直接冷却导管尖端可提高 CMＲ引导的电生理程序的安全性。

Direct cooling of the catheter tip increases safety for CMR-guided electrophysiological procedures.

机构信息

Department of Internal Medicine I, University Hospital Wuerzburg, Wuerzburg, Germany.

出版信息

J Cardiovasc Magn Reson. 2012 Feb 1;14(1):12. doi: 10.1186/1532-429X-14-12.

DOI:10.1186/1532-429X-14-12

PMID:22296883

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3292926/

Abstract

BACKGROUND

One of the safety concerns when performing electrophysiological (EP) procedures under magnetic resonance (MR) guidance is the risk of passive tissue heating due to the EP catheter being exposed to the radiofrequency (RF) field of the RF transmitting body coil. Ablation procedures that use catheters with irrigated tips are well established therapeutic options for the treatment of cardiac arrhythmias and when used in a modified mode might offer an additional system for suppressing passive catheter heating.

METHODS

A two-step approach was chosen. Firstly, tests on passive catheter heating were performed in a 1.5 T Avanto system (Siemens Healthcare Sector, Erlangen, Germany) using a ASTM Phantom in order to determine a possible maximum temperature rise. Secondly, a phantom was designed for simulation of the interface between blood and the vascular wall. The MR-RF induced temperature rise was simulated by catheter tip heating via a standard ablation generator. Power levels from 1 to 6 W were selected. Ablation duration was 120 s with no tip irrigation during the first 60 s and irrigation at rates from 2 ml/min to 35 ml/min for the remaining 60 s (Biotronik Qiona Pump, Berlin, Germany). The temperature was measured with fluoroscopic sensors (Luxtron, Santa Barbara, CA, USA) at a distance of 0 mm, 2 mm, 4 mm, and 6 mm from the catheter tip.

RESULTS

A maximum temperature rise of 22.4°C at the catheter tip was documented in the MR scanner. This temperature rise is equivalent to the heating effect of an ablator's power output of 6 W at a contact force of the weight of 90 g (0.883 N). The catheter tip irrigation was able to limit the temperature rise to less than 2°C for the majority of examined power levels, and for all examined power levels the residual temperature rise was less than 8°C.

CONCLUSION

Up to a maximum of 22.4°C, the temperature rise at the tissue surface can be entirely suppressed by using the catheter's own irrigation system. The irrigated tip system can be used to increase MR safety of EP catheters by suppressing the effects of unwanted passive catheter heating due to RF exposure from the MR scanner.

摘要

背景

在磁共振（MR）引导下进行电生理（EP）程序时，一个安全隐患是由于 EP 导管暴露于 RF 发射体线圈的射频（RF）场而导致的被动组织加热的风险。带有灌流尖端的消融程序是治疗心律失常的成熟治疗选择，并且当以改良模式使用时，可能提供用于抑制被动导管加热的附加系统。

方法

选择了两步法。首先，在 1.5 T Avanto 系统（西门子医疗保健部门，德国埃朗根）中使用 ASTM 体模进行被动导管加热测试，以确定可能的最大温升。其次，设计了一个用于模拟血液与血管壁之间界面的体模。通过标准消融发生器通过导管尖端加热模拟 MR-RF 引起的温升。选择了 1 至 6 W 的功率水平。消融持续时间为 120 s，在前 60 s 期间没有尖端灌流，在后 60 s 期间以 2 ml/min 至 35 ml/min 的速度灌流（Biotronik Qiona 泵，柏林，德国）。在距离导管尖端 0 mm、2 mm、4 mm 和 6 mm 的位置使用荧光透视传感器（Luxtron，加利福尼亚州圣巴巴拉）测量温度。

结果

在磁共振扫描仪中记录到导管尖端的最大温升为 22.4°C。这个温升相当于在 90 g（0.883 N）接触力下，消融器功率输出为 6 W 的加热效果。导管尖端灌流能够将大多数检查的功率水平下的温升限制在 2°C 以下，并且对于所有检查的功率水平，残留的温升都小于 8°C。

结论

在最大 22.4°C 下，通过使用导管自身的灌流系统可以完全抑制组织表面的温升。灌流尖端系统可用于通过抑制由于磁共振扫描仪的 RF 暴露而导致的不期望的被动导管加热的影响来提高 EP 导管的磁共振安全性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0a04/3292926/ed857352c9f0/1532-429X-14-12-1.jpg

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直接冷却导管尖端可提高 CMＲ 引导的电生理程序的安全性。

Direct cooling of the catheter tip increases safety for CMR-guided electrophysiological procedures.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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直接冷却导管尖端可提高 CMＲ引导的电生理程序的安全性。