Jiayi Lu1, Zhenglong Wang1, Tingquan Zhou1, Shaojie Chen1, Weijie Chen1, Huaan Du1, Zhen Tan1, Hanxuan Yang1, Xinyu Hu1, Chang Liu1, Zhiyu Ling1, Zengzhang Liu1, Bernhard Zrenner1, Kamsang Woo1, Yuehui Yin2. 1. From the Department of Cardiology, the Second Affiliated Hospital of Chongqing Medical University, Chongqing Cardiac Arrhythmias Therapeutic Service Center, Chongqing, China (J.L., Z.W., T.Z., S.C., W.C., H.D., Z.T., H.Y., X.H., C.L., Z.L., Z.L., Y.Y.); Medizinische Klinik I, Krankenhaus Landshut/Achdorf, Landshut, Germany (B.Z.); and School of Life Sciences, the Chinese University of Hong Kong, Hong Kong, China (K.W.). 2. From the Department of Cardiology, the Second Affiliated Hospital of Chongqing Medical University, Chongqing Cardiac Arrhythmias Therapeutic Service Center, Chongqing, China (J.L., Z.W., T.Z., S.C., W.C., H.D., Z.T., H.Y., X.H., C.L., Z.L., Z.L., Y.Y.); Medizinische Klinik I, Krankenhaus Landshut/Achdorf, Landshut, Germany (B.Z.); and School of Life Sciences, the Chinese University of Hong Kong, Hong Kong, China (K.W.). yinyh63@163.com.
Abstract
BACKGROUND: Electric stimulation has been proved to be available to monitor the efficacy of renal denervation (RDN). This study was to evaluate the effectiveness of high-frequency stimulation (HFS)-guided proximal RDN. METHODS AND RESULTS: A total of 13 Chinese Kunming dogs were included and allocated to proximal RDN group (n=8) and control group (n=5). HFS (20 Hz, 8 V, pulse width 2 ms) was performed from proximal to distal renal artery in all dogs. Radiofrequency ablations were delivered in proximal RDN group and only at the proximal positive sites where systolic blood pressure (BP) increased ≥10 mm Hg during HFS. Postablation HFS was performed over the previously stimulated sites. BP, heart rate, and plasma norepinephrine were analyzed. In 8 denervated dogs, preablation HFS caused significant BP increases of 6.0±5.0/3.4±5.5, 16.9±11.7/11.1±8.5, and 17.1±8.4/8.5±5.3 mm Hg during the first, second, and third 20 s of HFS at the proximal positive sites. After ablation, these sites showed a negative response to postablation HFS with increases of BP by 1.3±3.0/1.0±2.5, 0.8±3.9/1.5±3.4, and 1.5±4.5/0.7±3.8 mm Hg. Of note, no radiofrequency applications were delivered at the positive sites of middle renal artery, repeated HFS increased BP only by 3.3±5.3/2.8±4.2, 5.3±6.6/3.8±4.7, and 2.9±4.6/1.3±3.2 mm Hg, failed to reproduce the previous BP increases of 6.2±5.6/5.3±4.4, 15.0±9.3/10.2±6.2, and 14.9±7.7/8.4±4.7 mm Hg. At 3 months, BP and plasma norepinephrine substantially decreased in proximal RDN group. Whereas controls showed minimal BP decreases and had similar plasma norepinephrine concentrations as baseline. CONCLUSIONS: Renal afferent nerves can be mapped safely, and HFS-guided targeted proximal RDN can achieve apparent BP reduction and sympathetic inhibition.
BACKGROUND: Electric stimulation has been proved to be available to monitor the efficacy of renal denervation (RDN). This study was to evaluate the effectiveness of high-frequency stimulation (HFS)-guided proximal RDN. METHODS AND RESULTS: A total of 13 Chinese Kunming dogs were included and allocated to proximal RDN group (n=8) and control group (n=5). HFS (20 Hz, 8 V, pulse width 2 ms) was performed from proximal to distal renal artery in all dogs. Radiofrequency ablations were delivered in proximal RDN group and only at the proximal positive sites where systolic blood pressure (BP) increased ≥10 mm Hg during HFS. Postablation HFS was performed over the previously stimulated sites. BP, heart rate, and plasma norepinephrine were analyzed. In 8 denervated dogs, preablation HFS caused significant BP increases of 6.0±5.0/3.4±5.5, 16.9±11.7/11.1±8.5, and 17.1±8.4/8.5±5.3 mm Hg during the first, second, and third 20 s of HFS at the proximal positive sites. After ablation, these sites showed a negative response to postablation HFS with increases of BP by 1.3±3.0/1.0±2.5, 0.8±3.9/1.5±3.4, and 1.5±4.5/0.7±3.8 mm Hg. Of note, no radiofrequency applications were delivered at the positive sites of middle renal artery, repeated HFS increased BP only by 3.3±5.3/2.8±4.2, 5.3±6.6/3.8±4.7, and 2.9±4.6/1.3±3.2 mm Hg, failed to reproduce the previous BP increases of 6.2±5.6/5.3±4.4, 15.0±9.3/10.2±6.2, and 14.9±7.7/8.4±4.7 mm Hg. At 3 months, BP and plasma norepinephrine substantially decreased in proximal RDN group. Whereas controls showed minimal BP decreases and had similar plasma norepinephrine concentrations as baseline. CONCLUSIONS: Renal afferent nerves can be mapped safely, and HFS-guided targeted proximal RDN can achieve apparent BP reduction and sympathetic inhibition.
Authors: Annemiek F Hoogerwaard; Ahmet Adiyaman; Mark R de Jong; Jaap Jan J Smit; Peter Paul H M Delnoy; Jan-Evert Heeg; Boudewijn A A M van Hasselt; Anand R Ramdat Misier; Michiel Rienstra; Arif Elvan Journal: Clin Res Cardiol Date: 2018-05-29 Impact factor: 5.460
Authors: Marat Fudim; Asher A Sobotka; Yue-Hui Yin; Joanne W Wang; Howard Levin; Murray Esler; Jie Wang; Paul A Sobotka Journal: Curr Hypertens Rep Date: 2018-05-01 Impact factor: 5.369