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Stefan cel Mare
University of Suceava
Faculty of Electrical Engineering and
Computer Science
13, Universitatii Street
Suceava - 720229
ROMANIA

Print ISSN: 1582-7445
Online ISSN: 1844-7600
WorldCat: 643243560
doi: 10.4316/AECE


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  1/2011 - 15

 HIGH-IMPACT PAPER 

Challenges in the Design of Microwave Imaging Systems for Breast Cancer Detection

ZHURBENKO, V. See more information about ZHURBENKO, V. on SCOPUS See more information about ZHURBENKO, V. on IEEExplore See more information about ZHURBENKO, V. on Web of Science
 
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Download PDF pdficon (670 KB) | Citation | Downloads: 2,758 | Views: 5,277

Author keywords
biomedical imaging, medical diagnostic imaging, microwave imaging, microwave circuits, microwave antennas

References keywords
microwave(40), breast(27), imaging(21), detection(17), cancer(15), theory(7), tumor(5), tomography(5), techniques(5), system(5)
Blue keywords are present in both the references section and the paper title.

About this article
Date of Publication: 2011-02-27
Volume 11, Issue 1, Year 2011, On page(s): 91 - 96
ISSN: 1582-7445, e-ISSN: 1844-7600
Digital Object Identifier: 10.4316/AECE.2011.01015
Web of Science Accession Number: 000288761800015
SCOPUS ID: 79955959583

Abstract
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Among the various breast imaging modalities for breast cancer detection, microwave imaging is attractive due to the high contrast in dielectric properties between the cancerous and normal tissue. Due to this reason, this modality has received a significant interest and attention from the microwave community. This paper presents the survey of the ongoing research in the field of microwave imaging of biological tissues, with major focus on the breast tumor detection application. The existing microwave imaging systems are categorized on the basis of the employed measurement concepts. The advantages and disadvantages of the implemented imaging techniques are discussed. The fundamental tradeoffs between the various system requirements are indicated. Some strategies to overcome these limitations are outlined.


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Cited-By CrossRef

[1] Fast and precise data acquisition for broadband microwave tomography systems, Mallach, Malte, Musch, Thomas, Measurement Science and Technology, ISSN 0957-0233, Issue 9, Volume 28, 2017.
Digital Object Identifier: 10.1088/1361-6501/aa6a86
[CrossRef]

[2] MICROWAVE TIME-REVERSAL MIRROR FOR IMAGING AND HYPERTHERMIA TREATMENT OF BREAST TUMORS, Mukherjee, Saptarshi, Udpa, Lalita, Udpa, Satish, Rothwell, Edward J., Deng, Yiming, Progress In Electromagnetics Research M, ISSN 1937-8726, Issue , 2019.
Digital Object Identifier: 10.2528/PIERM18092008
[CrossRef]

[3] Dielectric characterization of diseased human trabecular bones at microwave frequency, Amin, Bilal, Shahzad, Atif, Farina, Laura, Parle, Eoin, McNamara, Laoise, O'Halloran, Martin, Elahi, Muhammad Adnan, Medical Engineering & Physics, ISSN 1350-4533, Issue , 2020.
Digital Object Identifier: 10.1016/j.medengphy.2020.01.014
[CrossRef]

[4] On the Optimal Measurement Configuration for Magnetic Nanoparticles-Enhanced Breast Cancer Microwave Imaging, Bucci, Ovidio Mario, Crocco, Lorenzo, Scapaticci, Rosa, IEEE Transactions on Biomedical Engineering, ISSN 0018-9294, Issue 2, Volume 62, 2015.
Digital Object Identifier: 10.1109/TBME.2014.2355411
[CrossRef]

[5] Microwave Bone Imaging: A Preliminary Investigation on Numerical Bone Phantoms for Bone Health Monitoring, Amin, Bilal, Shahzad, Atif, O’Halloran, Martin, Elahi, Muhammad Adnan, Sensors, ISSN 1424-8220, Issue 21, Volume 20, 2020.
Digital Object Identifier: 10.3390/s20216320
[CrossRef]

[6] Proposal for the detection of breast cancer at its early stage using wave-theory-based analysis in a tapered fiber structure illuminated by the Bessel–Gauss beam for enhanced sensitivity, Saha, Bijaya, Goswami, Nabamita, Saha, Ardhendu, Journal of the Optical Society of America B, ISSN 0740-3224, Issue 3, Volume 40, 2023.
Digital Object Identifier: 10.1364/JOSAB.479172
[CrossRef]

[7] MNP Enhanced Microwave Breast Cancer Imaging: Measurement Constraints and Achievable Performances, Bucci, O. M., Bellizzi, G., Catapano, I., Crocco, L., Scapaticci, R., IEEE Antennas and Wireless Propagation Letters, ISSN 1536-1225, Issue , 2012.
Digital Object Identifier: 10.1109/LAWP.2012.2236676
[CrossRef]

[8] Parameter Identification for a New Circuit Model Aimed to Predict Body Water Volume, GHEORGHE, A.-G., MARIN, C.-V., CONSTANTINESCU, F., NITESCU, M., Advances in Electrical and Computer Engineering, ISSN 1582-7445, Issue 4, Volume 12, 2012.
Digital Object Identifier: 10.4316/AECE.2012.04013
[CrossRef] [Full text]

[9] Microwave Tomography for Industrial Process Imaging: Example Applications and Experimental Results, Wu, Zhipeng, Wang, Haigang, IEEE Antennas and Propagation Magazine, ISSN 1045-9243, Issue 5, Volume 59, 2017.
Digital Object Identifier: 10.1109/MAP.2017.2731201
[CrossRef]

[10] Experimental Validation of Microwave Tomography with the DBIM-TwIST Algorithm for Brain Stroke Detection and Classification, Karadima, Olympia, Rahman, Mohammed, Sotiriou, Ioannis, Ghavami, Navid, Lu, Pan, Ahsan, Syed, Kosmas, Panagiotis, Sensors, ISSN 1424-8220, Issue 3, Volume 20, 2020.
Digital Object Identifier: 10.3390/s20030840
[CrossRef]

[11] Microwave Bone Imaging: Reconstruction of Anthropomorphic Numerical Calcaneus Phantoms for Bone Diseases Diagnosis, Cannatà, Alessia, Elahi, Adnan, O’Halloran, Martin, Pasian, Marco, Di Meo, Simona, Matrone, Giulia, Amin, Bilal, IEEE Access, ISSN 2169-3536, Issue , 2024.
Digital Object Identifier: 10.1109/ACCESS.2024.3454523
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[12] LIGHT ASSISTED IN-VIVO MICROWAVE SENSING FOR ELECTRICAL CHARACTERIZATION OF PROKARYOTES, SHARMA, RAJVEER, DAYA, K. S., TIRUMALAI, PREM SARAN, Biophysical Reviews and Letters, ISSN 1793-0480, Issue 03n04, Volume 07, 2012.
Digital Object Identifier: 10.1142/S1793048012500105
[CrossRef]

[13] Exploiting Microwave Imaging Methods for Real-Time Monitoring of Thermal Ablation, Scapaticci, Rosa, Bellizzi, Gennaro G., Cavagnaro, Marta, Lopresto, Vanni, Crocco, Lorenzo, International Journal of Antennas and Propagation, ISSN 1687-5869, Issue , 2017.
Digital Object Identifier: 10.1155/2017/5231065
[CrossRef]

[14] Metasurface-Enhanced Antennas for Microwave Brain Imaging, Razzicchia, Eleonora, Lu, Pan, Guo, Wei, Karadima, Olympia, Sotiriou, Ioannis, Ghavami, Navid, Kallos, Efthymios, Palikaras, George, Kosmas, Panagiotis, Diagnostics, ISSN 2075-4418, Issue 3, Volume 11, 2021.
Digital Object Identifier: 10.3390/diagnostics11030424
[CrossRef]

[15] Toward Computerized Tomography With Microwaves, Mirjahanmardi, Seyed Hossein, Ramahi, Omar M., IEEE Transactions on Microwave Theory and Techniques, ISSN 0018-9480, Issue 11, Volume 70, 2022.
Digital Object Identifier: 10.1109/TMTT.2022.3205635
[CrossRef]

[16] A Flexible Wearable Thermography System Based on Bioheat Microsensors Network for Early Breast Cancer Detection: IoT Technology, Elouerghi, Achraf, Bellarbi, Larbi, Khomsi, Zakaryae, Jbari, Atman, Errachid, Abdelhamid, Yaakoubi, Nourdin, Virk, Gurvinder S., Journal of Electrical and Computer Engineering, ISSN 2090-0155, Issue , 2022.
Digital Object Identifier: 10.1155/2022/5921691
[CrossRef]

[17] An experimental study on the effects of the antenna — Breast surface separation in microwave radar imaging, Tapia, Daniel Flores, Herrera, Diego Rodriguez, Nepote, Mario Solis, Latif, Saeed, Pistorius, Stephen, 2014 IEEE Conference on Antenna Measurements & Applications (CAMA), ISBN 978-1-4799-3678-6, 2014.
Digital Object Identifier: 10.1109/CAMA.2014.7003314
[CrossRef]

[18] Basic investigation of breast cancer detection in early stage using microwave radiation: Finite element analysis approach, Sanpanich, A., Phasukkit, P., Tungjitkusolmun, S., Pintavirooj, C., Wongtrairat, W., The 4th 2011 Biomedical Engineering International Conference, ISBN 978-1-4577-2190-8, 2012.
Digital Object Identifier: 10.1109/BMEiCon.2012.6172054
[CrossRef]

[19] Software arbitrary signal generator on the PXI platform for application in microwave medical diagnostic system development, Krasnowski, Piotr, Jaworski, Grzegorz, 2018 22nd International Microwave and Radar Conference (MIKON), ISBN 978-83-949421-1-3, 2018.
Digital Object Identifier: 10.23919/MIKON.2018.8405298
[CrossRef]

[20] Flexible stepped impedance resonance antenna for early breast cancer detection, Ahmad, Nazihah, Jizat, Noorlindawaty Md., , ISBN , Issue , 2018.
Digital Object Identifier: 10.1063/1.5066643
[CrossRef]

[21] Multistatic Holographic Imaging for Breast Cancer Detection, Asghar, Iqra, Khan, Asim Ali, Keith Brown, Anthony, 2018 15th European Radar Conference (EuRAD), ISBN 978-2-87487-053-8, 2018.
Digital Object Identifier: 10.23919/EuRAD.2018.8546523
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[22] Computerized Tomography with Low-Frequency Electromagnetic Radiation, Mirjahanmardi, Seyed H., Ba Raean, Saleh, Akbari-Chelaresi, Hamid, Nayyeri, Vahid, Ramahi, Omar M., 2023 International Microwave and Antenna Symposium (IMAS), ISBN 978-1-6654-9075-7, 2023.
Digital Object Identifier: 10.1109/IMAS55807.2023.10066933
[CrossRef]

[23] Evaluation of prior information in microwave tomography experiments for brain stroke detection, Karadima, Olympia, Lu, Pan, Sotiriou, Ioannis, Kosmas, Panagiotis, 2021 IEEE Conference on Antenna Measurements & Applications (CAMA), ISBN 978-1-7281-9697-8, 2021.
Digital Object Identifier: 10.1109/CAMA49227.2021.9703553
[CrossRef]

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