Your search keyword '"Tavakoli Taba, S."' showing total 16 results

1. Phase contrast tomography for breast cancer imaging: Bringing a novel technology to clinical translation.

Author

Lockie D., Tavakoli Taba S., Gureyev T., Hausermann D., Arhatari B., Fox J., Brennan P., Lewis S., Lockie D., Tavakoli Taba S., Gureyev T., Hausermann D., Arhatari B., Fox J., Brennan P., and Lewis S.

Abstract

Purpose: Full-field X-ray propagation-based phase-contrast computed tomography (PB-CT) is an innovative and transformative low-dose high-quality three-dimensional (3D) imaging technique available at the Australian Synchrotron (AS). Current, common methods of breast imaging such as mammography and Digital Breast Tomosyn-thesis (DBT) have limitations around sensitivity, especially for women with dense breasts and examination pain. Breast imaging has most to gain from X-ray phase-contrast techniques1 because maximum advantage over conventional absorption-based imaging occurs where subject contrast is low, required spatial resolution is relatively high and cancer detection is highly challenging. This paper describes all experiments undertaken at the AS for optimising imaging conditions, radiological assessment of PB-CT images and clinical implementation plans for a breast cancer patient trial to commence in 2020, the first in the world. Methods and Materials: Work undertaken between 2017 and 2019 at the AS included imaging human breast specimen imaging with PB-CT. In total, 33 fresh whole mastectomy specimens have been imaged under a range of conditions, including variations in propagation distance, detectors, beam energies and CT reconstruction methods. A Visual Grading Analysis (VGA) of PB-CT images has been undertaken with radiology observers. Result(s): Mastectomy-based work showed how visualisation of malignant tissue can be enhanced at the same spatial resolution and better contrast compared to mammography or DBT and with similar or lower radiation dose. 2, 3 Optimised conditions include monochromatic X-ray energy of 32 keV for a breast with average size and density, free-space propagation distance of 6 m between the imaged sample and detector, and use of a X-ray detector with an area of at least 14 9 14 cm2, pixel size of 50 9 50 mu m2 and frame rate of 30 fps or higher. Our experiments indicate that the Homogeneous transport-of-intensity equation (TIE-Hom) based

Published

2020

2. Advantages of breast cancer visualization and characterization using synchrotron radiation phase-contrast tomography.

Author

Lewis S., Gureyev T., Tromba G., Hausermann D., Brennan P., Pacile S., Baran P., Dullin C., Dimmock M., Lockie D., Missbach-Guntner J., Quiney H., McCormack M., Mayo S., Thompson D., Nesterets Y., Hall C., Pavlov K., Prodanovic Z., Tonutti M., Accardo A., Fox J., Tavakoli Taba S., Lewis S., Gureyev T., Tromba G., Hausermann D., Brennan P., Pacile S., Baran P., Dullin C., Dimmock M., Lockie D., Missbach-Guntner J., Quiney H., McCormack M., Mayo S., Thompson D., Nesterets Y., Hall C., Pavlov K., Prodanovic Z., Tonutti M., Accardo A., Fox J., and Tavakoli Taba S.

Abstract

The aim of this study was to highlight the advantages that propagation-based phase-contrast computed tomography (PB-CT) with synchrotron radiation can provide in breast cancer diagnostics. For the first time, a fresh and intact mastectomy sample from a 60 year old patient was scanned on the IMBL beamline at the Australian Synchrotron in PB-CT mode and reconstructed. The clinical picture was described and characterized by an experienced breast radiologist, who underlined the advantages of providing diagnosis on a PB-CT volume rather than conventional two-dimensional modalities. Subsequently, the image quality was assessed by 11 breast radiologists and medical imaging experts using a radiological scoring system. The results indicate that, with the radiation dose delivered to the sample being equal, the accuracy of a diagnosis made on PB-CT images is significantly higher than one using conventional techniques.

Published

2019

3. Disaster risk management approaches in construction and built environment: A research collaboration networks perspective

Author

Tavakoli Taba, S, Mojtahedi, M, Newton, S, Tavakoli Taba, S, Mojtahedi, M, and Newton, S

Abstract

© 2019, Emerald Publishing Limited. Purpose: Currently there is no analysis of the development of disaster risk management literature in the construction and built environment context, the changes in its research paradigms over time and the role of different key players in the advance of its current body of knowledge. This study aims to address that gap by investigating the longitudinal data of disaster risk management literature published over the past three decades. Design/methodology/approach: A social network analysis approach is used in this study to show the overall development of the field and specifically the impact of research collaborations between different organisations and countries on research productivity. Findings: The results indicate that the focus of disaster risk management research in the built environment context is heavily biased towards reactive strategies (response and recovery) over proactive strategies (mitigation and preparedness). The findings also demonstrate that collaboration between disaster risk management researchers has a significant influence on their research productivity. Originality/value: The findings from this study should be of value to researchers, policymakers and academic strategists. This study for the first time shows the ability of the social networks paradigm to reveal frailties in research connections in the field of disaster risk management in construction and built environment and highlights where networking strategies are needed.

Published

2019

4. A multidimensional analytical approach for identifying and locating large utility pipes in underground infrastructure

Author

Tavakoli Taba, S., Rahnamayiezekavat, Payam, Alipour Esgandani, G., Wang, Xiangyu, Bernold, L., Tavakoli Taba, S., Rahnamayiezekavat, Payam, Alipour Esgandani, G., Wang, Xiangyu, and Bernold, L.

Abstract

The population growth, technological improvements, and the need for repairing old or installing new utilities result in a high demand for trenching and drilling activities. However, penetrating the subsurface incurs the risk of damaging existing underground facilities because they were not properly documented, if at all. Ground Penetrating Radar (GPR) constitutes a well-established technology that uses electromagnetic waves to identify objects underground by detecting their reflections. The work presented in this paper focuses on the timing and other characteristics of radar pulses reflected from the buried utilities. It is hypothesised that integrating the knowledge of construction practice, geophysical principles, and electromagnetic wave propagation behaviour in various soil conditions will improve the reliability and accuracy of GPR. This paper presents the results of field experiments that studied the effects of large void such as sinkholes or drainage pipes in several undergrounds. It provides important insights into the features and patterns that can be used to improve current methods.

Published

2015

5. Comparison of propagation-based CT using synchrotron radiation and conventional cone-beam CT for breast imaging

Author

Patrycja Baran, Susanne Wienbeck, Patrick C. Brennan, Konstantin Mikhailovitch Pavlov, Fulvia Arfelli, Anton Maksimenko, Seyedamir Tavakoli Taba, Diego Dreossi, Giuliana Tromba, Serena Pacilè, Sarah J. Lewis, Sheridan C. Mayo, Harry M. Quiney, Christian Dullin, Timur E. Gureyev, Darren Lockie, Yakov Nesterets, Tavakoli Taba, S., Baran, P., Nesterets, Y. I., Pacile, S., Wienbeck, S., Dullin, C., Pavlov, K., Maksimenko, A., Lockie, D., Mayo, S. C., Quiney, H. M., Dreossi, D., Arfelli, F., Tromba, G., Lewis, S., Gureyev, T. E., and Brennan, P. C.

Subjects

Cone beam computed tomography, medicine.medical_specialty, Digital mammography, Image quality, Breast imaging, X-ray computed, Radiation Dosage, 030218 nuclear medicine & medical imaging, Synchrotron, Breast, Cone-beam computed tomography, Mammography, Synchrotrons, Tomography, X-ray computed, 03 medical and health sciences, Breast Diseases, 0302 clinical medicine, medicine, Medical imaging, Image noise, Humans, Radiology, Nuclear Medicine and imaging, Tomography, medicine.diagnostic_test, business.industry, Reproducibility of Results, General Medicine, Tomosynthesis, 030220 oncology & carcinogenesis, Female, Radiology, business

Abstract

To evaluate and compare the image quality of propagation-based phase-contrast computed tomography (PB-CT) using synchrotron radiation and conventional cone-beam breast computed tomography (CBBCT) based on various radiological image quality criteria. Eight excised breast tissue samples of various sizes and containing different lesion types were scanned using PB-CT at a synchrotron facility and using CBBCT at a university-affiliated breast imaging centre. PB-CT scans were performed at two different mean glandular dose (MGD) levels: standard (5.8 mGy) and low (1.5 mGy), for comparison with CBBCT scans at the standard MGD (5.8 mGy). Image quality assessment was carried out using six quality criteria and six independent medical imaging experts in a reading room with mammography workstations. The interobserver agreement between readers was evaluated using intraclass correlation coefficient (ICC), and image quality was compared between the two breast imaging modalities using the area under the visual grading characteristic curve (AUCVGC). Interobserver agreement between the readers showed moderate reliability for five image criteria (ICC: ranging from 0.488 to 0.633) and low reliability for one criterion (image noise) (ICC 0.307). For five image quality criteria (overall quality, perceptible contrast, lesion sharpness, normal tissue interfaces, and calcification visibility), both standard-dose PB-CT images (AUCVGC 0.958 to 1, p ≤ .05) and low dose PB-CT images (AUCVGC 0.785 to 0.834, p ≤ .05) were of significantly higher image quality than standard-dose CBBCT images. Synchrotron-based PB-CT can achieve a significantly higher radiological image quality at a substantially lower radiation dose compared with conventional CBBCT. • PB-CT using synchrotron radiation results in higher image quality than conventional CBBCT for breast imaging. • PB-CT using synchrotron radiation requires a lower radiation dose than conventional CBBCT for breast imaging. • PB-CT can help clinicians diagnose patients with breast cancer.

Published

2020

6. Familiarity, confidence and preference of artificial intelligence feedback and prompts by Australian breast cancer screening readers.

Author

Trieu PDY, Barron ML, Jiang Z, Tavakoli Taba S, Gandomkar Z, and Lewis SJ

Subjects

Adult, Female, Humans, Middle Aged, Australia, Radiologists psychology, Surveys and Questionnaires, Artificial Intelligence, Breast Neoplasms diagnosis, Breast Neoplasms psychology, Early Detection of Cancer methods, Early Detection of Cancer psychology, Mammography methods

Abstract

Objectives This study explored the familiarity, perceptions and confidence of Australian radiology clinicians involved in reading screening mammograms, regarding artificial intelligence (AI) applications in breast cancer detection. Methods Sixty-five radiologists, breast physicians and radiology trainees participated in an online survey that consisted of 23 multiple choice questions asking about their experience and familiarity with AI products. Furthermore, the survey asked about their confidence in using AI outputs and their preference for AI modes applied in a breast screening context. Participants' responses to questions were compared using Pearson's χ 2 test. Bonferroni-adjusted significance tests were used for pairwise comparisons. Results Fifty-five percent of respondents had experience with AI in their workplaces, with automatic density measurement powered by machine learning being the most familiar AI product (69.4%). The top AI outputs with the highest ranks of perceived confidence were 'Displaying suspicious areas on mammograms with the percentage of cancer possibility' (67.8%) and 'Automatic mammogram classification (normal, benign, cancer, uncertain)' (64.6%). Radiology and breast physicians preferred using AI as second-reader mode (75.4% saying 'somewhat happy' to 'extremely happy') over triage (47.7%), pre-screening and first-reader modes (both with 26.2%) (P  < 0.001). Conclusion The majority of screen readers expressed increased confidence in utilising AI for highlighting suspicious areas on mammograms and for automatically classifying mammograms. They considered AI as an optimal second-reader mode being the most ideal use in a screening program. The findings provide valuable insights into the familiarities and expectations of radiologists and breast clinicians for the AI products that can enhance the effectiveness of the breast cancer screening programs, benefitting both healthcare professionals and patients alike.

Published

2024

7. Evaluating Recalibrating AI Models for Breast Cancer Diagnosis in a New Context: Insights from Transfer Learning, Image Enhancement and High-Quality Training Data Integration.

Author

Jiang Z, Gandomkar Z, Trieu PDY, Tavakoli Taba S, Barron ML, Obeidy P, and Lewis SJ

Abstract

This paper investigates the adaptability of four state-of-the-art artificial intelligence (AI) models to the Australian mammographic context through transfer learning, explores the impact of image enhancement on model performance and analyses the relationship between AI outputs and histopathological features for clinical relevance and accuracy assessment. A total of 1712 screening mammograms ( n = 856 cancer cases and n = 856 matched normal cases) were used in this study. The 856 cases with cancer lesions were annotated by two expert radiologists and the level of concordance between their annotations was used to establish two sets: a 'high-concordances subset' with 99% agreement of cancer location and an 'entire dataset' with all cases included. The area under the receiver operating characteristic curve (AUC) was used to evaluate the performance of Globally aware Multiple Instance Classifier (GMIC), Global-Local Activation Maps (GLAM), I&H and End2End AI models, both in the pretrained and transfer learning modes, with and without applying the Contrast Limited Adaptive Histogram Equalization (CLAHE) algorithm. The four AI models with and without transfer learning in the high-concordance subset outperformed those in the entire dataset. Applying the CLAHE algorithm to mammograms improved the performance of the AI models. In the high-concordance subset with the transfer learning and CLAHE algorithm applied, the AUC of the GMIC model was highest (0.912), followed by the GLAM model (0.909), I&H (0.893) and End2End (0.875). There were significant differences ( p < 0.05) in the performances of the four AI models between the high-concordance subset and the entire dataset. The AI models demonstrated significant differences in malignancy probability concerning different tumour size categories in mammograms. The performance of AI models was affected by several factors such as concordance classification, image enhancement and transfer learning. Mammograms with a strong concordance with radiologists' annotations, applying image enhancement and transfer learning could enhance the accuracy of AI models.

Published

2024

8. Propagation-based phase-contrast imaging of the breast: image quality and the effect of X-ray energy and radiation dose.

Author

Gunaseelan I, Amin Zadeh A, Arhatari B, Maksimenko A, Hall C, Hausermann D, Kumar B, Fox J, Quiney H, Lockie D, Lewis S, Brennan P, Gureyev T, and Tavakoli Taba S

Subjects

Humans, Female, X-Rays, Mastectomy, Breast diagnostic imaging, Radiation Dosage, Signal-To-Noise Ratio, Radiographic Image Interpretation, Computer-Assisted methods, Breast Neoplasms diagnostic imaging

Abstract

Objectives: Propagation-based phase-contrast computed tomography (PB-CT) is a new imaging technique that exploits refractive and absorption properties of X-rays to enhance soft tissue contrast and improve image quality. This study compares image quality of PB-CT and absorption-based CT (AB-CT) for breast imaging while exploring X-ray energy and radiation dose., Methods: Thirty-nine mastectomy samples were scanned at energy levels of 28-34keV using a flat panel detector at radiation dose levels of 4mGy and 2mGy. Image quality was assessed using signal-to-noise ratio (SNR), contrast-to-noise ratio (CNR), spatial resolution (res) and visibility (vis). Statistical analysis was performed to compare PB-CT images against their corresponding AB-CT images scanned at 32keV and 4mGy., Results: The PB-CT images at 4mGy, across nearly all energy levels, demonstrated superior image quality than AB-CT images at the same dose. At some energy levels, the 2mGy PB-CT images also showed better image quality in terms of CNR/Res and vis compared to the 4mGy AB-CT images. At both investigated doses, SNR and SNR/res were found to have a statistically significant difference across all energy levels. The difference in vis was statistically significant at some energy levels., Conclusion: This study demonstrates superior image quality of PB-CT over AB-CT, with X-ray energy playing a crucial role in determining image quality parameters., Advances in Knowledge: Our findings reveal that standard dose PB-CT outperforms standard dose AB-CT across all image quality metrics. Additionally, we demonstrate that low dose PB-CT can produce superior images compared to standard dose AB-CT in terms of CNR/Res and vis.

Published

2023

9. Automated image quality assessment of mammography phantoms: a systematic review.

Author

Alawaji Z, Tavakoli Taba S, and Rae W

Subjects

Humans, Reproducibility of Results, Software, Signal-To-Noise Ratio, Phantoms, Imaging, Radiographic Image Enhancement methods, Mammography methods, Algorithms

Abstract

Background: Computerized image analysis is a viable technique for evaluating image quality as a complement to human observers., Purpose: To systematically review the image analysis software used in the assessment of 2D image quality using mammography phantoms., Material and Methods: A systematic search of multiple databases was performed from inception to July 2020 for articles that incorporated computerized analysis of 2D images of physical mammography phantoms to determine image quality., Results: A total of 26 studies were included, 12 were carried out using direct digital imaging and 14 using screen film mammography. The ACR phantom (model-156) was the most frequently evaluated phantom, possibly due to the lack of accepted standard software. In comparison to the inter-observer variations, the computerized image analysis was more consistent in scoring test objects. The template matching method was found to be one of the most reliable algorithms, especially for high-contrast test objects, while several algorithms found low-contrast test objects to be harder to distinguish due to the smaller contrast variations between test objects and their backgrounds. This was particularly true for small object sizes., Conclusion: Image analysis software was in agreement with human observers but demonstrated higher consistency and reproducibility of quality evaluation. Additionally, using computerized analysis, several quantitative metrics such as contrast-to-noise ratio (CNR) and the signal-to-noise ratio (SNR) could be used to complement the conventional scoring method. Implementing a computerized approach for monitoring image quality over time would be crucial to detect any deteriorating mammography system before clinical images are impacted.

Published

2023

10. A bibliometric and social network analysis perspective of X-ray phase-contrast imaging in medical imaging.

Author

Tu J, Brennan PC, Lewis S, and Tavakoli Taba S

Subjects

Bibliometrics, Radiography, X-Rays, Social Network Analysis, Synchrotrons

Abstract

Introduction: Phase-contrast imaging (PCI) is a novel technology that can visualise variations in X-ray refraction (phase contrast) in addition to differences in X-ray attenuation (absorption contrast). Compared to radiography using conventional methods (i.e. absorption-based imaging), PCI techniques can potentially produce images with higher contrast-to-noise ratio and superior spatial resolution at the same or lower radiation doses. This has led PCI to be explored for implementation in medical imaging. While interest in this research field is increasing, the whole body of PCI research in medical imaging has been under-investigated. This paper provides an overview of PCI literature and then focusses on evaluating its development within the scope of medical imaging., Methods: Bibliographic data between 1995 and 2018 were used to visualise collaboration networks between countries, institutions and authors. Social network analysis techniques were implemented to measure these networks in terms of centrality and cohesion. These techniques also assisted in the exploration of underlying research paradigms of clinical X-ray PCI investigations., Results: Forty-one countries, 592 institutions and 2073 authors contributed 796 investigations towards clinical PCI research. The most influential contributors and network collaboration characteristics were identified. Italy was the most influential country, with the European Synchrotron Radiation Facility being the most influential institution. At an author level, F. Pfeiffer was found to be the most influential researcher. Among various PCI techniques, grating interferometry was the most investigated, while computed tomography was the most frequently examined modality., Conclusions: By gaining an understanding of collaborations and trends within clinical X-ray PCI research, the links between existing collaborators were identified, which can aid future collaborations between emerging and established collaborators. Moreover, exploring the paradigm of past investigations can shape future research - well-researched PCI techniques may be studied to bring X-ray PCI closer to clinical implementation, or the potential of seldom-investigated techniques may be explored., (© 2021 The Authors. Journal of Medical Radiation Sciences published by John Wiley & Sons Australia, Ltd on behalf of Australian Society of Medical Imaging and Radiation Therapy and New Zealand Institute of Medical Radiation Technology.)

Published

2022

11. Propagation-Based Phase-Contrast CT of the Breast Demonstrates Higher Quality Than Conventional Absorption-Based CT Even at Lower Radiation Dose.

Author

Tavakoli Taba S, Arhatari BD, Nesterets YI, Gadomkar Z, Mayo SC, Thompson D, Fox J, Kumar B, Prodanovic Z, Hausermann D, Maksimenko A, Hall C, Dimmock M, Pavlov KM, Lockie D, Gity M, Peele A, Quiney HM, Lewis S, Gureyev TE, and Brennan PC

Subjects

Breast diagnostic imaging, Humans, Mastectomy, Radiation Dosage, Tomography, X-Ray Computed, Breast Neoplasms diagnostic imaging

Abstract

Rationale and Objectives: Propagation-based phase-contrast CT (PB-CT) is an advanced X-ray imaging technology that exploits both refraction and absorption of the transmitted X-ray beam. This study was aimed at optimizing the experimental conditions of PB-CT for breast cancer imaging and examined its performance relative to conventional absorption-based CT (AB-CT) in terms of image quality and radiation dose., Materials and Methods: Surgically excised breast mastectomy specimens (n = 12) were scanned using both PB-CT and AB-CT techniques under varying imaging conditions. To evaluate the radiological image quality, visual grading characteristics (VGC) analysis was used in which 11 breast specialist radiologists compared the overall image quality of PB-CT images with respect to the corresponding AB-CT images. The area under the VGC curve was calculated to measure the differences between PB-CT and AB-CT images., Results: The highest radiological quality was obtained for PB-CT images using a 32 keV energy X-ray beam and by applying the Homogeneous Transport of Intensity Equation phase retrieval with the value of its parameter γ set to one-half of the theoretically optimal value for the given materials. Using these optimized conditions, the image quality of PB-CT images obtained at 4 mGy and 2 mGy mean glandular dose was significantly higher than AB-CT images at 4 mGy (AUC VGC  = 0.901, p = 0.001 and AUC VGC  = 0.819, p = 0.011, respectively)., Conclusion: PB-CT achieves a higher radiological image quality compared to AB-CT even at a considerably lower mean glandular dose. Successful translation of the PB-CT technique for breast cancer imaging can potentially result in improved breast cancer diagnosis., (Crown Copyright © 2020. Published by Elsevier Inc. All rights reserved.)

Published

2021

12. Comparison of propagation-based CT using synchrotron radiation and conventional cone-beam CT for breast imaging.

Author

Tavakoli Taba S, Baran P, Nesterets YI, Pacile S, Wienbeck S, Dullin C, Pavlov K, Maksimenko A, Lockie D, Mayo SC, Quiney HM, Dreossi D, Arfelli F, Tromba G, Lewis S, Gureyev TE, and Brennan PC

Subjects

Female, Humans, Radiation Dosage, Reproducibility of Results, Breast diagnostic imaging, Breast Diseases diagnosis, Cone-Beam Computed Tomography methods, Mammography methods, Synchrotrons

Abstract

Objectives: To evaluate and compare the image quality of propagation-based phase-contrast computed tomography (PB-CT) using synchrotron radiation and conventional cone-beam breast computed tomography (CBBCT) based on various radiological image quality criteria., Methods: Eight excised breast tissue samples of various sizes and containing different lesion types were scanned using PB-CT at a synchrotron facility and using CBBCT at a university-affiliated breast imaging centre. PB-CT scans were performed at two different mean glandular dose (MGD) levels: standard (5.8 mGy) and low (1.5 mGy), for comparison with CBBCT scans at the standard MGD (5.8 mGy). Image quality assessment was carried out using six quality criteria and six independent medical imaging experts in a reading room with mammography workstations. The interobserver agreement between readers was evaluated using intraclass correlation coefficient (ICC), and image quality was compared between the two breast imaging modalities using the area under the visual grading characteristic curve (AUC VGC )., Results: Interobserver agreement between the readers showed moderate reliability for five image criteria (ICC: ranging from 0.488 to 0.633) and low reliability for one criterion (image noise) (ICC 0.307). For five image quality criteria (overall quality, perceptible contrast, lesion sharpness, normal tissue interfaces, and calcification visibility), both standard-dose PB-CT images (AUC VGC 0.958 to 1, p ≤ .05) and low dose PB-CT images (AUC VGC 0.785 to 0.834, p ≤ .05) were of significantly higher image quality than standard-dose CBBCT images., Conclusions: Synchrotron-based PB-CT can achieve a significantly higher radiological image quality at a substantially lower radiation dose compared with conventional CBBCT., Key Points: • PB-CT using synchrotron radiation results in higher image quality than conventional CBBCT for breast imaging. • PB-CT using synchrotron radiation requires a lower radiation dose than conventional CBBCT for breast imaging. • PB-CT can help clinicians diagnose patients with breast cancer.

Published

2020

13. Toward Improving Breast Cancer Imaging: Radiological Assessment of Propagation-Based Phase-Contrast CT Technology.

Author

Tavakoli Taba S, Baran P, Lewis S, Heard R, Pacile S, Nesterets YI, Mayo SC, Dullin C, Dreossi D, Arfelli F, Thompson D, McCormack M, Alakhras M, Brun F, Pinamonti M, Nickson C, Hall C, Zanconati F, Lockie D, Quiney HM, Tromba G, Gureyev TE, and Brennan PC

Subjects

Aged, Algorithms, Breast diagnostic imaging, Female, Humans, Breast Neoplasms diagnostic imaging, Image Interpretation, Computer-Assisted methods, Mammography methods, Tomography, X-Ray Computed methods

Abstract

Rationale and Objectives: This study employs clinical/radiological evaluation in establishing the optimum imaging conditions for breast cancer imaging using the X-ray propagation-based phase-contrast tomography., Materials and Methods: Two series of experiments were conducted and in total 161 synchrotron-based computed tomography (CT) reconstructions of one breast mastectomy specimen were produced at different imaging conditions. Imaging factors include sample-to-detector distance, X-ray energy, CT reconstruction method, phase retrieval algorithm applied to the CT projection images and maximum intensity projection. Observers including breast radiologists and medical imaging experts compared the quality of the reconstructed images with reference images approximating the conventional (absorption) CT. Various radiological image quality attributes in a visual grading analysis design were used for the radiological assessments., Results: The results show that the application of the longest achievable sample-to-detector distance (9.31 m), the lowest employed X-ray energy (32 keV), the full phase retrieval, and the maximum intensity projection can significantly improve the radiological quality of the image. Several combinations of imaging variables resulted in images with very high-quality scores., Conclusion: The results of the present study will support future experimental and clinical attempts to further optimize this innovative approach to breast cancer imaging., (Copyright © 2018 The Association of University Radiologists. All rights reserved.)

Published

2019

14. Dynamics of breast imaging research: A global scoping review and Sino-Australian comparison case study.

Author

Tavakoli Taba S, Brennan PC, and Lewis S

Subjects

Australia, China, Female, Humans, International Cooperation, Mammography, Periodicals as Topic, Ultrasonography, Mammary, Breast diagnostic imaging, Breast Neoplasms diagnostic imaging, Research

Abstract

This study presents a quantitative analysis of global breast imaging research over the last eight decades. A dedicated Sino-Australian case study via a social network analysis (SNA) is included as China and Australia have a recent rapidly increasing number of research partnerships and strategic education/economic connections. Bibliographic data was extracted via Scopus and analysed for the social network parameters of degree centrality, closeness centrality, betweenness centrality and multiple cohesion measures in order to explore research collaboration networks at the organisational level. Within the last three decades there has been a tremendous increase in the publication rate within the scientific domain of breast imaging research, however, there is a significant lag in the development of this research area in China compared with Australia. Breast imaging research in China is considerably more insular, with less international collaboration and reduced variation between collaborators than Australia. The impact of national breast screening programs and novel cancer technologies upon collaboration networks is discussed alongside the ability of networks paradigm to reveal both frailties in research connections and to highlight networking strategies., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

15. Advantages of breast cancer visualization and characterization using synchrotron radiation phase-contrast tomography.

Author

Pacilè S, Baran P, Dullin C, Dimmock M, Lockie D, Missbach-Guntner J, Quiney H, McCormack M, Mayo S, Thompson D, Nesterets Y, Hall C, Pavlov K, Prodanovic Z, Tonutti M, Accardo A, Fox J, Tavakoli Taba S, Lewis S, Brennan P, Hausermann D, Tromba G, and Gureyev T

Subjects

Breast Neoplasms surgery, Female, Humans, In Vitro Techniques, Mastectomy, Middle Aged, Radiation Dosage, Radiographic Image Interpretation, Computer-Assisted, Signal-To-Noise Ratio, Breast Neoplasms diagnostic imaging, Synchrotrons, Tomography, X-Ray Computed methods

Abstract

The aim of this study was to highlight the advantages that propagation-based phase-contrast computed tomography (PB-CT) with synchrotron radiation can provide in breast cancer diagnostics. For the first time, a fresh and intact mastectomy sample from a 60 year old patient was scanned on the IMBL beamline at the Australian Synchrotron in PB-CT mode and reconstructed. The clinical picture was described and characterized by an experienced breast radiologist, who underlined the advantages of providing diagnosis on a PB-CT volume rather than conventional two-dimensional modalities. Subsequently, the image quality was assessed by 11 breast radiologists and medical imaging experts using a radiological scoring system. The results indicate that, with the radiation dose delivered to the sample being equal, the accuracy of a diagnosis made on PB-CT images is significantly higher than one using conventional techniques.

Published

2018

16. Personal and Network Dynamics in Performance of Knowledge Workers: A Study of Australian Breast Radiologists.

Author

Tavakoli Taba S, Hossain L, Heard R, Brennan P, Lee W, and Lewis S

Subjects

Adult, Australia, Efficiency, Female, General Surgery, Humans, Interdisciplinary Communication, Interpersonal Relations, Male, Mammography, Middle Aged, Models, Theoretical, Self Concept, Self-Assessment, Sensitivity and Specificity, Surveys and Questionnaires, Breast Neoplasms diagnostic imaging, Interprofessional Relations, Radiology, Social Networking, Work Performance

Abstract

Materials and Methods: In this paper, we propose a theoretical model based upon previous studies about personal and social network dynamics of job performance. We provide empirical support for this model using real-world data within the context of the Australian radiology profession. An examination of radiologists' professional network topology through structural-positional and relational dimensions and radiologists' personal characteristics in terms of knowledge, experience and self-esteem is provided. Thirty one breast imaging radiologists completed a purpose designed questionnaire regarding their network characteristics and personal attributes. These radiologists also independently read a test set of 60 mammographic cases: 20 cases with cancer and 40 normal cases. A Jackknife free response operating characteristic (JAFROC) method was used to measure the performance of the radiologists' in detecting breast cancers., Results: Correlational analyses showed that reader performance was positively correlated with the social network variables of degree centrality and effective size, but negatively correlated with constraint and hierarchy. For personal characteristics, the number of mammograms read per year and self-esteem (self-evaluation) positively correlated with reader performance. Hierarchical multiple regression analysis indicated that the combination of number of mammograms read per year and network's effective size, hierarchy and tie strength was the best fitting model, explaining 63.4% of the variance in reader performance. The results from this study indicate the positive relationship between reading high volumes of cases by radiologists and expertise development, but also strongly emphasise the association between effective social/professional interactions and informal knowledge sharing with high performance.

Published

2016