p = 0.015). The AGD for CEM was significantly lower than for the DM plus one single projection DBT protocol (4.24 mGy vs. 5.55 mGy, p < 0.001). We did not find a statistically significant difference in the median compression force between the CEM and DM + DBT. DM + DBT allows the identification of one more invasive neoplasm one in situ lesion and two high-risk lesions, compared to DM alone. The CEM, compared to DM + DBT, failed to identify only one of the high-risk lesions. According to these results, CEM could be used in the screening of asymptomatic high-risk patients.

Published

2023

3. Optical study on the dependence of breast tissue composition and structure on subject anamnesis

Author

Enrico Cassano, Antonio Pifferi, Francesca Abbate, Giovanna Quarto, Rinaldo Cubeddu, Paola Taroni, Nicola Balestreri, and Simona Menna

Subjects

Pathology, medicine.medical_specialty, Materials science, Biomaterials, breast cancer, Breast cancer, Nuclear magnetic resonance, Atomic and Molecular Physics, Nuclear Medicine and Imaging, Electronic, medicine, Mammography, Optical and Magnetic Materials, time-resolved diffuse optical imaging, tissue composition, Tissue diagnostics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Radiology, Nuclear Medicine and Imaging, Anamnesis, Breast tissue, medicine.diagnostic_test, Composition (combinatorics), medicine.disease, and Optics, Radiology, Tissue composition, Body mass index

Abstract

Time domain multi-wavelength (635 to 1060 nm) optical mammography was performed on 200 subjects to estimate their average breast tissue composition in terms of oxy- and deoxy-hemoglobin, water, lipid and collagen, and structural information, as provided by scattering parameters (amplitude and power). Significant (and often marked) dependence of tissue composition and structure on age, menopausal status, body mass index, and use of oral contraceptives was demonstrated.

Published

2015

4. Collagen content as a risk factor in breast cancer? A pilot clinical study

Author

Paola Taroni, Rinaldo Cubeddu, Enrico Cassano, Simona Menna, Antonio Pifferi, Francesca Abbate, Giovanna Quarto, and Nicola Balestreri

Subjects

Oncology, collagen, medicine.medical_specialty, Pathology, Clinical study, Biomaterials, Breast Cancer Risk Factor, Breast cancer, breast cancer, Basic research, Internal medicine, Atomic and Molecular Physics, Nuclear Medicine and Imaging, medicine, Electronic, Mammography, Optical and Magnetic Materials, Risk factor, medicine.diagnostic_test, business.industry, Tissue diagnostics, Cancer, risk assessment, time-resolved diffuse optical imaging, medicine.disease, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Radiology, Nuclear Medicine and Imaging, and Optics, business, Risk assessment, Radiology

Abstract

A retrospective pilot clinical study on time domain multi-wavelength (635 to 1060 nm) optical mammography was exploited to assess collagen as a breast-cancer risk factor on a total of 109 subjects (53 healthy and 56 with malignant lesions). An increased cancer occurrence is observed on the 15% subset of patients with higher age-matched collagen content. Further, a similar clustering based on the percentage breast density leads to a different set of patients, possibly indicating collagen as a new independent breast cancer risk factor. If confirmed statistically and on larger numbers, these results could have huge impact on personalized diagnostics, health care systems, as well as on basic research.

Published

2015

5. Optical mammography: Characterization of malignant and benign breast lesions by a perturbative model

Author

Enrico Cassano, Rinaldo Cubeddu, Lorenzo Spinelli, Simona Menna, Alessandro Torricelli, Antonio Pifferi, Paola Taroni, Francesca Abbate, Giovanna Quarto, and Nicola Balestreri

Subjects

Pathology, medicine.medical_specialty, Materials science, medicine.diagnostic_test, Breast lesions, Cancer, Healthy tissue, medicine.disease, Time-resolved imaging, medicine, Mammography, Radiology, Spectroscopy

Abstract

Benign and malignant breast lesions were characterized in terms of both absorption properties and constituent concentration by the use of a perturbative model. Differences between lesions and healthy tissue were observed. © 2014 AEIT.

Published

2014

6. Correlation between Optically-derived Tissue Parameters and Percentage Mammographic Density

Author

Paola Taroni, Enrico Cassano, Simona Menna, Antonio Pifferi, Nicola Balestreri, Francesca Abbate, Giovanna Quarto, and Rinaldo Cubeddu

Subjects

Physics, Correlation, medicine.medical_specialty, Nuclear magnetic resonance, medicine.diagnostic_test, Scattering, medicine, MAMMOGRAPHIC DENSITY, Mammography, Radiology, Breast density, Photon counting

Abstract

Strong correlation is observed between percentage mammographic density and optically-derived tissue parameters (especially water, lipids, scattering power and collagen index) that could be used for the non-invasive assessment of breast density.

Published

2014

7. Optical Characterization of Benign and Malignant Breast Lesions by Perturbative Model

Author

Simona Menna, Rinaldo Cubeddu, Lorenzo Spinelli, Enrico Cassano, Antonio Pifferi, Nicola Balestreri, Alessandro Torricelli, Giovanna Quarto, Francesca Abbate, and Paola Taroni

Subjects

tissue diagnostics, Physics, medicine.medical_specialty, medicine.diagnostic_test, Mie scattering, Healthy tissue, Photon counting, Characterization (materials science), Nuclear magnetic resonance, Photon migration, Time-resolved imaging, Radiative transfer, medicine, Mammography, Radiology, Spectroscopy

Abstract

The characterization of benign and malignant breast lesions was performed by the use of a perturbative model. Concentrations of blood, lipid, water and collagen were obtained. Differences between lesions and healthy tissue were observed.

Published

2014

8. Optical Identification of Subjects at High Risk for Developing Breast Cancer

Author

Nicola Balestreri, Francesca Ieva, Antonio Pifferi, Anna Maria Paganoni, Paola Taroni, Rinaldo Cubeddu, Enrico Cassano, Simona Menna, Giovanna Quarto, and Francesca Abbate

Subjects

Oncology, Optics and Photonics, Time Factors, genetic structures, Logistic regression, diffuse optical imaging, Hemoglobins, Risk Factors, Medicine, skin and connective tissue diseases, breast density, Early Detection of Cancer, Observer Variation, medicine.diagnostic_test, food and beverages, tissue diagnostics, breast cancer, Middle Aged, Lipids, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, tissue spectroscopy, Regression Analysis, Female, Collagen, Mammography, Adult, medicine.medical_specialty, Breast imaging, Biomedical Engineering, Breast Neoplasms, Sensitivity and Specificity, Biomaterials, Breast cancer, Internal medicine, Humans, Breast density, Aged, Probability, business.industry, X-Rays, scattering, Reproducibility of Results, medicine.disease, Oxygen, Tissue optics, Oxyhemoglobins, Optical identification, sense organs, business, absorption

Abstract

A time-domain multiwavelength (635 to 1060 nm) optical mammography was performed on 147 subjects with recent X-ray mammograms available, and average breast tissue composition (water, lipid, collagen, oxy-and deoxyhemoglobin) and scattering parameters (amplitude a and slope b) were estimated. Correlation was observed between optically derived parameters and mammographic density [Breast Imaging and Reporting Data System (BI-RADS) categories], which is a strong risk factor for breast cancer. A regression logistic model was obtained to best identify high-risk (BI-RADS 4) subjects, based on collagen content and scattering parameters. The model presents a total misclassification error of 12.3%, sensitivity of 69%, specificity of 94%, and simple kappa of 0.84, which compares favorably even with intraradiologist assignments of BI-RADS categories. © The Authors.

Published

2013

9. Effects of tissue heterogeneity on the optical estimate of breast density

Author

Serena Ganino, Francesca Abbate, Alessandro Torricelli, Giovanna Quarto, Lorenzo Spinelli, Rinaldo Cubeddu, Antonio Pifferi, Nicola Balestreri, Paola Taroni, Enrico Cassano, and Simona Menna

Subjects

ocis:(170.3830) Mammography, medicine.medical_specialty, Both breasts, ocis:(170.5280) Photon migration, ocis:(170.6935) Tissue characterization, 01 natural sciences, 010309 optics, Correlation, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Tissue heterogeneity, ocis:(170.6510) Spectroscopy, tissue diagnostics, 0103 physical sciences, medicine, Mammography, Medical physics, Time domain, Breast density, medicine.diagnostic_test, business.industry, MAMMOGRAPHIC DENSITY, medicine.disease, Atomic and Molecular Physics, and Optics, Optics of Tissue and Turbid Media, 030220 oncology & carcinogenesis, business, Biotechnology, Biomedical engineering

Abstract

Breast density is a recognized strong and independent risk factor for developing breast cancer. At present, breast density is assessed based on the radiological appearance of breast tissue, thus relying on the use of ionizing radiation. We have previously obtained encouraging preliminary results with our portable instrument for time domain optical mammography performed at 7 wavelengths (635-1060 nm). In that case, information was averaged over four images (cranio-caudal and oblique views of both breasts) available for each subject. In the present work, we tested the effectiveness of just one or few point measurements, to investigate if tissue heterogeneity significantly affects the correlation between optically derived parameters and mammographic density. Data show that parameters estimated through a single optical measurement correlate strongly with mammographic density estimated by using BIRADS categories. A central position is optimal for the measurement, but its exact location is not critical. © 2012 Optical Society of America.

Published

2012

10. Breast density assessment by means of time domain optical mammography at 635-1060 nm

Author

Nicola Balestreri, Anna Villa, Simona Menna, Antonio Pifferi, Enrico Cassano, Rinaldo Cubeddu, Alessandro Torricelli, Francesca Abbate, Giovanna Quarto, Paola Taroni, and Lorenzo Spinelli

Subjects

medicine.medical_specialty, genetic structures, medicine.diagnostic_test, Tissue diagnostics, business.industry, Optical spectroscopy, MAMMOGRAPHIC DENSITY, Breast density assessment by means of time domain optical mammography at 635-1060 nm, Tissue characterization, medicine.disease, Clinical study, Breast cancer, Photon migration, Time-resolved imaging, medicine, Mammography, Breast, sense organs, Radiology, Time domain, Breast density, Risk factor, skin and connective tissue diseases, business

Abstract

Breast density is a major risk factor for developing breast cancer. Non-invasive assessment of breast density was performed by means of time-resolved 7-wavelength (635-1060 nm) optical mammography. Good correlation was achieved between mammographic density and optically derived indexes in a clinical study that is presently ongoing and that has involved 63 subjects up to now. © 2011 SPIE-OSA.

Published

2011

11. Breast density assessment by means of time domain optical mammography at 635-1060 nm

Author

Paola Taroni, Antonio Pifferi, Giovanna Quarto, Lorenzo Spinelli, Alessandro Torricelli Rinaldo Cubeddu, Francesca Abbate, Anna Villa, Nicola Balestreri, Simona Menna, and Enrico Cassano

Published

2011

12. Noninvasive assessment of breast cancer risk using time-resolved diffuse optical spectroscopy

Author

Giovanna Quarto, Enrico Cassano, Anna Villa, Paola Taroni, Simona Menna, Francesca Abbate, Nicola Balestreri, Antonio Pifferi, Alessandro Torricelli, Rinaldo Cubeddu, and Lorenzo Spinelli

Subjects

medicine.medical_specialty, Pathology, Biomedical Engineering, Breast Neoplasms, Blood volume, Risk Assessment, Sensitivity and Specificity, Biomaterials, Breast cancer, Humans, Medicine, Mammography, Noninvasive assessment of breast cancer risk using time-resolved diffuse optical spectroscopy, Breast, Diagnosis, Computer-Assisted, Breast density, Risk factor, skin and connective tissue diseases, Spectroscopy, medicine.diagnostic_test, business.industry, Spectrum Analysis, Optical Devices, Reproducibility of Results, Cancer, Equipment Design, Middle Aged, medicine.disease, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Equipment Failure Analysis, Female, Radiology, business, Risk assessment, Densitometry

Abstract

Breast density is a recognized strong and independent risk factor for breast cancer. We propose the use of time-resolved transmittance spectroscopy to estimate breast tissue density and potentially provide even more direct information on breast cancer risk. Time-resolved optical mammography at seven wavelengths (635 to 1060 nm) is performed on 49 subjects. Average information on breast tissue of each subject is obtained on oxy- and deoxyhemoglobin, water, lipids, and collagen content, as well as scattering amplitude and power. All parameters, except for blood volume and oxygenation, correlate with mammographic breast density, even if not to the same extent. A synthetic optical index proves to be quite effective in separating different breast density categories. Finally, the estimate of collagen content as a more direct means for the assessment of breast cancer risk is discussed.

Published

2010

13. Breast Tissue Composition and Its Dependence on Demographic Risk Factors for Breast Cancer: Non-Invasive Assessment by Time Domain Diffuse Optical Spectroscopy

Author

Enrico Cassano, Rinaldo Cubeddu, Giovanna Quarto, Simona Menna, Paola Taroni, Francesca Abbate, Nicola Balestreri, and Antonio Pifferi

Subjects

Adult, Oncology, Optics and Photonics, medicine.medical_specialty, Pathology, Science, Optical spectroscopy, Breast Neoplasms, Body Mass Index, Ionizing radiation, Breast cancer, Risk Factors, Internal medicine, medicine, Humans, Tomography, Optical, Optical spectroscopy, Breast tissue, Collagens, Lipids, Hemoglobin, Breast cancer, Blood, Menopause, Mammography, Breast, Hemoglobin, Risk factor, Mammary Glands, Human, Aged, Breast Density, Demography, Breast tissue, Multidisciplinary, medicine.diagnostic_test, business.industry, Non invasive, Middle Aged, medicine.disease, Lipids, Menopause, Blood, Premenopause, Risk factors for breast cancer, Medicine, Female, business, Collagens, Research Article

Abstract

BACKGROUND:Breast tissue composition is recognized as a strong and independent risk factor for breast cancer. It is a heritable feature, but is also significantly affected by several other elements (e.g., age, menopause). Nowadays it is quantified by mammographic density, thus requiring the use of ionizing radiation. Optical techniques are absolutely non-invasive and have already proved effective in the investigation of biological tissues, as they are sensitive to tissue composition and structure. METHODS:Time domain diffuse optical spectroscopy was performed at 7 wavelengths (635-1060 nm) on 200 subjects to derive their breast tissue composition (in terms of water, lipid and collagen content), blood parameters (total hemoglobin content and oxygen saturation level), and information on the microscopic structure (scattering amplitude and power). The dependence of all optically-derived parameters on age, menopausal status, body mass index, and use of oral contraceptives, and the correlation with mammographic density were investigated. RESULTS:Younger age, premenopausal status, lower body mass index values, and use of oral contraceptives all correspond to significantly higher water, collagen and total hemoglobin content, and lower lipid content (always p < 0.05 and often p < 10-4), while oxygen saturation level and scattering parameters show significant dependence only on some conditions. Even when age-adjusted groups of subjects are compared, several optically derived parameters (and in particular always collagen and total hemoglobin content) remain significantly different. CONCLUSIONS:Time domain diffuse optical spectroscopy can probe non-invasively breast tissue composition and physiologic blood parameters, and provide information on tissue structure. The measurement is suitable for in vivo studies and monitoring of changes in breast tissue (e.g., with age, lifestyle, chemotherapy, etc.) and to gain insight into related processes, like the origin of cancer risk associated with breast density.

Published

2015

14. Analogic versus digital mammographic examination a radiological study of mammary microcalcifications on 52 surgical samples

Author

Brunella, Di Nubila, Enrico, Cassano, Daniela, Origgi, Roberto, Treviganti, Anna, Bozzini, Fernigliaro, Cernigliaro, Barbara, Faissola, Lorenza, Meneghetti, Giuseppe, Renne, Nicola, Balestreri, Alberto, Luini, and Massimo, Bellomi

Subjects

Radiographic Image Enhancement, Breast Diseases, Calcinosis, Humans, Mammography

Abstract

Digital mammography is known to have lower spatial resolution compared to conventional analogic mammography. The aim of this study was to evaluate whether this physical feature could compromise the perception of microcalcifications in radiological findings.Fifty-two surgical samples of non-palpable breast lesions with microcalcifications were imaged using both techniques. The images were examined by four different radiologists. Data processing was limited to comparing the number of microcalcifications found on the conventional and digital images, in both standard and magnified modality. The cases were classified into 3 groups according to the number of calcifications demonstrated in the surgical sample: less than 10, 10 to 30, and more than 30. The differences in the count of microcalcifications with the two acquisition modalities were evaluated with the Kappa test. In order to compare the differences we synthesised by percentage those cases exhibiting a larger or lesser number of calcifications.The Kappa test was 0.546 in standard analogic vs standard digital, 0.582 in magnified analogic vs magnified digital, 0.828 in standard analogic vs magnified analogic and 0.492 in standard digital vs magnified digital. The most significant results were observed on comparing the magnifications produced with the two modalities: in 25% of cases, digital magnification detected more calcifications than did traditional magnification. The number of cases where standard digital images allowed the detection of more calcifications than standard analogic images was significant, although less important (17.8%).The study was able to provide data that confirm the overall equivalence of the two techniques, as far as subtle mammographic findings (such as microcalcifications) are concerned. In particular, as applied to the series we examined, there is a cautious advantage in favour of the digital technique. More clinical studies, on larger series, will be necessary for a further and more thorough comparison of the two techniques, so that the results might be consistently useful in clinical practice.

Published

2003

15. Estimate of tissue composition in malignant and benign breast lesions by time-domain optical mammography

Author

Enrico Cassano, Antonio Pifferi, Paola Taroni, Giovanna Quarto, Rinaldo Cubeddu, Alessandro Torricelli, Francesca Abbate, Lorenzo Spinelli, Nicola Balestreri, and Simona Menna

Subjects

Pathology, medicine.medical_specialty, medicine.diagnostic_test, business.industry, CANCER DETECTION, Healthy tissue, Tissue characterization, Article, Atomic and Molecular Physics, and Optics, Lesion, DIFFUSION EQUATION, medicine, Mammography, medicine.symptom, Tissue composition, business, NEAR-INFRARED TOMOGRAPHY, Biotechnology

Abstract

The optical characterization of malignant and benign breast lesions is presented. Time-resolved transmittance measurements were performed in the 630-1060 nm range by means of a 7-wavelength optical mammograph, providing both imaging and spectroscopy information. A total of 62 lesions were analyzed, including 33 malignant and 29 benign lesions. The characterization of breast lesions was performed applying a perturbation model based on the high-order calculation of the pathlength of photons inside the lesion, which led to the assessment of oxy- and deoxy-hemoglobin, lipids, water and collagen concentrations. Significant variations between tumor and healthy tissue were observed in terms of both absorption properties and constituents concentration. In particular, benign lesions and tumors show a statistically significant discrimination in terms of absorption at several wavelengths and also in terms of oxy-hemoglobin and collagen content.

Published

2014

16. Optical assessment of breast density and its dependence on tissue heterogeneity

Author

Paola Taroni, Simona Menna, Alessandro Torricelli, Giovanna Quarto, Antonio Pifferi, Enrico Cassano, Lorenzo Spinelli, Nicola Balestreri, Rinaldo Cubeddu, and Francesca Abbate

Subjects

Physics, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Mie scattering, Photon counting, Optics, Tissue heterogeneity, medicine, Mammography, Medical physics, Time domain, Breast density, Single point, business

Abstract

The optical assessment of breast density was effectively performed using time domain 7-wavelength (635-1060 nm) optical mammography. Notwithstanding tissue heterogeneity, BI-RADS categories can be discriminated even with a single point measurement.

17. Noninvasive assessment of breast cancer risk using time-resolved diffuse optical spectroscopy.

Author

Paola Taroni, Antonio Pifferi, Giovanna Quarto, Lorenzo Spinelli, Alessandro Torricelli, Francesca Abbate, Anna Villa, Nicola Balestreri, Simona Menna, Enrico Cassano, and Rinaldo Cubeddu

Subjects

NONINVASIVE diagnostic tests, BREAST cancer risk factors, TIME-resolved spectroscopy, MAMMOGRAMS, OXYHEMOGLOBIN, COLLAGEN, REFRACTIVE index

Abstract

Breast density is a recognized strong and independent risk factor for breast cancer. We propose the use of time-resolved transmittance spectroscopy to estimate breast tissue density and potentially provide even more direct information on breast cancer risk. Time-resolved optical mammography at seven wavelengths (635 to 1060 nm) is performed on 49 subjects. Average information on breast tissue of each subject is obtained on oxy- and deoxyhemoglobin, water, lipids, and collagen content, as well as scattering amplitude and power. All parameters, except for blood volume and oxygenation, correlate with mammographic breast density, even if not to the same extent. A synthetic optical index proves to be quite effective in separating different breast density categories. Finally, the estimate of collagen content as a more direct means for the assessment of breast cancer risk is discussed. [ABSTRACT FROM AUTHOR]

Published

2010