Department of Heart Disease, Haukeland University Hospital, Bergen, Norway.
Eur J Heart Fail. 2012 May;14(5):506-16. doi: 10.1093/eurjhf/hfr162. Epub 2012 Jan 26.
The effect on left ventricular (LV) systolic function and LV dyssynchrony by alternative right ventricular (RV) lead position in cardiac resynchronization therapy (CRT) is unclear. In the present study, RV apical (RV-A) was compared with RV high posterior septal (RV-HS) lead position in CRT.
In 85 consecutive CRT patients (mean age 66 ±11 years) the RV lead placement was randomized to RV-A (n = 43) or RV-HS (n = 42). The LV lead was targeted to the latest activated LV segment (concordant LV lead), identified by two-dimensional speckle tracking radial strain (ST-RS) echocardiography. Concordant LV leads were obtained in 72%, similar in RV-A and RV-HS (79% vs. 64%; P = 0.13). Six months after CRT, no difference was found in LV reverse remodelling (reduction of LV end-systolic volume ≥15%) according to RV-A and RV-HS leads [26 (65%) vs. 25 (64%); P = 0.93]. Superior LV reverse remodelling was observed in concordant LV leads compared with discordant LV leads [41 (73%) vs. 10 (43%); P = 0.01]. At 6-month follow-up, LV reverse dyssynchrony (reduction of anteroseptal to posterior delay ≥50%) using ST-RS imaging was similar in RV-A and RV-HS [25 (63%) vs. 24 (62%); P = 0.93]. More LV reverse dyssynchrony was found in concordant LV leads vs. discordant LV leads [39 (70%) vs. 10 (43%); P = 0.03]. A concordant LV lead was an independent predictor of LV reverse remodelling (odds ratio, 3.65; P = 0.01) and LV reverse dyssynchrony (odds ratio, 4.22; P = 0.02) 6 months after CRT.
RV-A and RV-HS in CRT demonstrated similar LV reverse remodelling and LV reverse dyssynchrony at 6-month follow-up. Concordant LV leads provided superior LV reverse remodelling and LV reverse dyssynchrony.
心脏再同步治疗(CRT)中不同右心室(RV)导联位置对左心室(LV)收缩功能和 LV 不同步的影响尚不清楚。本研究比较了 CRT 中 RV 心尖(RV-A)和 RV 高位后间隔(RV-HS)导联位置。
85 例连续 CRT 患者(平均年龄 66±11 岁)的 RV 导联位置随机分为 RV-A(n=43)或 RV-HS(n=42)组。LV 导联被靶向到通过二维斑点追踪径向应变(ST-RS)超声心动图识别的最晚激活的 LV 节段(一致的 LV 导联)。在 RV-A 和 RV-HS 中获得了 72%的一致的 LV 导联,两者相似(79%比 64%;P=0.13)。CRT 后 6 个月,根据 RV-A 和 RV-HS 导联,LV 逆向重构(LV 收缩末期容积减少≥15%)无差异[26(65%)比 25(64%);P=0.93]。与不一致的 LV 导联相比,一致的 LV 导联观察到更好的 LV 逆向重构[41(73%)比 10(43%);P=0.01]。在 6 个月随访时,使用 ST-RS 成像的 LV 逆向不同步(前间隔至后间隔延迟减少≥50%)在 RV-A 和 RV-HS 中相似[25(63%)比 24(62%);P=0.93]。与不一致的 LV 导联相比,一致的 LV 导联显示出更多的 LV 逆向不同步[39(70%)比 10(43%);P=0.03]。CRT 后 6 个月,一致的 LV 导联是 LV 逆向重构(优势比,3.65;P=0.01)和 LV 逆向不同步(优势比,4.22;P=0.02)的独立预测因子。
CRT 中的 RV-A 和 RV-HS 在 6 个月随访时显示出相似的 LV 逆向重构和 LV 逆向不同步。一致的 LV 导联提供了更好的 LV 逆向重构和 LV 逆向不同步。
