scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1042816573 |
P356 | DOI | 10.1186/1475-925X-12-127 |
P932 | PMC publication ID | 3904760 |
P698 | PubMed publication ID | 24325296 |
P2093 | author name string | Aili Zhang | |
Lisa X Xu | |||
Qing Zhu | |||
Yuanyuan Shen | |||
P2860 | cites work | Radiofrequency ablation: effect of surrounding tissue composition on coagulation necrosis in a canine tumor model | Q76389804 |
Three-Dimensional finite-element analyses for radio-frequency hepatic tumor ablation | Q77508118 | ||
Analysis of tissue and arterial blood temperatures in the resting human forearm | Q79492175 | ||
Measurement and analysis of tissue temperature during microwave liver ablation | Q79683020 | ||
Computer modeling of the effect of perfusion on heating patterns in radiofrequency tumor ablation | Q80492907 | ||
Relationship between roll-off occurrence and spatial distribution of dehydrated tissue during RF ablation with cooled electrodes | Q83209634 | ||
Percutaneous radiofrequency ablation using internally cooled wet electrodes for the treatment of hepatocellular carcinoma | Q83303238 | ||
Design of microprobe for accurate thermal treatment of tumor | Q84567788 | ||
Temperature distribution analysis of tissue water vaporization during microwave ablation: experiments and simulations | Q84931539 | ||
Influence of electrical and thermal properties on RF ablation of breast cancer: is the tumour preferentially heated? | Q24814449 | ||
Observations on electrode-tissue interface temperature and effect on electrical impedance during radiofrequency ablation of ventricular myocardium | Q30456875 | ||
Imaging electric properties of biological tissues by RF field mapping in MRI. | Q30477268 | ||
Mathematical modeling of thermal ablation in tissue surrounding a large vessel | Q33388479 | ||
Percutaneous radiofrequency ablation for hepatocellular carcinoma. An analysis of 1000 cases | Q34390771 | ||
Image-guided radiofrequency ablation of renal cell carcinoma | Q34571679 | ||
Percutaneous radiofrequency ablation with multiple electrodes for medium-sized hepatocellular carcinomas | Q35659749 | ||
A review of the general aspects of radiofrequency ablation | Q36073901 | ||
Effectiveness of impedance monitoring during radiofrequency ablation for predicting popping | Q36378778 | ||
Theoretical modeling for radiofrequency ablation: state-of-the-art and challenges for the future. | Q36451569 | ||
Modeling optical and thermal distributions in tissue during laser irradiation | Q36465796 | ||
Effect of variable heat transfer coefficient on tissue temperature next to a large vessel during radiofrequency tumor ablation | Q36817760 | ||
What is the role for the circumferential margin in the modern treatment of rectal cancer? | Q37053363 | ||
Radiofrequency ablation: mechanism of action and devices | Q37775332 | ||
Considerations for thermal injury analysis for RF ablation devices | Q39673545 | ||
Mathematical modeling of epicardial RF ablation of atrial tissue with overlying epicardial fat. | Q39691874 | ||
Temperature distribution in tissues subjected to local hyperthermia by RF induction heating | Q42857314 | ||
Quality improvement guidelines for radiofrequency ablation of liver tumours | Q42922856 | ||
Computer modeling of the combined effects of perfusion, electrical conductivity, and thermal conductivity on tissue heating patterns in radiofrequency tumor ablation | Q44425407 | ||
Radiofrequency ablation of large size liver tumours using novel plan-parallel expandable bipolar electrodes: initial clinical experience | Q47176549 | ||
Cooled-tip ablation results in increased radiofrequency power delivery and lesion size in the canine heart: importance of catheter-tip temperature monitoring for prevention of popping and impedance rise | Q47193114 | ||
Bio-heat transfer model of deep brain stimulation-induced temperature changes | Q48359481 | ||
Multiple-electrode radiofrequency ablation: simultaneous production of separate zones of coagulation in an in vivo porcine liver model | Q48739257 | ||
The dielectric properties of biological tissues: II. Measurements in the frequency range 10 Hz to 20 GHz. | Q48875204 | ||
Expanding the bioheat equation to include tissue internal water evaporation during heating. | Q50936854 | ||
Percutaneous saline-enhanced radiofrequency ablation of unresectable hepatic tumors: initial experience in 26 patients. | Q51297446 | ||
RF tumour ablation: computer simulation and mathematical modelling of the effects of electrical and thermal conductivity. | Q51401979 | ||
Hybrid radiofrequency and cryoablation device: preliminary results in an animal model. | Q51604112 | ||
Thermal--electrical finite element modelling for radio frequency cardiac ablation: effects of changes in myocardial properties. | Q51644115 | ||
Temperature dependence of thermal conductivity of biological tissues | Q51820744 | ||
Determinants of impedance rise during catheter ablation of bovine myocardium with radiofrequency energy. | Q52485756 | ||
Changes in dielectric properties at 460 kHz of kidney and fat during heating: importance for radio-frequency thermal therapy | Q57134363 | ||
Hepatic bipolar radiofrequency ablation creates coagulation zones close to blood vessels: a finite element study | Q73517173 | ||
Hepatic metastases: percutaneous radio-frequency ablation with cooled-tip electrodes | Q73843525 | ||
Finite-element analysis of hepatic multiple probe radio-frequency ablation | Q74539982 | ||
Radiofrequency ablation for eradication of renal tumor in a rabbit model by using a cooled-tip electrode technique | Q74548796 | ||
P304 | page(s) | 127 | |
P577 | publication date | 2013-12-10 | |
P1433 | published in | BioMedical Engineering OnLine | Q15753859 |
P1476 | title | Numerical study of the influence of water evaporation on radiofrequency ablation | |
P478 | volume | 12 |
Q51096049 | A new approach to feedback control of radiofrequency ablation systems for large coagulation zones. |
Q38647550 | A piecewise function of resistivity of liver: determining parameters with finite element analysis of radiofrequency ablation. |
Q51190869 | Autofluorescence hyperspectral imaging of radiofrequency ablation lesions in porcine cardiac tissue. |
Q34401918 | CT imaging during microwave ablation: analysis of spatial and temporal tissue contraction |
Q99594803 | Key factors behind autofluorescence changes caused by ablation of cardiac tissue |
Q47363185 | Numerical analysis of the relationship between the area of target tissue necrosis and the size of target tissue in liver tumours with pulsed radiofrequency ablation |
Q38984461 | Numerical simulation of microwave ablation incorporating tissue contraction based on thermal dose |
Q47423660 | Study of the relationship between the target tissue necrosis volume and the target tissue size in liver tumours using two-compartment finite element RFA modelling |
Search more.