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心脏再同步治疗植入过程中冠状静脉的三维电解剖标测:可行性及可能的应用

Three-dimensional electroanatomic mapping of the coronary veins during cardiac resynchronization therapy implant: feasibility and possible applications.

作者信息

Niazi Imran, Ryu Kyungmoo, Hood Richard, Choudhuri Indrajit, Akhtar Masood

机构信息

Aurora Cardiovascular Services, Aurora Sinai/Aurora St. Luke's Medical Centers, University of Wisconsin School of Medicine and Public Health, 2801 W. Kinnickinnic River Parkway, #840, Milwaukee, 53215, WI, USA,

出版信息

J Interv Card Electrophysiol. 2014 Nov;41(2):147-53. doi: 10.1007/s10840-014-9932-9. Epub 2014 Jul 9.

DOI:10.1007/s10840-014-9932-9
PMID:25005455
Abstract

PURPOSE

Left ventricular (LV) electrical activation pattern could determine optimal LV lead placement site during cardiac resynchronization therapy (CRT) device implant. We sought to determine the feasibility of using EnSite NavX™ electroanatomic mapping system (St. Jude Medical Inc., St. Paul, MN) to assess LV electrical activation during CRT implant.

METHODS

Patients (n = 32; NYHA III, LVEF <35%, QRSd >120 ms) underwent NavX™ mapping during CRT implant. Left bundle branch block (LBBB) was present during sinus rhythm in group A (n = 17), whereas LBBB was induced by permanent RV apical pacing in group B (n = 15). Following coronary sinus (CS) cannulation, a coil tip 0.014-in. guidewire was introduced into all available CS branches as a mapping electrode. Each patient's unipolar activation map was successfully constructed within 10 min, using the onset of surface QRS as reference.

RESULTS

LV activation patterns were complex and varied in both groups. Earliest activation was usually apical, but latest activation was more heterogenous. The lateral or posterolateral branches were the sites of latest activation in 47% of group A and 73% of group B. An LV lead positioned conventionally by a physician blinded to the mapping data was concordant with the latest activated segment in 18% of group A and none of group B patients.

CONCLUSIONS

Electroanatomic mapping of the CS tributaries is feasible and clinically practicable. Mapping revealed heterogenous conduction patterns that vary between patients in each group and between groups. An LV lead empirically placed in a lateral branch rarely paces the optimal, latest activated vein segment.

摘要

目的

左心室(LV)电激活模式可在心脏再同步治疗(CRT)设备植入期间确定最佳左心室导线放置部位。我们试图确定使用EnSite NavX™电解剖标测系统(圣犹达医疗公司,明尼苏达州圣保罗)评估CRT植入期间左心室电激活的可行性。

方法

患者(n = 32;纽约心脏协会III级,左心室射血分数<35%,QRS时限>120 ms)在CRT植入期间接受NavX™标测。A组(n = 17)在窦性心律时存在左束支传导阻滞(LBBB),而B组(n = 15)通过永久性右心室心尖起搏诱发LBBB。在冠状窦(CS)插管后,将一根0.014英寸的线圈尖端导丝引入所有可用的CS分支作为标测电极。以体表QRS波起始点为参考,在10分钟内成功构建每位患者的单极激活图。

结果

两组的左心室激活模式均复杂且多样。最早激活通常位于心尖,但最晚激活更为异质性。外侧或后外侧分支是A组47%和B组73%的最晚激活部位。由对标测数据不知情的医生按常规放置的左心室导线与A组18%和B组无患者的最晚激活节段一致。

结论

CS支流的电解剖标测是可行的且在临床上切实可行。标测显示了每组患者之间以及两组之间不同的异质性传导模式。凭经验放置在外侧分支的左心室导线很少能起搏最佳的、最晚激活的静脉节段。

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