Liu Yen-Bin, Lee Yuan-Teh, Pak Hui-Nam, Lin Shien-Fong, Fishbein Michael C, Chen Lan S, Merz C Noel Bairey, Chen Peng-Sheng
Department of Internal Medicine, Division of Cardiology, National Taiwan University Hospital and National Taiwan University School of Medicine, UCLA, Los Angeles, California, USA.
Heart Rhythm. 2009 Jan;6(1):69-75. doi: 10.1016/j.hrthm.2008.10.004. Epub 2008 Oct 7.
Significant cardiac neural and electrophysiologic remodeling occurs with hypercholesterolemia (HC). Whether simvastatin can reverse HC-induced remodeling is unclear.
The purpose of this study was to determine the mechanisms underlying the antiarrhythmic effects of statins.
Rabbits (N = 38) were fed HC chow (HC), standard chow (Control), HC chow followed by standard chow (Withdrawal), or HC chow and simvastatin (Statin) for 8 weeks. The hearts then were Langendorff-perfused for electrophysiologic studies. Nerves were identified by immunostaining of growth-associated protein-43 (GAP43) and tyrosine hydroxylase (TH). Action potential duration (APD) restitution in normal hearts with (N = 5) and without (N = 5) simvastatin therapy also was studied.
Serum cholesterol levels (mg/dL) were 1,855 +/- 533 in HC, 50 +/- 21 in Control, 570 +/- 115 in Withdrawal, and 873 +/- 112 in Statin groups (P <.001). Compared with HC (16,700 +/- 5,342; 12,200 +/- 3,878 microm(2)/mm(2)), the Statin group had significantly reduced GAP43-positive (10,289 +/- 3,393 microm(2)/mm(2), P = .03) and TH-positive (7,685 +/- 2,959 microm(2)/mm(2), P = .04) nerve density, respectively. APD was longer in HC rabbits than in controls (192 +/- 20 ms vs 174 +/- 17 ms; P <.03). Withdrawal and Statin groups had less APD prolongation than HC group. Statin group has less repolarization heterogeneity than HC group (P <.01). Statin therapy flattened the slope of APD restitution in normal hearts. Ventricular fibrillation was either induced or occurred spontaneously in 79% of hearts in HC, 20% in Control, and 66% in Withdrawal groups. However, there was no VF in hearts of Statin group (P <.001).
Simvastatin significantly reduced vulnerability to ventricular fibrillation via the mechanism of reduction of HC-induced neural and electrophysiologic remodeling.
高胆固醇血症(HC)会导致显著的心脏神经和电生理重塑。辛伐他汀是否能逆转HC诱导的重塑尚不清楚。
本研究旨在确定他汀类药物抗心律失常作用的潜在机制。
将38只兔子分为四组,分别给予高胆固醇饲料(HC组)、标准饲料(对照组)、先给予高胆固醇饲料后改为标准饲料(撤药组)或高胆固醇饲料加辛伐他汀(他汀组),喂养8周。然后对心脏进行Langendorff灌注以进行电生理研究。通过生长相关蛋白43(GAP43)和酪氨酸羟化酶(TH)的免疫染色来识别神经。还研究了接受(n = 5)和未接受(n = 5)辛伐他汀治疗的正常心脏的动作电位时程(APD)恢复情况。
HC组血清胆固醇水平(mg/dL)为1,855±533,对照组为50±21,撤药组为570±115,他汀组为873±112(P <.001)。与HC组(16,700±5,342;12,200±3,878μm²/mm²)相比,他汀组GAP43阳性神经密度(10,289±3,393μm²/mm²,P =.03)和TH阳性神经密度(7,685±2,959μm²/mm²,P =.04)均显著降低。HC组兔子的APD长于对照组(192±20 ms对174±17 ms;P <.03)。撤药组和他汀组的APD延长程度低于HC组。他汀组的复极异质性低于HC组(P <.01)。辛伐他汀治疗使正常心脏的APD恢复斜率变平。HC组79%的心脏诱发或自发发生心室颤动,对照组为20%,撤药组为66%。然而,他汀组心脏未发生心室颤动(P <.001)。
辛伐他汀通过减少HC诱导的神经和电生理重塑,显著降低心室颤动的易感性。