K. Vidjak, F. Liporace & M. Cavagnaro. (2023) Microwave Thermal Ablation: Advancements and Future Perspectives. Microwave Thermal Ablation: Advancements and Future Perspectives.
Vellavalapalli Satish & Ramjee Repaka. (2023) Microwave Ablation Trocar Operated at Dual Tine Dual-Frequency: A Numerical Analysis. Journal of Engineering and Science in Medical Diagnostics and Therapy 6:2.
Crossref
Mengchu Wang, Marta Cavagnaro, Rosa Scapaticci, Sandra Costanzo & Lorenzo Crocco. 2023. Electromagnetic Imaging for a Novel Generation of Medical Devices. Electromagnetic Imaging for a Novel Generation of Medical Devices
331
356
.
Xiaofei Jin, Wenwen Liu, Yiran Li, Lu Qian, Qiaoqiao Zhu, Weitao Li & Zhiyu Qian. (2022)
Evaluation method of
ex vivo
porcine liver reduced scattering coefficient during microwave ablation based on temperature
. Biomedical Engineering / Biomedizinische Technik 67:6, pages 491-501.
Crossref
Dan Wei, Meiling Li, Guoqiang He, Jinxin Du, Zixuan Yi & Xue-xia Yang. (2022) Nearly spherical ablation zone with minimally invasive microwave ablation: Analysis and experimental characterization of a tapered-tip symmetric dipole antenna. International Journal of Thermal Sciences 172, pages 107330.
Crossref
Zoi Tokoutsi, Marco Baragona & Bruno Frackowiak. (2021) Effective models of microwave antennae for ablation treatment planning. Effective models of microwave antennae for ablation treatment planning.
Ghina Zia, Jan Sebek & Punit Prakash. (2021) Temperature-dependent dielectric properties of human uterine fibroids over microwave frequencies. Biomedical Physics & Engineering Express 7:6, pages 065038.
Crossref
Mengchu Wang, Lorenzo Crocco & Marta Cavagnaro. (2021) On the Design of a Microwave Imaging System to Monitor Thermal Ablation of Liver Tumors. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology 5:3, pages 231-237.
Crossref
Zheng Cai Lou. (2021) Rapid hemostasis: a novel and effective outpatient procedure using microwave ablation to control epistaxis of isolated mucosal bulge lesions. Brazilian Journal of Otorhinolaryngology 87:3, pages 269-273.
Crossref
Martina Zaltieri, Carlo Massaroni, Filippo Maria Cauti & Emiliano Schena. (2021) Techniques for Temperature Monitoring of Myocardial Tissue Undergoing Radiofrequency Ablation Treatments: An Overview. Sensors 21:4, pages 1453.
Crossref
Christoph Erxleben, Stefan M Niehues, Beatrice Geyer, Franz Poch, Keno K Bressem, Kai S Lehmann & Janis L Vahldiek. (2020) CT-based quantification of short-term tissue shrinkage following hepatic microwave ablation in an in vivo porcine liver model. Acta Radiologica 62:1, pages 12-18.
Crossref
Hojjatollah Fallahi, Jan Sebek & Punit Prakash. (2021)
Broadband Dielectric Properties of
Ex Vivo
Bovine Liver Tissue Characterized at Ablative Temperatures
. IEEE Transactions on Biomedical Engineering 68:1, pages 90-98.
Crossref
M. Soltani, Masoud H.H. Tehrani, Farshad Moradi Kashkooli & Mohsen Rezaeian. (2020) Effects of magnetic nanoparticle diffusion on microwave ablation treatment: A numerical approach. Journal of Magnetism and Magnetic Materials 514, pages 167196.
Crossref
Masoud H. H. Tehrani, M. Soltani, Farshad Moradi Kashkooli & Kaamran Raahemifar. (2020) Use of microwave ablation for thermal treatment of solid tumors with different shapes and sizes—A computational approach. PLOS ONE 15:6, pages e0233219.
Crossref
Jarrod A. Collins, Jon S. Heiselman, Logan W. Clements, Jared A. Weis, Daniel B. Brown & Michael I. Miga. (2020) Toward Image Data-Driven Predictive Modeling for Guiding Thermal Ablative Therapy. IEEE Transactions on Biomedical Engineering 67:6, pages 1548-1557.
Crossref
Defu Yang & Miao Cao. (2020) Effect of changes in lung physical properties on microwave ablation zone during respiration. Biomedical Engineering Letters 10:2, pages 285-298.
Crossref
Marta Cavagnaro, Rosanna Pinto & Vanni Lopresto. (2020) Investigation on temperature-dependent changes of tissue thermal properties on microwave ablation treatments. Investigation on temperature-dependent changes of tissue thermal properties on microwave ablation treatments.
Keno K. Bressem, Janis L. Vahldiek, Christoph Erxleben, Franz Poch, Seyd Shnaiyen, Beatrice Geyer, Kai S. Lehmann, Bernd Hamm & Stefan M. Niehues. (2020) Exploring Patterns of Dynamic Size Changes of Lesions after Hepatic Microwave Ablation in an In Vivo Porcine Model. Scientific Reports 10:1.
Crossref
Sundeep Singh & Roderick Melnik. (2019) Coupled thermo-electro-mechanical models for thermal ablation of biological tissues and heat relaxation time effects. Physics in Medicine & Biology 64:24, pages 245008.
Crossref
L. Farina, A. J. de Marco, A. Bottiglieri, G. Ruvio, J. Eaton-Evans, M. C. Dennedy, A. M. Elahi & M. Ohalloran. (2019) Microwave Ablation Antenna for Functional Adenomas in the Adrenal Gland. Microwave Ablation Antenna for Functional Adenomas in the Adrenal Gland.
Zheng‐Cai Lou, Yihan Dong & Zi‐Han Lou. (2019) Microwave ablation for the treatment of arterial epistaxis: “how I do it”. International Forum of Allergy & Rhinology 9:6, pages 702-706.
Crossref
L Strigari, S Minosse, D D’Alessio, L Farina, M Cavagnaro, B Cassano, R Pinto, G Vallati & V Lopresto. (2019) Microwave thermal ablation using CT-scanner for predicting the variation of ablated region over time: advantages and limitations. Physics in Medicine & Biology 64:11, pages 115021.
Crossref
V Lopresto, A Argentieri, R Pinto & M Cavagnaro. (2019)
Temperature dependence of thermal properties of
ex vivo
liver tissue up to ablative temperatures
. Physics in Medicine & Biology 64:10, pages 105016.
Crossref
Hongjian Gao, Xiaoru Wang, Shuicai Wu, Zhuhuang Zhou & Yanping Bai. (2019) 2450-MHz microwave ablation temperature simulation using temperature-dependence feedback of characteristic parameters. International Journal of RF and Microwave Computer-Aided Engineering 29:1, pages e21488.
Crossref
Rosa Scapaticci, Vanni Lopresto, Rosanna Pinto, Marta Cavagnaro & Lorenzo Crocco. (2018) Monitoring Thermal Ablation via Microwave Tomography: An Ex Vivo Experimental Assessment. Diagnostics 8:4, pages 81.
Crossref
Luz Maria Neira, James Sawicki, Barry D. Van Veen & Susan C. Hagness. (2018) Characterization and Analysis of Wideband Temperature-Dependent Dielectric Properties of Liver Tissue for Next-Generation Minimally Invasive Microwave Tumor Ablation Technology. Characterization and Analysis of Wideband Temperature-Dependent Dielectric Properties of Liver Tissue for Next-Generation Minimally Invasive Microwave Tumor Ablation Technology.
L. Farina, Y. Nissenbaum, S.N. Goldberg & M. Cavagnaro. (2018) Tissue Shrinkage in Microwave Ablation: Ex Vivo Predictive Model Validation. Tissue Shrinkage in Microwave Ablation: Ex Vivo Predictive Model Validation.
Vanni Lopresto, Lidia Strigari, Laura Farina, Silvia Minosse, Rosanna Pinto, Daniela D’Alessio, Bartolomeo Cassano & Marta Cavagnaro. (2018)
CT-based investigation of the contraction of
ex vivo
tissue undergoing microwave thermal ablation
. Physics in Medicine & Biology 63:5, pages 055019.
Crossref
Irene Karanasiou & Maria Koutsoupidou. 2018. Emerging Electromagnetic Technologies for Brain Diseases Diagnostics, Monitoring and Therapy. Emerging Electromagnetic Technologies for Brain Diseases Diagnostics, Monitoring and Therapy
211
241
.
Jan Sebek, Sergio Curto, Jimmy Eaton-Evans, Jonathan Bouchier-Hayes, Giuseppe Ruvio, Chanran Ganta, Warren Beard, Navtej Buttar, Louis Wong Kee Song & Punit Prakash. (2017) Feasibility Assessment of Microwave Ablation for Treating Esophageal Varices. Journal of Medical Devices 11:3.
Crossref
L. Farina, V. Lopresto, R. Pinto & M. Cavagnaro. (2017) Microwave thermal ablation: Performed studies and research needs. Microwave thermal ablation: Performed studies and research needs.
Vanni Lopresto, Rosanna Pinto, Laura Farina & Marta Cavagnaro. (2017) Microwave thermal ablation: Effects of tissue properties variations on predictive models for treatment planning. Medical Engineering & Physics 46, pages 63-70.
Crossref
Dong Liu & Christopher L Brace. (2017) Numerical simulation of microwave ablation incorporating tissue contraction based on thermal dose. Physics in Medicine and Biology 62:6, pages 2070-2086.
Crossref
Gennaro G. Bellizzi, Lorenzo Crocco, Marta Cavagnaro, Laura Farina, Vanni Lopresto & Rosa Scapaticci. (2017) A full-wave numerical assessment of microwave tomography for monitoring cancer ablation. A full-wave numerical assessment of microwave tomography for monitoring cancer ablation.
Hojjatollah FallahiJan ŠebekEric FratturaJessica SchenckPunit Prakash. Global microwave endometrial ablation for menorrhagia treatment. Global microwave endometrial ablation for menorrhagia treatment.
Rosa Scapaticci, Gennaro G. Bellizzi, Marta Cavagnaro, Vanni Lopresto & Lorenzo Crocco. (2017) Exploiting Microwave Imaging Methods for Real-Time Monitoring of Thermal Ablation. International Journal of Antennas and Propagation 2017, pages 1-13.
Crossref
Ovidio M. Bucci, Marta Cavagnaro, Lorenzo Crocco, Vanni Lopresto & Rosa Scapaticci. (2016) Microwave ablation monitoring via microwave tomography: A numerical feasibility assessment. Microwave ablation monitoring via microwave tomography: A numerical feasibility assessment.
Sergio Curto, Mohammed Taj‐Eldin, Dillon Fairchild & Punit Prakash. (2015) Microwave ablation at 915 MHz vs 2.45 GHz: A theoretical and experimental investigation. Medical Physics 42:11, pages 6152-6161.
Crossref
L. Farina, V. Lopresto, R. Pinto, D. D'Alessio, S. Minosse, L. Strigari & M. Cavagnaro. (2015) The use of CT to improve the knowledge of the physical phenomena associated with microwave thermal ablation procedures. The use of CT to improve the knowledge of the physical phenomena associated with microwave thermal ablation procedures.
M Cavagnaro, R Pinto & V Lopresto. (2015)
Numerical models to evaluate the temperature increase induced by
ex vivo
microwave thermal ablation
. Physics in Medicine and Biology 60:8, pages 3287-3311.
Crossref
M. Cavagnaro, R. Pinto & V. Lopresto. (2014) Numerical models of microwave thermal ablation procedures. Numerical models of microwave thermal ablation procedures.