Tissue Temperatures and Lesion Size During Irrigated Tip Catheter Radiofrequency Ablation: An In Vitro Comparison of Temperature‐Controlled Irrigated Tip Ablation, Power‐Controlled Irrigated Tip Ablation, and Standard Temperature‐Controlled Ablation

Petersen, Hans Draminsky; Chen, Xu; Pietersen, Adrian; Svendsen, Jesper Hastrup; Haunsø, Stig

doi:10.1111/j.1540-8159.2000.tb00644.x

Cited by 93 publications

(57 citation statements)

References 11 publications

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“…In general, in non-PV tissue, tissue temperatures are correlated with lesion size. [13][14][15] With excessive temperatures, tissue charring, thrombus formation, and impedance rises occur, and the potential for collateral tissue injury is increased. 13 These surface changes may provide the substrate for embolic phenomena.…”

Section: Discussionmentioning

confidence: 99%

Analysis of Catheter-Tip (8-mm) and Actual Tissue Temperatures Achieved During Radiofrequency Ablation at the Orifice of the Pulmonary Vein

et al. 2004

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Background-Many ablative approaches in or near the orifice of the pulmonary vein (PV) have demonstrated success in eliminating atrial fibrillation. Despite current practice, there are no data regarding the in vivo efficacy and safety of an 8-mm catheter tip for ablation at the PV orifice. Methods and Results-Ten mongrel dogs were studied. Thermocouples were implanted in the atrial muscle of the PV orifice. Intracardiac echocardiography monitored catheter position, tip/tissue orientation, and microbubble formation. Ninety-four ablations were performed for 120 seconds. A temperature discrepancy Ͼ10°C between the catheter tip and tissue occurred during 47 (50%) of the ablations. Despite termination of energy delivery, the average tissue temperature remained within 1°C of the achieved steady state for 9 seconds. A temperature discrepancy Ͼ10°C was more common in the right superior PV, with oblique catheter positioning, when tissue temperatures were Ͼ60°C or 80°C, and with type 1 or type 2 microbubble formation. However, microbubbles were not present in 7 (13%, type 1) and 10 (40%, type 2) ablations with tissue temperatures Ͼ80°C. The maximum tissue temperature achieved with non-full-thickness lesions was 47.3Ϯ7.4°C vs 75.9Ϯ11.7°C (PϽ0.0001) for full-thickness lesions. Conclusions-Marked discrepancies between catheter-tip and tissue temperatures occurred with higher temperatures, prolonged ablation times, and unfavorable catheter thermistor-tissue contact. Also, these data suggest a conservative approach to atrial ablation, because full-thickness lesions were obtained when tissue temperatures reached 50°C to 60°C and the tissue retained high heat levels despite termination of radiofrequency energy. Finally, microbubbles are inconsistent markers of tissue overheating.

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Section: Discussionmentioning

confidence: 99%

Analysis of Catheter-Tip (8-mm) and Actual Tissue Temperatures Achieved During Radiofrequency Ablation at the Orifice of the Pulmonary Vein

et al. 2004

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“…8 The maximal tissue temperatures can therefore reach higher levels in irrigated than in nonirrigated temperature-controlled radiofrequency ablation, although in both types of ablation a plateau occurs in the tissue temperature during the course of the ablation. 8 A linearly increasing fall in impedance with an increasing catheter tip temperature has been described for nonirrigated ablation. 4,9,10 This has been suggested to be because of increased conductivity of cardiac tissue with heating.…”

Section: Discussionmentioning

confidence: 99%

“…8 Catheter tip temperature is less reflective of this maximum temperature with irrigation as this cools the catheter tip. 8 The maximal tissue temperatures can therefore reach higher levels in irrigated than in nonirrigated temperature-controlled radiofrequency ablation, although in both types of ablation a plateau occurs in the tissue temperature during the course of the ablation. 8 A linearly increasing fall in impedance with an increasing catheter tip temperature has been described for nonirrigated ablation.…”

Section: Discussionmentioning

confidence: 99%

Target Indices for Clinical Ablation in Atrial Fibrillation

Ullah

Hunter

Baker

et al. 2014

Circ: Arrhythmia and Electrophysiology

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Background-In animal studies of radiofrequency ablation, lesion sizes plateau as the maximum lesion size is reached for an ablation. Lesion parameters are not available in clinical ablations, but preclinical work suggests that these correlate with impedance drop and electrogram attenuation. Characterization of the relationships between catheter contact force, ablation duration, and these surrogate markers of lesion formation may allow us to define targets for effective ablation. Methods and Results-Fifteen patients undergoing first-time radiofrequency ablation for nonparoxysmal atrial fibrillation were studied. All were in atrial fibrillation at the time of the procedure. Ablations were performed with an irrigated-tip contact force-sensing catheter in temperature-controlled mode (temperature limited to 48°C, power to 30 W). Included were 285 left atrial static ablations, 247 with additional impedance data. The ablation force time integral (FTI) correlated with the attenuation of the electrogram with ablation (Spearman ρ, -0.14; P=0.02): the relationship plateauing from 500 g·s, a reduction in the electrogram amplitude of 20%. The FTI also correlated with the impedance drop during ablation (Spearman ρ, 0.79; P<0.0005): the relationship was logarithmic, the reduction in the impedance with an increasing FTI also plateauing from 500 g·s, an impedance drop of 7.5%. The ablation duration affected the impedance drop at an FTI if the duration was <10 s. Beyond this time point, the FTI achieved rather than the ablation duration or mean contact force applied determined the impedance drop. Conclusions-During nonparoxysmal atrial fibrillation ablation, an FTI of 500 g·s should be targeted with ablation duration of ≥10 s. Clinical Trials Registration-URL: http://clinicaltrials.gov/. Unique Identifier: NCT01587404.(Circ Arrhythm Electrophysiol. 2014;7:63-68.)

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“…The most frequently used RF delivery protocol is temperature control [2,3], which consists of modulating the applied RF voltage in order to keep the temperature measured in the active electrode approximately constant. The user sets the desired temperature value (target temperature) prior to ablation.…”

Section: Introductionmentioning

confidence: 99%

Could it be advantageous to tune the temperature controller during radiofrequency ablation? A feasibility study using theoretical models

Alba-Martínez

Trujillo

Blasco-Gimenez³

et al. 2011

International Journal of Hyperthermia

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electrode-tissue contact characteristics (insertion depth, cooling effect of circulating blood) and electrode characteristics (size, location and arrangement of the temperature sensor in the electrode). Results:The lesion dimensions and T max remained almost unchanged when the specific PI controller was used instead of one tuned for the standard case: T max varied less than 1.9ºC, lesion width less than 0.2 mm, and lesion depth less than 0.3 mm. As expected, we did observe a direct logical relationship between the response time of each controller and the transient value of electrode temperature. Conclusion:The results suggest that a PI controller designed for a standard case (such as that described in this study), could offer benefits under different tissue conditions, electrode-tissue contact, and electrode characteristics.

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Tissue Temperatures and Lesion Size During Irrigated Tip Catheter Radiofrequency Ablation: An In Vitro Comparison of Temperature‐Controlled Irrigated Tip Ablation, Power‐Controlled Irrigated Tip Ablation, and Standard Temperature‐Controlled Ablation

Cited by 93 publications

References 11 publications

Analysis of Catheter-Tip (8-mm) and Actual Tissue Temperatures Achieved During Radiofrequency Ablation at the Orifice of the Pulmonary Vein

Analysis of Catheter-Tip (8-mm) and Actual Tissue Temperatures Achieved During Radiofrequency Ablation at the Orifice of the Pulmonary Vein

Target Indices for Clinical Ablation in Atrial Fibrillation

Could it be advantageous to tune the temperature controller during radiofrequency ablation? A feasibility study using theoretical models

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