血小板活化因子对豚鼠心室肌细胞动作电位和钾通道的影响

应用全细胞膜片钳技术研究了血小板活化因子(platelet activatingfactor,PAF)对豚鼠心室肌细胞动作电位和钾电流的影响.结果发现,当电极内液ATP浓度为5 mmol/L(模拟正常条件)时,1 μmol/L PAF使APD90由对照的225.8±23.3 ms延长至352.8±29.8ms(n=5,P＜0.05);使IK尾电流在指令电压 30 mV由对照的173.5±16.7 pA降至152.1±11.5 pA(P＜0.05,n=4);使Ikl在指令电压为-120 mV时由对照组的-6.1±1.3 nA降至-5.6±1.1 nA(P＜0.05,n=5);但PAF在生理膜电位范围(-90mV～ 20mV)对IK1没有影响.当电极内液ATP浓度为0mmol/L时,IK·ATP开放(模拟缺血条件),1 μmol/LPAF却显著缩短APD90,由对照的153±24.6 ms缩短至88.2±19.4 ms(n=5,P＜0.01).而用1 μmol/L格列本脲(IK·ATP的特异阻断剂)预处理后,恢复了PAF可显著延长动作电位时程的作用.结果提示,PAF可能扩大缺血心肌和正常心肌细胞动作电位时程的不均一性,是缺血/再灌注性心律失常发生的重要原因.     

Effects of [K(+)](o) on electrical restitution and activation dynamics during ventricular fibrillation

To test whether hyperkalemia suppresses ventricular fibrillation (VF) by reducing the slope of the action potential duration (APD) restitution relation, we determined the effects of the extracellular K(+) concentration ([K(+)](o)) ([KCl] = 2.7-12 mM) on the restitution of APD and maximum upstroke velocity (V(max)) the magnitude of APD alternans and spatiotemporal organization during VF in isolated canine ventricle. As [KCl] was increased incrementally from 2.7 to 12 mM, V(max) was reduced progressively. Increasing [KCl] from 2.7 to 10 mM decreased the slope of the APD restitution relation at long, but not short, diastolic intervals (DI), decreased the range of DI over which the slope was >/=1, and reduced the maximum amplitude of APD alternans. At [KCl] = 12 mM, the range of DI over which the APD restitution slope was >/=1 increased, and the maximum amplitude of APD alternans increased. For [KCl] = 4-8 mM, the persistence of APD alternans at short DI was associated with maintenance of VF. For [KCl] = 10-12 mM, the spontaneous frequency during VF was reduced, and activation occurred predominantly at longer DI. The lack of APD alternans at longer DI was associated with conversion of VF to a periodic rhythm. These results provide additional evidence for the importance of APD restitution kinetics in the development of VF.     

Cardiac electrophysiological modulation by NS-7, a novel neuroprotective drug,of guinea pig ventricular muscles

Effects of NS-7 (1 to 100 microM), a novel neuroprotective drug, on the action potentials in guinea pig ventricular muscles were investigated at different stimulation frequencies, different extracellular Ca(2+) concentrations ([Ca](o)) and in the presence of inhibitors for selective delayed rectifier K(+) channels. A conventional microelectrode technique was carried out. NS-7 caused inhibitory actions on the action potential configuration in a concentration-dependent manner. NS-7 at less concentrations than 30 microM did not affect, but at 100 microM decreased the action potential amplitude (APA) and the maximum rate of depolarization (V(max)) by 11.1 +/- 2.3% (n = 14, P < 0.05) and by 24.3 +/- 2.6% (n = 14, P < 0.01), respectively. NS-7 at 100 microM also prolonged the 75 and 90% repolarizations of action potential duration (APD(75) and APD(90)) by 14.5 +/- 2.2% (n = 14, P < 0.05) and 20.2 +/- 2.4% (n = 14, P < 0.01), respectively, but it at any concentrations failed to affect the 50% repolarization of action potential duration (APD(50)). The resting potential was unaffected. These responses were almost reversible after 10-to 20-min washout. The stronger inhibition was caused at higher frequencies of stimulation. NS-7 prolonged the APD at lower [Ca](o) than 3.6 mM. In the presence of 5 microM E-4031 or 30 microM 293B, NS-7 increased further the APD. These results indicate that NS-7 at relatively higher concentrations produced inhibitory actions on the cardiac muscles, and that the APD prolongation and the V(max) inhibition induced by NS-7 are dependent on stimulation frequencies, but are independent of [Ca](o) levels, resulting in exhibition of its cardioprotective action.     

Aging-associated changes in whole cell K(+) and L-type Ca(2+) currents in rat ventricular myocytes

The effect of aging on cardiac membrane currents remains unclear. This study examined the inward rectifier K(+) current (I(K1)), the transient outward K(+) current (I(to)), and the L-type Ca(2+) channel current (I(Ca,L)) in ventricular myocytes isolated from young adult (6 mo) and aged (>27 mo) Fischer 344 rats using whole cell patch-clamp techniques. Along with an increase in the cell size and membrane capacitance, aged myocytes had the same magnitude of peak I(K1) with a greater slope conductance but displayed smaller steady-state I(K1). Aged myocytes also had a greater I(to) with an increased rate of activation, but the I(to) inactivation kinetics, steady-state inactivation, and responsiveness to L-phenylephrine, an alpha(1)-adrenergic agonist, were unaltered. The magnitude of peak I(Ca,L) in aged myocytes was decreased and accompanied by a slower inactivation, but the I(Ca,L) steady-state inactivation was unaltered. Action potential duration in aged myocytes was prolonged only at 90% of full repolarization (APD(90)) when compared with the action potential duration of young adult myocytes. Aged myocytes from Long-Evans rats showed similar changes in I(to) and I(Ca,L) but an increased I(K1). These results demonstrate aging-associated changes in action potential, in morphology, and in I(K1), I(to), and I(Ca,L) of rat ventricular myocytes that possibly contribute to the decreased cardiac function of aged hearts.     

白藜芦醇甙对大鼠心室乳头状肌动作电位的影响及其离子机制(英文)

有研究表明白藜芦醇甙(polydatin)具有抗缺血性心律失常作用,但其电生理学机制尚未明了。本研究旨在应用细胞内记录和全细胞膜片钳方法,探讨白藜芦醇甙对大鼠心室乳头状肌动作电位的影响及其离子机制。结果显示:(1)白藜芦醇甙(50和100μmol/L)可剂量依赖性地缩短正常乳头状肌动作电位复极化50%时间(APD50)和90%时间(APD90)(P<0.01)。白藜芦醇甙对正常乳头状肌静息电位(resting potential,RP)、动作电位幅值(amplitude of action potential,APA)、超射值(overshoot,OS)和0期最大上升速度(Vmax)无影响(P>0.05)。(2)对部分去极化的乳头状肌,白藜芦醇甙(50μmol/L)不但缩短APD50和APD90,而且还降低动作电位OS、APA和Vmax(P<0.05)。(3)ATP敏感钾通道阻断剂格列本脲(10μmol/L)可部分阻断白藜芦醇甙(50μmol/L)的电生理效应。(4)一氧化氮合酶抑制剂L-NAME(1 mmol/L)对白藜芦醇甙的上述效应无影响。(5)白藜芦醇甙(25、50、75、100μmol/L)可浓度依...     

Study of the restitution of action potential duration using the artificial neural network

It is widely accepted that the APD (action potential duration) restitution plays a key role in the initializing and maintaining of the reentry arrhythmias. The Luo-Rudy II models paced with different protocols showed that the current APD had a complex relation with the previous APDs and diastole intervals (DIs). This relation could not be accurately described by a single exponential function. We used an artificial neural network to formularize this relation. The results suggested that back-propagation (BP) network could predict the current APD from the information of the first three previous beats. This would help provide a target for potential anti-arrhythmic therapies.     

Increased vulnerability of human ventricle to re-entrant excitation in hERG-linked variant 1 short QT syndrome

The short QT syndrome (SQTS) is a genetically heterogeneous condition characterized by abbreviated QT intervals and an increased susceptibility to arrhythmia and sudden death. This simulation study identifies arrhythmogenic mechanisms in the rapid-delayed rectifier K(+) current (I(Kr))-linked SQT1 variant of the SQTS. Markov chain (MC) models were found to be superior to Hodgkin-Huxley (HH) models in reproducing experimental data regarding effects of the N588K mutation on KCNH2-encoded hERG. These ionic channel models were then incorporated into human ventricular action potential (AP) models and into 1D and 2D idealised and realistic transmural ventricular tissue simulations and into a 3D anatomical model. In single cell models, the N588K mutation abbreviated ventricular cell AP duration at 90% repolarization (APD(90)) and decreased the maximal transmural voltage heterogeneity (δV) during APs. This resulted in decreased transmural heterogeneity of APD(90) and of the effective refractory period (ERP): effects that are anticipated to be anti-arrhythmic rather than pro-arrhythmic. However, with consideration of transmural heterogeneity of I(Kr) density in the intact tissue model based on the ten Tusscher-Noble-Noble-Panfilov ventricular model, not only did the N588K mutation lead to QT-shortening and increases in T-wave amplitude, but δV was found to be augmented in some local regions of ventricle tissue, resulting in increased tissue vulnerability for uni-directional conduction block and predisposing to formation of re-entrant excitation waves. In 2D and 3D tissue models, the N588K mutation facilitated and maintained re-entrant excitation waves due to the reduced substrate size necessary for sustaining re-entry. Thus, in SQT1 the N588K-hERG mutation facilitates initiation and maintenance of ventricular re-entry, increasing the lifespan of re-entrant spiral waves and the stability of scroll waves in 3D tissue.     

神经递质对豚鼠左心室流出道自律细胞电活动的影响

为研究左心室流出道慢反应自律细胞的神经支配和受体分布,本实验采用标准玻璃微电极细胞内记录技术,分别观测了肾上腺素能和胆碱能受体激动剂及相应的受体拮抗剂对离体豚鼠左心室流出道组织自发慢反应电位的影响。观测指标有：最大舒张电位（maximal diastolic potential,MDP）、动作电位幅度（amplitude of action potential,APA）、0相最大去极速度（maximal rate of depolarization,Vmax）、4相自动去极速度（velocity of diastolic depolarization,VDD）、复极50％时间（50％of duration of action potential,APD50）和90％时间（90％ of duration of action potential,APD50）以及自发放电频率（rate of pacemaker firing,RPF）。结果表明：（1）100μmol／L异丙肾上腺素（isoprenaline,Iso）可使RPF和VDD显著加快（P〈0．01）,MDP绝对值和APA显著增大（P〈0．05,P〈0．01）,Vmax加快（P〈0．05）,APD50缩短（P〈0．01）,这些变化均可被5μmol／L心得安拮抗;（2）100μmol／L肾上腺素（epinephrine,E）可使RPF和VDD加快（P＜0．01,P〈0．05）,APA显著增大（P〈0．001）,Vmax加快（P〈0．05）,APD50和APD90缩短（P＜0．05）;（3）100μmol／L去甲肾上腺素（norepinephrine,NE）可使VDD和RPF加快（P＜0．05）,APA显著增大（P〈0．05）,Vmax明显加快（P〈0．05）,APD50缩短（P〈0．05）,这些变化可被100μmol／L酚妥拉明拮抗;（4）10μmol／L ACh可使VDD和RPF减慢（P〈0．05）,APA显著减小（P〈0．01）,APD50缩短（P〈0．05）;ACh对APD50的缩短效应可被10μmol／L阿托品拮抗（P〈0．05）。结果提示：左心室流出道自律细胞膜上可能存在α-肾上腺素能受体（α-adrenergic receptor,α-AR、β-肾上腺素能受体（β-adrenergic receptor,β-AR）以及M型胆碱能受体（muscarinic receptor,MR）,其自律性电活动可能也接受心交感神经和心迷走神经调控。     

“缺血”引起的绵羊浦肯野纤维跨膜电位与离子流变化

以低氧、高钾、低pH、无能量供应的模拟缺血溶液灌流离体绵羊心脏浦肯野纤维,观察“缺血”对心肌跨膜电位和离子流的影响。实验共24例。跨膜电位的变化过程如下:模拟缺血液灌流后2-3min,首先出现最大舒张电位(MDP)轻度除极,4期舒张除极速率减慢,随后动作电位时程(APD)缩短(n=13)或先缩短、后延长、再缩短的变化(n=11),平台逐渐消失,最后MDP进一步除极,动作电位波幅(APA)减小,兴奋性逐渐降低,以致不能引出动作电位(AP)。其中6例即使MDP高于-60mV时AP已不能引出。以上变化过程历时长短不等,在不同标本为30-160min。跨膜离子流方面,当APD缩短时,在所有膜电位水平即时外向电流都明显增加。稳态电流-电压关系曲线由正常的S形变成直线,内向整流现象消失。慢内向离子流由“缺血”前的6.74±4.48nA减少到0.86±1.39nA,(M±SD,P<0.01,n=8),在多数测试电位水平都有显著减少,其电流-电压关系曲线向较负电位方向移位。以上结果提示:心肌“缺血”时浦肯野细胞起搏功能受抑制,细胞内大量K~+外流,Ca~(2+)内流减少,心肌细胞除极,以上多种变化可能为心肌缺血时心律失常发生的原因。     

Effects of thyroid hormone on action potential and repolarizing currents in rat ventricular myocytes

Thyroid hormones play an important role in cardiac electrophysiology through both genomic and nongenomic mechanisms of action. The effects of triiodothyronine (T(3)) on the electrophysiological properties of ventricular myocytes isolated from euthyroid and hypothyroid rats were studied using whole cell patch clamp techniques. Hypothyroid ventricular myocytes showed significantly prolonged action potential duration (APD(90)) compared with euthyroid myocytes, APD(90) of 151 +/- 5 vs. 51 +/- 8 ms, respectively. Treatment of hypothyroid ventricular myocytes with T(3) (0.1 microM) for 5 min significantly shortened APD by 24% to 115 +/- 10 ms. T(3) similarly shortened APD in euthyroid ventricular myocytes, but only in the presence of 4-aminopyridine (4-AP), an inhibitor of the transient outward current (I(to)), which prolonged the APD by threefold. Transient outward current (I(to)) was not affected by the acute application of T(3) to either euthyroid or hypothyroid myocytes; however, I(to) density was significantly reduced in hypothyroid compared with euthyroid ventricular myocytes.     

Effects of hyperthyroidism on delayed rectifier K+ currents in left and right murine atria

Hyperthyroidism has been associated with atrial fibrillation (AF); however, hyperthyroidism-induced ion channel changes that may predispose to AF have not been fully elucidated. To understand the electrophysiological changes that occur in left and right atria with hyperthyroidism, the patch-clamp technique was used to compare action potential duration (APD) and whole cell currents in myocytes from left and right atria from both control and hyperthyroid mice. Additionally, RNase protection assays and immunoblotting were performed to evaluate the mRNA and protein expression levels of K(+) channel alpha-subunits in left and right atria. The results showed that 1) in control mice, the APD was shorter and the ultra-rapid delayed rectifier K(+) conductance (I(Kur)) and the sustained delayed rectifier K(+) conductance (I(ss)) were larger in the left than in the right atrium; also, mRNA and protein expression levels of Kv1.5 and Kv2.1 were higher in the left atrium; 2) in hyperthyroid mice, the APD was shortened and I(Kur) and I(ss) were increased in both left and right atrial myocytes, and the protein expression levels of Kv1.5 and Kv2.1 were increased significantly in both atria; and 3) the influence of hyperthyroidism on APD and delayed rectifier K(+) currents was more prominent in right than in left atrium, which minimized the interatrial APD difference. In conclusion, hyperthyroidism resulted in more significant APD shortening and greater delayed rectifier K(+) current increases in the right vs. the left atrium, which can contribute to the propensity for atrial arrhythmia in hyperthyroid heart.     

兔主动脉前庭自律细胞与窦房结电生理特性的比较

为进一步阐明左心室流出道(主动脉前庭)自律细胞的特性,及其与窦房结细胞的异同,本实验利用常规的玻璃微电极细胞内记录技术,观察了一些离子通道阻断剂分别对离体兔窦房结起搏细胞与左心室流出道慢反应自律细胞的电生理特性的影响,重点探讨了这两种自律细胞的0期、4期去极离子流的异同。结果表明:(1)用1μmol/L维拉帕米(verapamil,VER)灌流后,窦房结及主动脉前庭自律细胞的动作电位幅值(APA)、0相最大除极速率(V_(max))、最大舒张电位(MDP)绝对值、舒张期除极速率(VDD)、自发放电频率(RPF)均明显下降,复极90％时间(APD_(90))延长(P<0.05)。(2)用180μmol/L氯化镍(NiCl_2)灌流,两自律细胞的VDD均明显下降;APA、V_(max)和RPF也显著降低,且窦房结细胞的APD_(90)明显延长。(3)给予2 mmol/L 4-氨基吡啶(4-AP)后,窦房结及主动脉前庭自律细胞的VDD均明显增快,MDP绝对值、APA和V_(max)显著下降,APD_(90)明显延长(P<0.05)。(4)给予2 mmol/L氯化铯(CsCl),两自律细胞的VDD及RPF均明显变慢。结果提示:(1)主动脉前庭自发慢反应电位的0相、4相去极离子流及复极离子流均与窦房结优势起搏细胞相似。(2)主动脉前庭起搏细胞Ca~(2+)内流为其0相主要去极离子流,复极过程主要由K~+外流引起,4相自动除极以K~+外流衰减为主,另外     

铬对大鼠心电图及心肌细胞的电生理影响

应用心电图及细胞内微电极技术观察铬对心肌电生理的影响。大鼠腹腔内注射铬,９周后心电图显示各剂量组ＱＴ间期均缩短,细胞内微电极检查显示动作电位时程（ＡＰＤ５０、ＡＰＤ９０）于２周后随剂量增加而逐渐缩短,０．４ｍｇ组显著缩短,９周后各剂量组ＡＰＤ５０、ＡＰＤ９０均缩短。心率、静息电位（ＲＰ）与动作电位（ＡＰＡ）幅度及动作电位最大上升速率（Ｖｍａｘ）无变化。铬影响了心肌复极引起ＱＴ间期缩短,而ＡＰＤ５０、ＡＰＤ９０缩短可能是铬影响了钙内流及钾外流的结果。     

在生理温度下降钙素基因相关肽对豚鼠心房肌复极过程的影响

实验应用常规微电极方法研究了在生理温度下 (36 5± 0 5℃ )降钙素基因相关肽 (calcitoningene relatedpeptide ,CGRP)对豚鼠心房肌细胞复极过程的影响及其与钾电流的关系。结果表明 :(1)CGRP(16nmol/L)可拮抗由钾通道阻断剂BaCl2 、4 AP引起的动作电位时间延长。 (2 )CGRP(16nmol/L)能够增加细胞外高钾 (18 5mmol/L)条件下心房肌慢反应动作电位的APA和Vmax,并缩短传导时间。 (3)CGRP(16nmol/L)能减弱甚至消除因并用CsCl (5mmol/L)和无钾灌流液诱发的触发活动。 (4)CGRP对动作电位复极过程的作用因温度条件而异。在生理温度下 ,CGRP(5、16和 5 0nmol/L)能够使动作电位平台抬高 ,缩短动作电位复极化 2 0 %、5 0 %和 90 %时程。其中 ,对动作电位复极化 2 0 %、5 0 %时程的作用呈剂量依赖性。而在室温下 (2 5 5± 2 1℃ ) ,CGRP使动作电位复极化 2 0 %、5 0 %和90 %时程延长。上述结果提示 ,CGRP对心房肌细胞具有多重电生理效应 ,其中生理温度下CGRP对钾电流的促进作用在动作电位的改变中占重要地位 ,今后有必要进一步研究CGRP对各种钾通道的作用     

Comparison of the electrophysiological effect of amiodarone, lidocaine and quinidine on rat ventricular cells.

The effects of 20 microM each of amiodarone, lidocaine and quinidine on action potential and membrane currents were studied in rat ventricular cells. At a stimulation frequency of 0.1 Hz, quinidine prolonged the action potential duration (APD50) from 120 +/- 26 to 660 +/- 8 msec and increased the time to peak (Tp) amplitude from 7 +/- 1 msec to 32 +/- 6 msec. Lidocaine shortened APD50 from 123 +/- 15 to 83 +/- 6 msec without altering Tp. Amiodarone changed neither APD50 nor Tp. Voltage clamp study revealed that quinidine inhibited sodium inward current (INa) even when this current was elicited by depolarizing pulses at 0.1 Hz from a holding potential of -90 mV. For amiodarone and lidocaine, the inhibition was observed when INa was elicited from a holding potential of -70 mV. A frequency-dependent inhibition of INa by amiodarone and lidocaine was observed at frequencies higher than 1 Hz. Quinidine showed this inhibition even at 1 Hz. In correlation with the stronger frequency dependent inhibition of INa, a greater delay of the recovery and increase of the non-recovery fraction of INa was induced by quinidine. For lidocaine and amiodarone, only the recovery time constant was delayed. In cells treated with sea anemone toxin (ATX, 0.2 microM), APD50 was prolonged to 4-5 sec in 5 min. Quinidine, but not amiodarone, completely reversed the effect of ATX. Quinidine showed use-dependent inhibition of INa in these ATX-treated cells. Amiodarone, however, did not show this inhibition. It is likely that amiodarone suppresses INa by delaying the recovery of INa instead of blocking the open-state Na(+)-channels.(ABSTRACT TRUNCATED AT 250 WORDS)     

Heterogeneous ventricular chamber response to hypokalemia and inward rectifier potassium channel blockade underlies bifurcated T wave in guinea pig

It was previously demonstrated that transmural electrophysiological heterogeneities can inscribe the ECG T wave. However, the bifurcated T wave caused by loss of inward rectifier potassium current (I(K1)) function is not fully explained by transmural heterogeneities. Since right ventricular (RV) guinea pig myocytes have significantly lower I(K1) than left ventricular (LV) myocytes, we hypothesized that the complex ECG can be inscribed by heterogeneous chamber-specific responses to hypokalemia and partial I(K1) blockade. Ratiometric optical action potentials were recorded from the epicardial surface of the RV and LV. BaCl(2) (10 micromol/l) was perfused to partially block I(K1) in isolated guinea pig whole heart preparations. BaCl(2) or hypokalemia alone significantly increased RV basal (RV(B)) action potential duration (APD) by approximately 30% above control compared with LV apical (LV(A)) APD (14%, P<0.05). In the presence of BaCl(2), 2 mmol/l extracellular potassium (hypokalemia) further increased RV(B) APD to a greater extent (31%) than LV(A) APD (19%, P<0.05) compared with BaCl(2) perfusion alone. Maximal dispersion between RV(B) and LV(A) APD increased by 105% (P<0.05), and the QT interval prolonged by 55% (P<0.05) during hypokalemia and BaCl(2). Hypokalemia and BaCl(2) produced an ECG with a double repolarization wave. The first wave (QT1) corresponded to selective depression of apical LV plateau potentials, while the second wave (QT2) corresponded to the latest repolarizing RV(B) myocytes. These data suggest that final repolarization is more sensitive to extracellular potassium changes in regions with reduced I(K1), particularly when I(K1) availability is reduced. Furthermore, underlying I(K1) heterogeneities can potentially contribute to the complex ECG during I(K1) loss of function and hypokalemia.     

腺苷抗豚鼠室性心律失常的电生理研究

实验用全细胞膜片钳技术在单个豚鼠心室肌细胞上研究了腺苷 (Ado)对正常及异丙肾上腺素 (Iso)致豚鼠心室肌细胞动作电位、迟后除极 (DAD)、L 型钙电流 (ICa.L)和短暂内向电流 (Iti)的作用。结果表明 :(1)Ado在2 0～ 10 0 μmol/L时对豚鼠心室肌细胞动作电位和ICa .L无明显直接作用 ,但却可明显降低Iso所致的动作电位时程(APD)延长和ICa .L峰值增大 ,Iso (10nmol/L)使细胞APD50 从 3 40± 2 1ms延长到 486± 2 8ms (P <0 0 1) ,APD90从 3 61± 17ms延长至 5 0 1± 2 9ms (P <0 0 1) ;ICa .L峰值从 - 6 5 3± 1 4pA/pF增大到 - 18 2 8± 2 4pA/pF (P <0 0 1) ,电流电压曲线明显左移和下移 ;Ado (5 0 μmol/L)使APD50 和APD90 降至 40 3± 19ms和 419± 2 6ms ,但并不影响动作电位其它参数 ,使ICa.L峰值降低至 - 10 2± 1 5pA/pF (P <0 0 1)。 (2 )Iso (3 0nmol/L)可诱发心室肌细胞产生DADs,其发生率为 10 0 % ;Ado (5 0 μmol/L)可完全抑制Iso引发DADs;细胞经 - 40～ +2 0mV、时程 2s的除极电压 ,Iso (3 0nmol/L)诱导出Iti,其发生率为 10 0 % ;Ado (5 0 μmol/L)可明显抑制Iso致Iti的发生 ,其发生率降为 14 3 %。研究结果提示 ,Ado对豚鼠心室肌细胞动作电位和ICa.L无明显直接作用 ,但却可显著降低Is     

Intramural optical mapping of V(m) and Ca(i)2+ during long-duration ventricular fibrillation in canine hearts

Intramural gradients of intracellular Ca(2+) (Ca(i)(2+)) Ca(i)(2+) handling, Ca(i)(2+) oscillations, and Ca(i)(2+) transient (CaT) alternans may be important in long-duration ventricular fibrillation (LDVF). However, previous studies of Ca(i)(2+) handling have been limited to recordings from the heart surface during short-duration ventricular fibrillation. To examine whether abnormalities of intramural Ca(i)(2+) handling contribute to LDVF, we measured membrane voltage (V(m)) and Ca(i)(2+) during pacing and LDVF in six perfused canine hearts using five eight-fiber optrodes. Measurements were grouped into epicardial, midwall, and endocardial layers. We found that during pacing at 350-ms cycle length, CaT duration was slightly longer (by ?10%) in endocardial layers than in epicardial layers, whereas action potential duration (APD) exhibited no difference. Rapid pacing at 150-ms cycle length caused alternans in both APD (APD-ALT) and CaT amplitude (CaA-ALT) without significant transmural differences. For 93% of optrode recordings, CaA-ALT was transmurally concordant, whereas APD-ALT was either concordant (36%) or discordant (54%), suggesting that APD-ALT was not caused by CaA-ALT. During LDVF, V(m) and Ca(i)(2+) progressively desynchronized when not every action potential was followed by a CaT. Such desynchronization developed faster in the epicardium than in the other layers. In addition, CaT duration strongly increased (by ～240% at 5 min of LDVF), whereas APD shortened (by ～17%). CaT rises always followed V(m) upstrokes during pacing and LDVF. In conclusion, the fact that V(m) upstrokes always preceded CaTs indicates that spontaneous Ca(i)(2+) oscillations in the working myocardium were not likely the reason for LDVF maintenance. Strong V(m)-Ca(i)(2+) desynchronization and the occurrence of long CaTs during LDVF indicate severely impaired Ca(i)(2+) handling and may potentially contribute to LDVF maintenance.     

A fiber-based ratiometric optical cardiac mapping channel using a diffraction grating and split detector

Optical fiber-based mapping systems are used to record the cardiac action potential (AP) throughout the myocardium. The optical AP contains a contraction-induced motion artifact (MA), which makes it difficult to accurately measure the action potential duration (APD). MA is removed by preventing contraction with electrical-mechanical uncoupling drugs, such as 2,3-butanedione monoxime (BDM). We designed a novel fiber-based ratiometric optical channel using a blue light emitting diode, a diffraction grating, and a split photodetector that can accurately measure the cardiac AP without the need for BDM. The channel was designed based on simulations using the optical design software ZEMAX. The channel has an electrical bandwidth of 150 Hz and an root mean-square dark noise of 742 muV. The channel successfully recorded the cardiac AP from the wall of five rabbit heart preparations without the use of BDM. After 20-point median filtering, the mean signal/noise ratio was 25.3 V/V. The APD measured from the base of a rabbit heart was 134 +/- 8.4 ms, compared to 137.6 +/- 3.3 ms from simultaneous microelectrode recordings. This difference was not statistically significant (p-value = 0.3). The quantity of MA removed was also measured using the motion ratio. The reduction in MA was significant (p-value = 0.0001). This fiber-based system is the first of its kind to enable optical APD measurements in the beating heart wall without the use of BDM.     

酒石酸锑钠对家兔心肌细胞电生理特性的影响

家兔20只均分成两组:一组为正常家兔,另一组为酒石酸锑钠(SAT)急性中毒的家兔。分别取出窦房结-心房肌标本。用浮置式微电极引导动作电位,观察SAT对两组标本的影响。SAT在两组标本上均能导致如下改变:起搏细胞动作电位幅值、0相平均去极速率和舒张期去极速率增加,动作电位时程(APD_(25)、APD_(50)、APD_(90))缩短;心房肌细胞动作电位幅值增加,动作电位时程(APD_(25)、APD_(50)、APD_(90))延长;心房肌收缩幅值增加,收缩时程延长,心率增加。还观察到各种类型的心律失常:早搏、逸搏、阵发性心动过速和心动过缓、早发性后除极和迟发性后除极。SAT的上述作用可能与细胞内Ca~(2 )增高有关。我们也观察到:锑剂急性中毒组家兔的上述变化值均小于正常家兔的对应值,我们推测可能与锑剂静脉注射对在体心肌的抑制作用有关。