Your search keyword '"Barufaldi, Bruno"' showing total 224 results

1. Convolutional Neural Network Model Observers Discount Signal-like Anatomical Structures During Search in Virtual Digital Breast Tomosynthesis Phantoms

Author

Jonnalagadda, Aditya, Barufaldi, Bruno B., Maidment, Andrew D. A., Weinstein, Susan P., Abbey, Craig K., and Eckstein, Miguel P.

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition

Abstract

Model observers are computational tools to evaluate and optimize task-based medical image quality. Linear model observers, such as the Channelized Hotelling Observer (CHO), predict human accuracy in detection tasks with a few possible signal locations in clinical phantoms or real anatomic backgrounds. In recent years, Convolutional Neural Networks (CNNs) have been proposed as a new type of model observer. What is not well understood is what CNNs add over the more common linear model observer approaches. We compare the CHO and CNN detection accuracy to the radiologist's accuracy in searching for two types of signals (mass and microcalcification) embedded in 2D/3D breast tomosynthesis phantoms (DBT). We show that the CHO model's accuracy is comparable to the CNN's performance for a location-known-exactly detection task. However, for the search task with 2D/3D DBT phantoms, the CHO's detection accuracy was significantly lower than the CNN accuracy. A comparison to the radiologist's accuracy showed that the CNN but not the CHO could match or exceed the radiologist's accuracy in the 2D microcalcification and 3D mass search conditions. An analysis of the eye position showed that radiologists fixated more often and longer at the locations corresponding to CNN false positives. Most CHO false positives were the phantom's normal anatomy and were not fixated by radiologists. In conclusion, we show that CNNs can be used as an anthropomorphic model observer for the search task for which traditional linear model observers fail due to their inability to discount false positives arising from the anatomical backgrounds., Comment: This work has been submitted to the IEEE for possible publication

Published

2024

2. Impact of super-resolution and image acquisition on the detection of calcifications in digital breast tomosynthesis

Author

Barufaldi, Bruno, Acciavatti, Raymond J., Conant, Emily F., and Maidment, Andrew D. A.

Published

2024

3. Toward widespread use of virtual trials in medical imaging innovation and regulatory science.

Author

Abadi, Ehsan, Barufaldi, Bruno, Lago, Miguel, Badal, Andreu, Mello‐Thoms, Claudia, Bottenus, Nick, Wangerin, Kristen A., Goldburgh, Mitchell, Tarbox, Lawrence, Beaucage‐Gauvreau, Erica, Frangi, Alejandro F., Maidment, Andrew, Kinahan, Paul E., Bosmans, Hilde, and Samei, Ehsan

Subjects

*DIAGNOSTIC imaging, *SCIENTIFIC community, *MEDICAL innovations, *MEDICAL informatics, *MEDICAL simulation

Abstract

The rapid advancement in the field of medical imaging presents a challenge in keeping up to date with the necessary objective evaluations and optimizations for safe and effective use in clinical settings. These evaluations are traditionally done using clinical imaging trials, which while effective, pose several limitations including high costs, ethical considerations for repetitive experiments, time constraints, and lack of ground truth. To tackle these issues, virtual trials (aka in silico trials) have emerged as a promising alternative, using computational models of human subjects and imaging devices, and observer models/analysis to carry out experiments. To facilitate the widespread use of virtual trials within the medical imaging research community, a major need is to establish a common consensus framework that all can use. Based on the ongoing efforts of an AAPM Task Group (TG387), this article provides a comprehensive overview of the requirements for establishing virtual imaging trial frameworks, paving the way toward their widespread use within the medical imaging research community. These requirements include credibility, reproducibility, and accessibility. Credibility assessment involves verification, validation, uncertainty quantification, and sensitivity analysis, ensuring the accuracy and realism of computational models. A proper credibility assessment requires a clear context of use and the questions that the study is intended to objectively answer. For reproducibility and accessibility, this article highlights the need for detailed documentation, user‐friendly software packages, and standard input/output formats. Challenges in data and software sharing, including proprietary data and inconsistent file formats, are discussed. Recommended solutions to enhance accessibility include containerized environments and data‐sharing hubs, along with following standards such as CDISC (Clinical Data Interchange Standards Consortium). By addressing challenges associated with credibility, reproducibility, and accessibility, virtual imaging trials can be positioned as a powerful and inclusive resource, advancing medical imaging innovation and regulatory science. [ABSTRACT FROM AUTHOR]

Published

2024

4. Exploring advanced 2D acquisitions in breast tomosynthesis: T-shaped and pentagon geometries

Author

Singh, Priyash, primary, Choi, Jeongin, additional, Barufaldi, Bruno, additional, Maidment, Andrew D., additional, and Acciavatti, Raymond J., additional

Published

2024

5. Developing an image-domain transformation technique for adapting deep learning algorithms: preliminary work using simulated tomosynthesis of breast patches

Author

Hossain, Md Belayat, primary, Barufaldi, Bruno, additional, Maidment, Andrew D. A., additional, Nishikawa, Robert M., additional, and Lee, Juhun, additional

Published

2024

6. Representation of complex mammary parenchyma texture in tomosynthesis using simplex noise simulations

Author

Barufaldi, Bruno, primary, Choi, Chloe J., additional, Teixeira, Joao P. V., additional, Dustler, Magnus, additional, Englander, Raphael B., additional, do Rego, Thais G., additional, Malheiros, Yuri B., additional, Silva Filho, Telmo M., additional, Hossain, Belayat, additional, Lee, Juhun, additional, and Maidment, Andrew D. A., additional

Published

2024

7. Investigations on a Computer Application for Tracking the Mean Glandular Breast Dose Profile in Mammography

Author

Schiabel, Homero, Barufaldi, Bruno, Ruberti Filha, Eny M., Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Henriques, Jorge, editor, Neves, Nuno, editor, and de Carvalho, Paulo, editor

Published

2020

8. Characterization of the imaging settings in screening mammography using a tracking and reporting system: A multi-center and multi-vendor analysis

Author

Barufaldi, Bruno, Zuckerman, Samantha P., Medeiros, Regina B., Maidment, Andrew D., and Schiabel, Homero

Published

2020

9. Non-Isocentric Geometry for Next-Generation Tomosynthesis With Super-Resolution

Author

Acciavatti, Raymond J., primary, Choi, Chloe J., additional, Vent, Trevor L., additional, Barufaldi, Bruno, additional, Cohen, Eric A., additional, Wileyto, E. Paul, additional, and Maidment, Andrew D. A., additional

Published

2024

10. Design and implementation of a radiation dose tracking and reporting system for mammography and digital breast tomosynthesis

Author

Barufaldi, Bruno, Schiabel, Homero, and Maidment, Andrew D.A.

Published

2019

11. Impact of super-resolution and image acquisition on the detection of calcifications in digital breast tomosynthesis

Author

Barufaldi, Bruno, primary, Acciavatti, Raymond J., additional, Conant, Emily F., additional, and Maidment, Andrew D. A., additional

Published

2023

12. Assessing satisfaction of search in virtual mammograms for experienced and novice searchers

Author

Adamo, Stephen H., primary, Roque, Nelson, additional, Barufaldi, Bruno, additional, Schmidt, Joseph, additional, Mello-Thoms, Claudia, additional, and Lago, Miguel, additional

Published

2023

13. Impact of Tomosynthesis Acquisition on 3D Segmentations of Breast Outline and Adipose/Dense Tissue with AI: A Simulation-Based Study

Author

Barufaldi, Bruno, primary, Gomes, Jordy, additional, Rego, Thais G. do, additional, Malheiros, Yuri, additional, Filho, Telmo M. Silva, additional, Borges, Lucas R., additional, Acciavatti, Raymond J., additional, Surti, Suleman, additional, and Maidment, Andrew D. A., additional

Published

2023

14. The Effect of Breast Composition on a No-reference Anisotropic Quality Index for Digital Mammography

Author

Barufaldi, Bruno, Borges, Lucas R., Vieira, Marcelo A. C., Gabarda, Salvador, Maidment, Andrew D. A., Bakic, Predrag R., Pokrajac, David D., Schiabel, Homero, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Tingberg, Anders, editor, Lång, Kristina, editor, and Timberg, Pontus, editor

Published

2016

15. Summary of Outcomes from Consecutive Years of Tomosynthesis Screening at an American Academic Institution

Author

Conant, Emily F., Oustimov, Andrew, Zuckerman, Samantha P., McDonald, Elizabeth S., Weinstein, Susan P., Maidment, Andrew D. A., Barufaldi, Bruno, Synnestvedt, Marie, Schnall, Mitchell, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Tingberg, Anders, editor, Lång, Kristina, editor, and Timberg, Pontus, editor

Published

2016

16. Explainable radiomics to characterize breast density and tissue complexity: preliminary findings

Author

Giger, Maryellen L., Whitney, Heather M., Drukker, Karen, Li, Hui, Dong, Vincent, Barufaldi, Bruno, Mankowski, Walter, Silva Filho, Telmo M., McCarthy, Anne Marie, Kontos, Despina, and Maidment, Andrew D. A.

Published

2024

17. Developing an image-domain transformation technique for adapting deep learning algorithms: preliminary work using simulated tomosynthesis of breast patches

Author

Chen, Weijie, Astley, Susan M., Hossain, Md Belayat, Barufaldi, Bruno, Maidment, Andrew D. A., Nishikawa, Robert M., and Lee, Juhun

Published

2024

18. Investigations on a Computer Application for Tracking the Mean Glandular Breast Dose Profile in Mammography

Author

Schiabel, Homero, primary, Barufaldi, Bruno, additional, and Ruberti Filha, Eny M., additional

Published

2019

19. Computational method to artificially insert clusters of microcalcifications in digital breast tomosynthesis

Author

de Barros Vimieiro, Rodrigo, primary, Borges, Lucas Rodrigues, additional, Barufaldi, Bruno, additional, Maidment, Andrew D. A., additional, F. Caron, Renato, additional, M. P. S. Sabino, Silvia, additional, Wang, Ge, additional, and Vieira, Marcelo A. C., additional

Published

2023

20. Multiclass Segmentation of Breast Tissue and Suspicious Findings: A Simulation-Based Study for the Development of Self-Steering Tomosynthesis.

Author

Barufaldi, Bruno, da Nobrega, Yann N. G., Carvalhal, Giulia, Teixeira, Joao P. V., Silva Filho, Telmo M., do Rego, Thais G., Malheiros, Yuri, Acciavatti, Raymond J., and Maidment, Andrew D. A.

Subjects

BREAST, TOMOSYNTHESIS, THREE-dimensional imaging, IMAGE analysis, BREAST imaging

Abstract

In breast tomosynthesis, multiple low-dose projections are acquired in a single scanning direction over a limited angular range to produce cross-sectional planes through the breast for three-dimensional imaging interpretation. We built a next-generation tomosynthesis system capable of multidirectional source motion with the intent to customize scanning motions around "suspicious findings". Customized acquisitions can improve the image quality in areas that require increased scrutiny, such as breast cancers, architectural distortions, and dense clusters. In this paper, virtual clinical trial techniques were used to analyze whether a finding or area at high risk of masking cancers can be detected in a single low-dose projection and thus be used for motion planning. This represents a step towards customizing the subsequent low-dose projection acquisitions autonomously, guided by the first low-dose projection; we call this technique "self-steering tomosynthesis." A U-Net was used to classify the low-dose projections into "risk classes" in simulated breasts with soft-tissue lesions; class probabilities were modified using post hoc Dirichlet calibration (DC). DC improved the multiclass segmentation (Dice = 0.43 vs. 0.28 before DC) and significantly reduced false positives (FPs) from the class of the highest risk of masking (sensitivity = 81.3% at 2 FPs per image vs. 76.0%). This simulation-based study demonstrated the feasibility of identifying suspicious areas using a single low-dose projection for self-steering tomosynthesis. [ABSTRACT FROM AUTHOR]

Published

2023

21. Assessment of video frame interpolation network to generate digital breast tomosynthesis projections

Author

Costa, Arthur C., primary, de Barros Vimieiro, Rodrigo, additional, Borges, Lucas R., additional, Barufaldi, Bruno, additional, Maidment, Andrew D., additional, and Vieira, Marcelo, additional

Published

2022

22. Multiclass segmentation of suspicious findings in simulated breast tomosynthesis images using a U-Net

Author

da Nobrega, Yann N., primary, Carvalhal, Giulia, additional, Teixeira, Joao P., additional, de Camargo, Barbara P., additional, do Rego, Thais G., additional, Almeida, Yuri A., additional, Silva Filho, Telmo M., additional, Vent, Trevor L., additional, Acciavatti, Raymond J., additional, Maidment, Andrew D., additional, and Barufaldi, Bruno, additional

Published

2022

23. Suppressing noise correlation in digital breast tomosynthesis using convolutional neural network and virtual clinical trials

Author

Vimieiro, Rodrigo B., primary, Borges, Lucas R., additional, Caron, Renato F., additional, Barufaldi, Bruno, additional, Maidment, Andrew D., additional, Wang, Ge, additional, and Vieira, Marcelo A., additional

Published

2022

24. Using virtual clinical trials to assess objective image quality metrics in the task of microcalcification localization in digital mammography

Author

Soares, Lucas, primary, Borges, Lucas, additional, Barufaldi, Bruno, additional, Maidment, Andrew, additional, and Vieira, Marcelo A., additional

Published

2022

25. Spatial dependency of lesion detectability in digital breast tomosynthesis

Author

Choi, Chloe J., primary, Barufaldi, Bruno, additional, Teixeira, João P., additional, Acciavatti, Raymond J., additional, and Maidment, Andrew D., additional

Published

2022

26. Pre-clinical evaluation and optimization of image quality for a next generation tomosynthesis prototype

Author

Vent, Trevor L., primary, Acciavatti, Raymond J., additional, Choi, Chloe J., additional, Barufaldi, Bruno, additional, Krishnamoorthy, Srilalan, additional, Borges, Lucas R., additional, Kuo, Johnny, additional, Ringer, Peter, additional, Ng, Susan, additional, Surti, Suleman, additional, and Maidment, Andrew D. A., additional

Published

2022

27. Assessment of training strategies for convolutional neural network to restore low-dose digital breast tomosynthesis projections

Author

de Barros Vimieiro, Rodrigo, primary, Rodrigues Borges, Lucas, additional, Barufaldi, Bruno, additional, Maidment, Andrew D. A., additional, Wang, Ge, additional, and Andrade da Costa Vieira, Marcelo, additional

Published

2022

28. Novel Perlin-based phantoms using 3D models of compressed breast shapes and fractal noise

Author

Teixeira, Joao P. V., primary, Silva Filho, Telmo M., additional, do Rego, Thais G., additional, Malheiros, Yuri B., additional, Dustler, Magnus, additional, Bakic, Predrag R., additional, Vent, Trevor L., additional, Acciavatti, Raymond J., additional, Krishnamoorthy, Srilalan, additional, Surti, Suleman, additional, Maidment, Andrew D. A., additional, and Barufaldi, Bruno, additional

Published

2022

29. Achieving isotropic super-resolution with a non-isocentric acquisition geometry in a next-generation tomosynthesis system

Author

Acciavatti, Raymond J., primary, Choi, Chloe J., additional, Vent, Trevor L., additional, Barufaldi, Bruno, additional, and Maidment, Andrew D. A., additional

Published

2022

30. Mathematical foundations of a novel reconstruction algorithm that facilitates real-time 4D tomosynthesis

Author

Singh, Priyash, primary, Choi, Chloe J., additional, Vent, Trevor L., additional, Barufaldi, Bruno, additional, Acciavatti, Raymond J., additional, Conant, Emily F., additional, and Maidment, Andrew D. A., additional

Published

2022

31. Assessment of patch-based mammogram denoising methods using virtual clinical trials and deep learning: trade-off between denoising strength and preservation of structural details

Author

Dong, Vincent, primary, Maidment, Tristan D., additional, Borges, Lucas R., additional, Barufaldi, Bruno, additional, Ng, Susan, additional, and Maidment, Andrew D. A., additional

Published

2022

32. MaasPenn Radiomics Reproducibility Score: A Novel Quantitative Measure for Evaluating the Reproducibility of CT-Based Handcrafted Radiomic Features

Author

Ibrahim, Abdalla, primary, Barufaldi, Bruno, additional, Refaee, Turkey, additional, Silva Filho, Telmo M., additional, Acciavatti, Raymond J., additional, Salahuddin, Zohaib, additional, Hustinx, Roland, additional, Mottaghy, Felix M., additional, Maidment, Andrew D. A., additional, and Lambin, Philippe, additional

Published

2022

33. Computer simulations of case difficulty in digital breast tomosynthesis using virtual clinical trials

Author

Barufaldi, Bruno, primary, Vent, Trevor Lewis, additional, Bakic, Predrag Radomir, additional, and Maidment, Andrew Douglas Arnould, additional

Published

2022

34. The Effect of Breast Composition on a No-reference Anisotropic Quality Index for Digital Mammography

Author

Barufaldi, Bruno, primary, Borges, Lucas R., additional, Vieira, Marcelo A. C., additional, Gabarda, Salvador, additional, Maidment, Andrew D. A., additional, Bakic, Predrag R., additional, Pokrajac, David D., additional, and Schiabel, Homero, additional

Published

2016

35. Summary of Outcomes from Consecutive Years of Tomosynthesis Screening at an American Academic Institution

Author

Conant, Emily F., primary, Oustimov, Andrew, additional, Zuckerman, Samantha P., additional, McDonald, Elizabeth S., additional, Weinstein, Susan P., additional, Maidment, Andrew D. A., additional, Barufaldi, Bruno, additional, Synnestvedt, Marie, additional, and Schnall, Mitchell, additional

Published

2016

36. Computational Breast Anatomy Simulation Using Multi-Scale Perlin Noise

Author

Barufaldi, Bruno, primary, Abbey, Craig K., additional, Lago, Miguel A., additional, Vent, Trevor L., additional, Acciavatti, Raymond J., additional, Bakic, Predrag R., additional, and Maidment, Andrew D. A., additional

Published

2021

37. Computational method to artificially insert clusters of microcalcifications in digital breast tomosynthesis

Author

Yu, Lifeng, Fahrig, Rebecca, Sabol, John M., Vimieiro, Rodrigo B., Borges, Lucas R., Barufaldi, Bruno, Maidment, Andrew D. A., Caron, Renato F., Sabino, Silvia M. P. S., Wang, Ge, and Vieira, Marcelo A. C.

Published

2023

38. Reply to Orlhac, F.; Buvat, I. Comment on “Ibrahim et al. The Effects of In-Plane Spatial Resolution on CT-Based Radiomic Features’ Stability with and without ComBat Harmonization. Cancers 2021, 13, 1848”

Author

Ibrahim, Abdalla, primary, Refaee, Turkey, additional, Primakov, Sergey, additional, Barufaldi, Bruno, additional, Acciavatti, Raymond J., additional, Granzier, Renée W. Y., additional, Hustinx, Roland, additional, Mottaghy, Felix M., additional, Woodruff, Henry C., additional, Wildberger, Joachim E., additional, Lambin, Philippe, additional, and Maidment, Andrew D. A., additional

Published

2021

39. VIRTUAL CLINICAL TRIALS IN MEDICAL IMAGING SYSTEM EVALUATION AND OPTIMISATION

Author

Barufaldi, Bruno, primary, Maidment, Andrew D A, additional, Dustler, Magnus, additional, Axelsson, Rebecca, additional, Tomic, Hanna, additional, Zackrisson, Sophia, additional, Tingberg, Anders, additional, and Bakic, Predrag R, additional

Published

2021

40. The Effects of In-Plane Spatial Resolution on CT-Based Radiomic Features' Stability with and without ComBat Harmonization

Author

Ibrahim, Abdalla, Ibrahim, Abdalla, Refaee, Turkey, Primakov, Sergey, Barufaldi, Bruno, Acciavatti, Raymond J., Granzier, Renee W. Y., Hustinx, Roland, Mottaghy, Felix M., Woodruff, Henry C., Wildberger, Joachim E., Lambin, Philippe, Maidment, Andrew D. A., Ibrahim, Abdalla, Ibrahim, Abdalla, Refaee, Turkey, Primakov, Sergey, Barufaldi, Bruno, Acciavatti, Raymond J., Granzier, Renee W. Y., Hustinx, Roland, Mottaghy, Felix M., Woodruff, Henry C., Wildberger, Joachim E., Lambin, Philippe, and Maidment, Andrew D. A.

Abstract

Simple SummaryHandcrafted radiomic features (HRFs) are quantitative features extracted from medical images, and they are mined for associations with different clinical endpoints. While many studies reported on the potential of HRFs to unravel clinical endpoints, the sensitivity of HRFs to variations in scanning parameters is affecting the inclusion of radiomic signatures in clinical decision-making. In this study, we investigated the effects of variations in the in-plane resolution of scans, while all other scanning parameters were fixed. Moreover, we investigated the effects of ten different image resampling methods and ComBat harmonization on the reproducibility of HRFs. Our results show that the majority of HRFs are significantly and variably affected by the differences in in-plane resolution. The majority of image resampling methods resulted in a higher number of reproducible HRFs compared to ComBat harmonization. Our developed framework guides identifying the reproducible and harmonizable HRFs in different scenarios.While handcrafted radiomic features (HRFs) have shown promise in the field of personalized medicine, many hurdles hinder its incorporation into clinical practice, including but not limited to their sensitivity to differences in acquisition and reconstruction parameters. In this study, we evaluated the effects of differences in in-plane spatial resolution (IPR) on HRFs, using a phantom dataset (n = 14) acquired on two scanner models. Furthermore, we assessed the effects of interpolation methods (IMs), the choice of a new unified in-plane resolution (NUIR), and ComBat harmonization on the reproducibility of HRFs. The reproducibility of HRFs was significantly affected by variations in IPR, with pairwise concordant HRFs, as measured by the concordance correlation coefficient (CCC), ranging from 42% to 95%. The number of concordant HRFs (CCC > 0.9) after resampling varied depending on (i) the scanner model, (ii) the IM, and (iii) the

Published

2021

41. The Effects of In-Plane Spatial Resolution on CT-Based Radiomic Features’ Stability with and without ComBat Harmonization

Author

Ibrahim, Abdalla, primary, Refaee, Turkey, additional, Primakov, Sergey, additional, Barufaldi, Bruno, additional, Acciavatti, Raymond J., additional, Granzier, Renée W. Y., additional, Hustinx, Roland, additional, Mottaghy, Felix M., additional, Woodruff, Henry C., additional, Wildberger, Joachim E., additional, Lambin, Philippe, additional, and Maidment, Andrew D. A., additional

Published

2021

42. Under-exploration of Three-Dimensional Images Leads to Search Errors for Small Salient Targets

Author

Lago, Miguel A., primary, Jonnalagadda, Aditya, additional, Abbey, Craig K., additional, Barufaldi, Bruno B., additional, Bakic, Predrag R., additional, Maidment, Andrew D.A., additional, Leung, Winifred K., additional, Weinstein, Susan P., additional, Englander, Brian S., additional, and Eckstein, Miguel P., additional

Published

2021

43. Signal-to-noise ratio and contrast-to-noise ratio measurements for next generation tomosynthesis

Author

Martin, David, primary, Vent, Trevor, additional, Choi, Chloe J., additional, Barufaldi, Bruno, additional, Acciavatti, Raymond J., additional, and Maidment, Andrew, additional

Published

2021

44. Iterative method to achieve noise variance stabilization in single raw digital breast tomosynthesis

Author

Brandão, Renann F., primary, Borges, Lucas R., additional, Barufaldi, Bruno, additional, Vent, Trevor L., additional, Caron, Renato F., additional, Oliveira, Bruno B., additional, Maidment, Andrew D. A., additional, and Vieira, Marcelo A. C., additional

Published

2021

45. Next generation tomosynthesis image acquisition optimization for dedicated PET-DBT attenuation corrections

Author

Vent, Trevor L., primary, Barufaldi, Bruno, additional, Acciavatti, Raymond J., additional, Krishnamoorthy, Srilalan, additional, Surti, Suleman, additional, and Maidment, Andrew D. A., additional

Published

2021

46. Automatic Segmentation of Mammary Tissue using Computer Simulations of Breast Phantoms and Deep-learning Techniques

Author

Peregrino, Lucca, primary, Gomes, Jordy, additional, G. do Rêgo, Thaís, additional, Barbosa, Yuri, additional, Filho, Telmo, additional, Maidment, Andrew, additional, and Barufaldi, Bruno, additional

Published

2021

47. Evaluating attenuation correction strategies in a dedicated, single-gantry breast PET-tomosynthesis scanner

Author

Krishnamoorthy, Srilalan, primary, Vent, Trevor, additional, Barufaldi, Bruno, additional, Maidment, Andrew D A, additional, Karp, Joel S, additional, and Surti, Suleman, additional

Published

2020

48. Super-resolution in digital breast tomosynthesis: limitations of the conventional system design and strategies for optimization

Author

Acciavatti, Raymond J., primary, Vent, Trevor L., additional, Barufaldi, Bruno, additional, Wileyto, E. Paul, additional, Noël, Peter B., additional, and Maidment, Andrew D., additional

Published

2020

49. Calculation of radiomic features to validate the textural realism of physical anthropomorphic phantoms for digital mammography

Author

Acciavatti, Raymond J., primary, Cohen, Eric A., additional, Haji Maghsoudi, Omid, additional, Gastounioti, Aimilia, additional, Pantalone, Lauren, additional, Hsieh, Meng-Kang, additional, Barufaldi, Bruno, additional, Bakic, Predrag R., additional, Chen, Jinbo, additional, Conant, Emily F., additional, Kontos, Despina, additional, and Maidment, Andrew D., additional

Published

2020

50. Simulation of high-resolution test objects using non-isocentric acquisition geometries in next-generation digital tomosynthesis

Author

Vent, Trevor L., primary, Barufaldi, Bruno, additional, Acciavatti, Raymond J., additional, and Maidment, Andrew, additional

Published

2020