Effects of Volsartan on Transmural Heterogeneous Changes of Transient Outward Potassium Currents in Hypertrophic Cardiomyocytes in Rabbits

The transmural heterogeneous changes of transient outward potassium currents (Ito) in rabbit hypertrophic cardiaomyocytes and the effects of long-term prophylactic treatment with volsartan were investigated. Rabbits were divided into hypertrophy group (left ventricular hypertrophy induced by partial ligation of abdominal aorta), vol-treated group (volsartan was administrated after the ligation), and control group (sham operated). Myocytes were isolated by a two-step enzymatical method. The sub-endocardial (Endo) and sub-epicardium (Epi) tissues were separated from midmyocardium (Mid) with a razor. Whole-cell patch-clamp technique was used to record potassium currents. The results showed that membrane capacitance was larger in hypertrophic cells than those in control and vol-treated cells (P<0.01 vs control cells, n=30). The densities of Ito in hypertrophic cells were reduced by sub-epicardium (Epi) (27.8±2.9) %, midmyocardium (Mid) (41.0±4.7) %, and sub-endocardium (Endo) (20.3±3.4) % compared with those in control cells. The decrease of Ito density was more pronounced in Mid than in Epi and Endo (P<0.01 vs Epi or Endo). There were no significant differences in Ito densities between vol-treated group and control group in three layers separately. In conclusion, volsartan can inhibit the transmural heterogeneous changes of Ito in left ventricular hypertrophic cardiomyocytes in rabbit.

Electrical heterogeneity of canine right ventricular transient outward potassium currents

Background Some studies have confirmed that the right ventricular walls of most rodents, such as canines and humans, have evident transient outward potassium current (I to1) heterogeneity, and this heterogeneity is closely related to J point elevation, J wave formation, and some ventricular tachycardias such as ventricular fibrillations caused by Brugada syndrome. This study is designed to investigate transmural electrical heterogeneity of the canine right ventricle during repolarization (phase 1) from the viewpoint of 4-aminopyridine sensitive and calcium-independent I to1. Methods Adult canine single right ventricular epicardial (Epi) cells, mid-myocardial (M) cells, and endocardial (Endo) cells were enzymatically dissociated. Whole cell voltage-clamp recordings were made to compare the I to1 values of the three cell types. Results At 37℃ and using 0.2 Hz and +70 mV depolarizing test potentials, the average peak I to1 values of Epi cells and M cells averaged (4070±1720) pA and (3540±1840) pA, respectively. The activated and inactivated Epi and M cells kinetic processes were in accordance with the Boltzmann distribution. Compared with I to1 in Epi cells and M cells, the average peak I to1 in Endo cells was very low, averaged (470±130) pA. Conclusions These results suggest that there are evident differences and potent gradients in I to1 between the three cardiac cell types, especially between Epi and Endo cells. These differences are among the prominent manifestations of right ventricular electrical heterogeneity, and may form an important ionic basis and prerequisite for some malignant arrhythmias in the right ventricle, including those arising from Brugada syndrome and other diseases.

Two outward potassium current types are expressed during the neural differentiation of neural stem cells

The electrophysiological properties of potassium ion channels are regarded as a basic index for determining the functional differentiation of neural stem cells. In this study, neural stem cells from the hippocampus of newborn rats were induced to differentiate with neurotrophic growth factor, and the electrophysiological properties of the voltage-gated potassium ion channels were observed. Immunofluorescence staining showed that the rapidly proliferating neural stem cells formed spheres in vitro that expressed high levels of nestin. The differentiated neurons were shown to express neuron-specific enolase. Flow cytometric analysis revealed that the neural stem cells were actively dividing and the percentage of cells in the S ＋ G2/M phase was high. However, the ratio of cells in the S ＋ G2/M phase decreased obviously as differentiation proceeded. Whole-cell patch-clamp re- cordings revealed apparent changes in potassium ion currents as the neurons differentiated. The potassium ion currents consisted of one transient outward potassium ion current and one delayed rectifier potassium ion current, which were blocked by 4-aminopyridine and tetraethylammonium, respectively. The experimental findings indicate that neural stem cells from newborn rat hippo- campus could be cultured and induced to differentiate into functional neurons under defined condi- tions in vitro. The differentiated neurons expressed two types of outward potassium ion cur＇ents similar to those of mature neurons in vivo.

Characteristics of Transient Outward Potassium Channel Exposed to 3 mT Static Magnetic Field

Acutely isolated mouse hippocampal CA3 pyramidal neurons were exposed to 3 mT static magnetic field,and the characteristics of transient outward K+ channel were studied using the whole-cell patch-clamp technique.The experiment revealed that the amplitude of transient outward potassium channel current was reduced.The maximum activated current densities of control group and exposure group were 163.62±20.68 pA/pF and 98.74±16.57 pA/pF(n=12,P<0.01) respectively.The static magnetic field exposure affected the activation and inactivation process of transient outward potassium channel current.Due to the magnetic field exposure,the half-activation voltage of the activation curves changed from 5.59±1.96 mV to 27.87±7.24 mV(n=12,P<0.05) ,and the slope factor changed from 19.43±2.11 mV to 25.87±4.22 mV(n=12,P<0.05) .The half-inactivation voltage of the inactivation curves also changed from-56.09±0.89 mV to-57.16±1.10 mV(n=12,P>0.05) and the slope factor of the inactivation curves from 8.69±0.80 mV to 10.87±1.02 mV(n=12,P<0.05) .The results show that the static magnetic field can change the characteristics of transient outward K+ channel,and affect the physiological functions of neurons.

稳心颗粒对家兔3层心室肌细胞瞬时外向钾电流的影响

目的研究步长稳心颗粒对家兔左心室肌细胞瞬时外向钾电流(Ito)的影响,探讨稳心颗粒抗心律失常的作用机制。方法应用全细胞膜片钳技术,分别记录稳心颗粒组和对照组家兔内层(Endo)、中层(M)和外层(Epi)心室肌细胞的Ito,观察稳心颗粒对家兔心室肌细胞Ito的影响。结果在测试电压+50 mV时,对照组Epi、M和Endo细胞的Ito分别为(4 235.7±953.2)pA(n=11)、(4 115.8±743.1)pA(n=11)和(2 730.2±524.6)pA(n=11),Endo细胞的Ito电流强度明显小于Epi和M细胞(P<0.01);稳心颗粒灌胃给药后家兔左心室肌Epi、M和Endo细胞的Ito电流强度分别为(4 806.4±1 381.8)pA(n=11)、(4 661.3±902.6)pA(n=11)和(4 072.9±1 234.9)pA(n=11),与对照组相比稳心颗粒可明显增加Endo细胞Ito的电流强度(P<0.01)。结论稳心颗粒增加Endo心室肌细胞Ito的电流强度,使心室的跨壁复极离散度(TDR)减小,这可能是其抗心律失常的重要机制之一。

炙甘草汤含药血清对兔心肌细胞瞬间外向钾电流的影响

目的用血清药理学的方法研究炙甘草汤含药血清对兔心肌细胞瞬间外向钾电流(Ito)的影响。方法进行单个心室肌细胞的分离和膜片钳全细胞记录,将心室肌细胞分为对照组、空白血清组及5%、10%、20%、40%含药血清组,分别以普通细胞外液及加入上述不同浓度血清的细胞外液进行灌流,检测不同浓度含药血清对Ito的影响。结果含药血清可抑制Ito,5%、10%、20%、40%含药血清分别将Ito峰值(PA/PF)从(16·1±1·4)降至(13·9±1·5)、(11·8±1·9)、(8·3±1·5)、(8·2±1·2),洗脱后其作用可消除。结论炙甘草汤含药血清可抑制Ito,且呈浓度依赖性作用增强,可能是炙甘草汤抗心律失常作用的机理。

参松养心胶囊对心律失常大鼠抗室性心律失常作用及其机制

目的探讨参松养心胶囊对抗室性心律失常作用及机制。方法氯化钙致大鼠心律失常和缺血再灌注致大鼠心律失常,采用细胞膜片钳技术研究参松养心胶囊对心律失常大鼠L-型钙电流(ICa-L)和瞬时外向钾电流(Ito)的抑制作用。结果 1参松养心胶囊可显著推迟氯化钙致大鼠室性心动过速出现的时间(P<0.01),显著缩短室性心电图的恢复时间(P<0.01),并且作用具有剂量依赖性;2参松养心胶囊中剂量和高剂量可显著降低室性心动过速,室性早搏及心室颤动的发生率(P<0.05或P<0.01);3参松养心胶囊可降低ICa-L电流,使ICa-L电流峰值降低约20%,使ICa-L I-V曲线上移;4参松养心胶囊可降低Ito电流,使Ito峰值降低约30%,使Ito I-V曲线下移。结论参松养心胶囊具有抗室性心律失常的作用,并且对心室肌细胞的ICa-L和Ito具有抑制作用。

甘松挥发油对大鼠心室肌细胞瞬时外向钾电流的影响

目的研究甘松挥发油对大鼠心室肌细胞膜瞬时外向钾电流(Transient outward potassium current,Ito)的影响,探讨甘松挥发油抗心律失常作用的离子机制。方法用急性酶解分离法获得单个大鼠心室肌细胞,采用标准的全细胞膜片钳技术记录大鼠心室肌细胞膜瞬时外向钾电流(Ito)。结果甘松挥发油可呈浓度依赖性和电压依赖性抑制Ito。在+70mV时,3μg/g,6μg/g,10μg/g和20μg/g甘松挥发油分别抑制Ito峰值电流的抑制率为(27.01±6.93)%(n=5),(51.13±9.82)%(n=5),(80.86±4.63)%(n=5)和(94.81±4.30)%(n=5)。甘松挥发油对Ito的电流密度-电压关系曲线(current density-voltage curve,I-V曲线)的影响:在+70 mV时,6μg/g甘松挥发油使Ito峰电流从(23.081±0.74)pA/pF减少到(11.232±1.47)pA/pF(n=5,P<0.05),给药后电流密度减少约50%,给药前后电流密度变化有统计学意义。甘松挥发油对Ito激活和失活曲线的影响:在甘松挥发油6μg/g灌流法给药后,激活曲线显示给药前后半数激活电压(V1/2)为:(36.063±1.792)mV vs(34.788±3.029)mV(P>0.05,n=5);斜率因子(S)为:(22.972±1.491)mV vs(30.791±2.899)mV(P<0.05,n=5)。给药前后半数激活电压变化无显著差异。失活曲线显示甘松挥发油使失活曲线明显左移,差异有显著统计学意义:给药前后半数失活电压(V1/2)为(-33.738±0.476)mV vs(-40.536±0.696)mV(n=5,P<0.01);斜率因子(S)为:(5.001±0.396)mV vs(8.420±0.620)mV(n=5,P<0.01)。结论甘松挥发油可呈浓度和电压依赖性抑制大鼠心室肌细胞Ito,使I-V曲线下移,但对激活曲线无明显影响,同时,使失活曲线明显左移,使心室肌细胞复极化减慢,这可能是其抗心律失常作用的重要机制之一。

稳心颗粒甘松提取物对大鼠心室肌细胞钠电流和瞬时外向钾电流激活动力学的影响

目的研究步长稳心颗粒中甘松提取物对大鼠心室肌细胞钠电流(INa)、瞬时外向钾电流(Ito)激活动力学的影响。方法采用全细胞膜片钳技术,研究10 g/L甘松提取物对急性分离的成年大鼠心室肌细胞INa、Ito激活动力学的影响。结果①10 g/L甘松提取物使大鼠心室肌细胞INa峰值(INa,max)从-58.96±2.71 pA/pF降至-31.66±1.29 pA/pF(n=5,P<0.01);②10 g/L甘松提取物使Ito峰值(Ito,max)由3.40±1.52 pA/pF降到1.43±0.64 pA/pF(n=7,P<0.05)。10 g/L甘松提取物对INa和Ito的抑制率分别达38.2%和57.9%。结论10 g/L甘松提取物对大鼠心室肌细胞INa、Ito具有显著抑制作用。

兔心肌梗死1周及2月后心室肌细胞瞬间外向钾电流的变化

目的 :研究心肌梗死后心室肌细胞瞬间外向钾电流 (Ito)的变化。方法 :采用结扎兔冠状动脉左前降支的方法复制心肌梗死动物模型 ,酶解法分离单个心室肌细胞 ,应用膜片钳全细胞记录方法 ,观察心肌梗死后 1周及 2月心外膜梗死区及非梗死区心室肌细胞Ito的变化。结果 :①非梗死区 2月组心肌细胞膜电容明显大于对照组 ,P <0 0 5。②梗死区Ito电流密度 (+6 0mV时 )的对比显示 :对照组为 (17 4± 5 2 )pA/pF(n =16 ) ,梗死区 1周组为 (7 5± 2 4 )pA/pF(n =12 ) ,明显低于对照组 (P <0 0 1)。梗死区 2月组为 (10 6± 4 1)pA/pF(n =18) ,明显低于对照组 (P <0 0 1) ,但高于梗死区 1周组 (P <0 0 5 )。③非梗死区 2月组Ito电流密度为 (13 2± 4 1)pA/pF(n =2 3) ,明显低于对照组 (P <0 0 5 ) ,但高于梗死区 2月组 (P <0 0 5 )。结论 :心肌梗死可引起心室肌细胞Ito电流密度下降 ,而且不同区域之间 (梗死区及远离梗死区 )也存在电生理的异质性 ,可能是导致心肌梗死后出现折返性室性心律失常的原因。心肌梗死后

蝎毒素BmkTXKβ对家兔心房肌细胞瞬间外向钾电流的抑制作用

为研究蝎毒素BmkTXKβ对家兔心房肌细胞瞬间外向钾电流 (Ito)的影响 ,采用全细胞膜片钳技术记录应用BmkTXKβ前后的Ito电流 .结果显示BmkTXKβ (1μmol/L)使心房肌细胞Ito (刺激电压为 +5 0mV)从(13 6 3± 0 87)pA/ pF减少到 (7 98± 0 78) pA/pF ,抑制率为 4 1 4 % (n =16 ,P <0 0 0 1) .冲洗后 ,Ito部分恢复至 (11 18± 0 82 ) pA/pF (n =6 ,P <0 0 1,与给药后比较 ) .在 0 0 1～ 10 0 μmol/L范围内BmkTXKβ呈浓度依赖性地抑制Ito,IC50 的均值为 0 95 μmol/L (n =10 ,P <0 0 1) ,但无频率依赖性 (n =6 ,P >0 0 5 ) .1μmol/L的BmkTXKβ可使Ito通道的失活动力学曲线明显左移 ,V1/ 2 分别为 (- 2 3 6± 2 7)mV和 (- 35 3± 3 6 )mV(n =8,P <0 0 5 ) ,曲线斜率基本不变 .同时可使Ito通道的恢复过程明显减慢 ,恢复曲线右移 ,τ值从 (5 1 2±8 5 )ms延长至 (93 5± 13 4 )ms (n =9,P <0 0 1) ,但不影响其激活过程 .据此推断BmkTXKβ对家兔心房肌细胞Ito具有显著的抑制作用 ,主要作用于失活过程 。

脉冲磁场对神经元瞬时外向钾电流的影响

实验研究了脉冲磁场对小鼠皮层细胞的瞬时外向钾离子通道的影响。采用频率为15 Hz、强度为1.4 mT的超低频脉冲磁场对小鼠的脑皮层神经细胞进行刺激,而后应用全细胞膜片钳技术测量其瞬时外向钾电流特性。实验发现,超低频脉冲磁场对瞬时外向钾电流IA有一定的抑制作用,脉冲磁场作用可显著地影响通道的激活,对照组和脉冲磁场作用组通道半数激活电压分别为(13.25±2.22)mV和(30.98±4.11)mV(n=6,P<0.05),斜率因子分别为(24.00±2.05)mV和(23.30±2.13)mV(n=6,P>0.05)。结果表明,脉冲磁场作用皮层神经细胞可以改变其瞬时外向钾通道的特性,调节神经元的生理功能。

灯盏花素对大鼠心室肌细胞瞬间外向和内向整流钾电流的影响

目的:研究灯盏花素对大鼠心室肌细胞膜瞬间外向钾电流(Ito)和内向整流钾电流(IK1)的影响,在离子通道水平探讨灯盏花素的抗心律失常作用机制。方法:用急性酶解法获得单个大鼠心室肌细胞,标准的全细胞膜片钳技术记录Ito和IK1。结果:(1)灯盏花素呈浓度依赖性抑制Ito,在+50mV时,0.02、0.05、0.08、0.10(g.L-1)灯盏花素分别阻断Ito峰电流(10.07±0.30)%、(27.47±1.25)%、(42.72%±1.30)%和(56.09±2.10)%,冲洗后可以完全恢复。在+50mV时,0.10g.L-1灯盏花素使峰电流从(29.61±3.40)pA/pF减少至(13.00±1.80)pA/pF(n=5,P<0.05)。(2)灯盏花素呈电压依赖性抑制Ito,在0^+50mV,各浓度随电压增加抑制作用明显减弱。(3)0.10g.L-1灯盏花素对Ito失活、激活和复活曲线无明显影响。(4)0.10g.L-1灯盏花素对IK1无明显影响。结论:灯盏花素能够抑制心肌细胞Ito,呈浓度依赖性和电压依赖性,对IK1无明显影响,这可能是其抗心律失常作用的重要机制之一。

异丙酚抑制大鼠心室肌细胞短暂外向钾电流

利用全细胞膜片箝技术研究了异丙酚25，50μmol／L对离体大鼠心室肌细胞短暂外向钾通道电流（Ito）的影响。观察到用药后Ito的幅度明显减小，而用不含药物的灌流液冲洗细胞，可使受抑电流部分恢复。当膜电位大于0mV时，异丙酚对Ito的抑制达显著水平，但不改变其电压依赖性和I－V关系中的外向整流特性。上述结果表明，药物对钾电流的作用至少可部分介导其对心脏的保护及抑制某些心律失常的发生，预示其在心脏手术的病人麻醉中可能有良好的应用前景。

炙甘草汤含药血清对家兔心室肌细胞瞬时外向钾电流的抑制作用

目前的心肌细胞电生理实验已证实，在影响动作电位时程（Action Potential Duration，APD）长短以及动作电位形态改变的电流中，瞬时外向性钾电流（Transient Outward Potassium Current，I10）是在其变化中担任重要角色的钾电流之一。炙甘草汤是医圣张仲景《伤寒论》中治疗脉结代古方，临床上广泛用于治疗各种心律失常。基础实验研究发现炙甘草汤具有抑制由药物诱发的心肌细胞异常自律性和兴奋性以及各种触发性心律失常，延长由药物引起心肌细胞APD的缩短而引起的各种心律失常。以往研究炙甘草汤药理机制都是通过体外直接加复方制剂的方法。目前多采用血清药理学方法。本文应用全细胞膜片钳技术观察炙甘草汤含药血清对家兔心室肌细胞的影响，从离子通道水平探讨炙甘草汤发挥抗心律失常的药理效应，为进一步研究其作用于心肌相应钾通道的机制提供理论依据。

葛根素对大鼠心肌细胞I_(to)、I_(Ca-L)、I_(Na)离子通道的影响

目的通过研究葛根素对大鼠心肌细胞离子通道瞬时外向钾电流（Ito）、L-型钙电流（ICa-L）、钠电流（ICa）的影响，探讨葛根素抗心律失常的机制。方法采用Langendoff胶原酶灌注加浸泡法分离大鼠心室肌细胞，分别用膜片钳全细胞记录各组Ito、ICa-L、INa结果1．2-9．6mmoL／L葛根素对Ito通道没有明显的抑制效应，在高浓度（19．2mmol／L）时，葛根素可抑制Ito电流，达到正常对照组的（21±6）％（R=5，P〈0．05）。低浓度E-4031对I。。通道没有抑制效应，但高浓度（19．2mmol／L）E-4031可抑制Ito电流的（19±4）％（n：5，P〈0．05）；葛根素（1．2-19．2mmol／L）和E-4031（1．2-19．2mmol／L）对ICa-L和INa无明显的抑制作用。结论大剂量葛根素对大鼠心肌细胞。有抑制作用。

丹酚酸B对大鼠心室肌细胞瞬时外向钾电流和L型钙电流的阻滞作用

目的研究从丹参中分离提取的药物单体——丹酚酸B对大鼠心肌细胞上的瞬时外向钾电流(Ito)、内向整流钾电流(IK1)和L型钙电流(ICa,L)的电生理学作用。方法用酶解法分离大鼠心室肌细胞,全细胞膜片钳技术记录Ito、IK1和ICa,L。每个细胞采用加药前后自身对照,用含100μmol/L丹酚酸B的细胞外液灌流心室肌细胞,记录加药前、后的电流,所有数据均在细胞破膜后20min内完成。结果 100μmol/L的丹酚酸B对Ito和ICa,L具有抑制作用,使Ito和ICa,L最大激活峰值电流密度下降,电流密度-电压曲线下移;且丹酚酸B主要抑制Ito的快速电流成分Itof,而对Ito的缓慢电流成分Itos无明显作用。在60mV测试电压下,Itof的最大激活峰值电流密度从23.51±3.29pA/pF降为16.85±2.36pA/pF,抑制率为28.31%±10.6%(n=8,P<0.05)。在-10mV测试电压下,100μmol/L丹酚酸B作用后ICa,L的最大激活峰值电流密度从-8.66±-2.40pA/pF降为-5.91±-2.14pA/pF,抑制率为31.84%±10.23%(n=11,P<0.05)。丹酚酸B使Ito通道失活后的恢复减慢,但不改变ICa,L的通道动力学。丹酚酸B对IK1无显著作用。结论丹酚酸B对Ito和ICa,L具有阻滞作用,而对IK1无显著作用。

参松养心胶囊对大鼠心室肌细胞L-型钙电流和钾电流的抑制作用

目的:探讨参松养心胶囊对大鼠心室肌细胞L-型钙电流(Ica,L)和瞬时外向钾电流(Ito)的抑制作用。方法:酶解法分离大鼠心室肌细胞,使用参松养心溶液(0.5 mg/100 m L,0.5%)灌流心室肌细胞,利用全细胞膜片钳技术记录Ica,L和Ito,在细胞破膜后的20 min内记录所有数据,对每个细胞给药前后做自身对照,观察参松养心溶液对Ica,L和Ito通道电流的影响。结果:0.5%的参松养心溶液对Ica,L和Ito均有抑制作用,参松养心溶液对Ito的缓慢电流成分Itos无明显作用,但可以明显抑制Ito的快速电流成分Itof。在-10 m V测试电压下,在0.5%的参松养心溶液作用后,Ica,L的最大激活峰值电流密度从(-8.64+-2.43)p A/p F降为(-5.92+-2.15)p A/p F,抑制率为31.85%+10.25%,电流密度-电压(I-V)曲线上移;在-60 m V测试电压下,在0.5%的参松养心溶液作用后,Itof的最大激活峰值电流密度从(23.53+3.31)p A/p F降为(16.86+2.34)p A/p F,抑制率为(28.33+10.59)%,I-V曲线下移。参松养心溶液不改变Ica,L的通道动力学,但会使Ito通道失活后的恢复变慢。结论:参松养心溶液对Ica,L和Ito均有明显的抑制作用。

PKC在孤啡肽抑制大鼠皮层神经元瞬时外向钾离子电流中的作用

目的研究蛋白激酶C(PKC)对孤啡肽(N/OFQ)抑制大鼠皮层神经元瞬时外向钾电流(IA)的影响,初步探讨N/OFQ抑制IA的PKC信号途径。方法采用全细胞膜片钳技术,观察PKC特异性抑制剂chelerythrine对N/OFQ抑制大鼠皮层神经IA的影响。结果①与0.1μmol/L N/OFQ单独作用时,对IA的抑制作用相比,在cherythrine预处理的大鼠皮层神经元,在-40～-15 mV电压范围内,N/OFQ使IA的I-V曲线升高,而在-15～+60 mV电压范围内使IA的I-V曲线明显降低(n=10,P<0.05);②在指令电压+60 mV时,给予N/OFQ使IA的电流值由(1778.51±239.50)pA降至(1175.1±257.03)pA(n=10,P<0.05),抑制百分率为(33.93±6.62)%,与N/OFQ单独作用引起的(23.20±2.17)%的抑制率相比,具有显著性差异(n=10,P<0.05)。结论在不同电压下,chelerythrine对N/OFQ抑制大鼠皮层神经IA的影响不同,说明PKC在N/OFQ抑制IA中的作用因不同电压而具有双向性。

参松养心胶囊对兔心肌梗死1周后瞬间外向钾电流跨壁异质性的影响

目的探讨参松养心胶囊对急性心肌梗死(AMI)1周后心外膜梗死边缘区心肌细胞瞬间外向钾电流(Ⅰ_(to))的影响。方法30只兔随机分为3组:对照组、AMI组和参松养心胶囊+AMI组各10只,后2组采用结扎冠状动脉左前降支的方法建立兔心肌梗死模型。采用膜片钳技术观察参松养心胶囊对左心室梗死边缘区心外膜(Epi)、心内膜(Endo)和中层(M)心室肌细胞Ⅰ_(to)密度及Ⅰ_(to)失活曲线的改变。结果AMI组细胞的Ⅰ_(to)电流密度明显降低,Epi与M、Endo之间差异较明显(P<0.01);参松养心胶囊+AMI组Epi细胞Ⅰ_(to)电流密度进一步降低,与AMI组Epi细胞比较差异有统计学意义(P<0.01),而3层细胞间差异无统计学意义(P>0.05)。3组Ⅰ_(to)失活曲线形态无明显变化,参松养心+AMI组Endo细胞失活曲线右移,与AMI组比较差异有统计学意义(P<0.01)。结论心肌梗死对Ⅰ_(to)的跨壁异质性有明显影响,参松养心胶囊减弱心肌梗死后Ⅰ_(to)的跨壁异质性。