经导管微波消融术可实现深且环形的血管周围神经损伤，而不会显著损伤动脉，从而提供有效的肾脏去神经支配。

Transcatheter microwave ablation can deliver deep and circumferential perivascular nerve injury without significant arterial injury to provide effective renal denervation.

机构信息

Cardiology Department, Westmead Hospital.

Sydney Medical School.

出版信息

J Hypertens. 2019 Oct;37(10):2083-2092. doi: 10.1097/HJH.0000000000002104.

DOI:10.1097/HJH.0000000000002104

PMID:31033726

Abstract

BACKGROUND

Clinical studies of transcatheter radiofrequency renal denervation for treating hypertension have been hampered by the lack of consistent denervation efficacy. We aimed to demonstrate the short-term efficacy and safety of transcatheter microwave renal denervation.

METHODS

A novel 7F microwave system was validated in a sheep model of unilateral renal denervation. Up to two microwave ablations were delivered to each artery with maximum power at 100-110 W for 480 s.

RESULTS

Catheter deployment and ablation was successful in all 19 targeted vessel segments, and ablation produced substantial circumferential perivascular injury; median ablation lesion area greater than 395 [interquartile range (IQR) 251-437] mm, depth 17.1 (IQR 15.8-18.4) mm, length 16 (IQR 12-20) mm, without collateral visceral injury. Limiting power to 100 W minimized arterial injury, while maintaining a deep circumferential perivascular ablation. Microwave denervation reduced median functional sympathetic nerve surface area at the renal hilum on antityrosine hydroxylase staining by 100% (IQR 87-100%, P = 0.0039), and median renal cortical norepinephrine content by 83% (IQR 76-92%, P = 0.0078), compared to the paired control kidney at 2-3 weeks postprocedure.

CONCLUSION

Transcatheter microwave ablation can produce deep circumferential perivascular ablations over a long segment of the renal artery without significant arterial or collateral visceral injury to provide effective renal denervation.

摘要

背景

经导管射频去肾神经术治疗高血压的临床研究受到去神经效果不一致的阻碍。我们旨在证明经导管微波去肾神经术的短期疗效和安全性。

方法

一种新型的 7F 微波系统在单侧肾去神经的绵羊模型中得到了验证。每个动脉最多可进行两次微波消融，最大功率为 100-110W，持续 480s。

结果

所有 19 个靶向血管节段的导管部署和消融均成功，消融产生了广泛的血管周围损伤；平均消融损伤面积大于 395[四分位距（IQR）251-437]mm，深度 17.1（IQR 15.8-18.4）mm，长度 16（IQR 12-20）mm，无内脏侧支损伤。将功率限制在 100W 可最大限度地减少动脉损伤，同时保持深周向血管周围消融。与术后 2-3 周的配对对照肾相比，微波去神经术通过抗酪氨酸羟化酶染色将肾门处功能性交感神经表面面积平均减少 100%（IQR 87-100%，P=0.0039），肾皮质去甲肾上腺素含量平均减少 83%（IQR 76-92%，P=0.0078）。

结论

经导管微波消融可在肾动脉长段产生深周向血管周围消融，而不会对动脉或内脏侧支造成明显损伤，从而提供有效的肾去神经术。

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经导管微波消融术可实现深且环形的血管周围神经损伤，而不会显著损伤动脉，从而提供有效的肾脏去神经支配。

Transcatheter microwave ablation can deliver deep and circumferential perivascular nerve injury without significant arterial injury to provide effective renal denervation.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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