Department of Biomedical Engineering,
Department of Radiology
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Multiple-electrode radiofrequency ablation creates confluent areas of necrosis: in vivo porcine liver results.
Radiology Oct, 2006 | Pubmed ID: 16928978
Microwave ablation with a single small-gauge triaxial antenna: in vivo porcine liver model.
Radiology Feb, 2007 | Pubmed ID: 17255414
Microwave ablation with multiple simultaneously powered small-gauge triaxial antennas: results from an in vivo swine liver model.
Radiology Jul, 2007 | Pubmed ID: 17581900
Electrical isolation during radiofrequency ablation: 5% dextrose in water provides better protection than saline.
Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference , 2006 | Pubmed ID: 17947126
Microwave Ablation With a Triaxial Antenna: Results in ex vivo Bovine Liver.
IEEE transactions on microwave theory and techniques Jan, 2005 | Pubmed ID: 18079981
Analysis and experimental validation of a triaxial antenna for microwave tumor ablation.
IEEE MTT-S International Microwave Symposium digest. IEEE MTT-S International Microwave Symposium Jun, 2004 | Pubmed ID: 18079982
Microwave ablation with triaxial antennas tuned for lung: results in an in vivo porcine model.
Radiology Apr, 2008 | Pubmed ID: 18292471
Does selective intubation increase ablation zone size during pulmonary cryoablation?
Journal of vascular and interventional radiology : JVIR Oct, 2008 | Pubmed ID: 18662888
Radiofrequency ablation: simultaneous application of multiple electrodes via switching creates larger, more confluent ablations than sequential application in a large animal model.
Journal of vascular and interventional radiology : JVIR Jan, 2009 | Pubmed ID: 19019701
Temperature-dependent dielectric properties of liver tissue measured during thermal ablation: toward an improved numerical model.
Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference , 2008 | Pubmed ID: 19162635
Microwave ablation technology: what every user should know.
Current problems in diagnostic radiology Mar-Apr, 2009 | Pubmed ID: 19179193
Young's modulus reconstruction for radio-frequency ablation electrode-induced displacement fields: a feasibility study.
IEEE transactions on medical imaging Aug, 2009 | Pubmed ID: 19258195
Radiofrequency and microwave ablation of the liver, lung, kidney, and bone: what are the differences?
Current problems in diagnostic radiology May-Jun, 2009 | Pubmed ID: 19298912
Pulmonary thermal ablation: comparison of radiofrequency and microwave devices by using gross pathologic and CT findings in a swine model.
Radiology Jun, 2009 | Pubmed ID: 19336667
Tumor boundary estimation through time-domain peaks monitoring: numerical predictions and experimental results in tissue-mimicking phantoms.
IEEE transactions on bio-medical engineering Nov, 2009 | Pubmed ID: 19567338
Microwave ablation versus radiofrequency ablation in the kidney: high-power triaxial antennas create larger ablation zones than similarly sized internally cooled electrodes.
Journal of vascular and interventional radiology : JVIR Sep, 2009 | Pubmed ID: 19616970
Periodic contrast-enhanced computed tomography for thermal ablation monitoring: a feasibility study.
Conference proceedings : ... Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Conference , 2009 | Pubmed ID: 19964106
Optimizing the protocol for pulmonary cryoablation: a comparison of a dual- and triple-freeze protocol.
Cardiovascular and interventional radiology Dec, 2010 | Pubmed ID: 20437048
Tissue contraction caused by radiofrequency and microwave ablation: a laboratory study in liver and lung.
Journal of vascular and interventional radiology : JVIR Aug, 2010 | Pubmed ID: 20537559
Microwave tumor ablation: mechanism of action, clinical results, and devices.
Journal of vascular and interventional radiology : JVIR Aug, 2010 | Pubmed ID: 20656229
Microwave tissue ablation: biophysics, technology, and applications.
Critical reviews in biomedical engineering , 2010 | Pubmed ID: 21175404
Principles of and advances in percutaneous ablation.
Radiology Feb, 2011 | Pubmed ID: 21273519
Thermal ablation of lung tumors.
Surgical oncology clinics of North America Apr, 2011 | Pubmed ID: 21377589
Expanded modeling of temperature-dependent dielectric properties for microwave thermal ablation.
Physics in medicine and biology Aug, 2011 | Pubmed ID: 21791728
Multiple-Antenna Microwave Ablation: Spatially Distributing Power Improves Thermal Profiles and Reduces Invasiveness.
Journal of interventional oncology , 2009 | Pubmed ID: 21857888
Dual-slot antennas for microwave tissue heating: parametric design analysis and experimental validation.
Medical physics Jul, 2011 | Pubmed ID: 21859025
Tissue dielectric measurement using an interstitial dipole antenna.
IEEE transactions on bio-medical engineering Jan, 2012 | Pubmed ID: 21914566
High-Powered Microwave Ablation with a Small-Gauge, Gas-Cooled Antenna: Initial Ex Vivo and In Vivo Results.
Journal of vascular and interventional radiology : JVIR Jan, 2012 | Pubmed ID: 22277272
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