Non-depolarizing cardioplegia activates Ca-ATPase in sarcoplasmic reticulum after reperfusion

Objectives: Depolarizing cardioplegia is the most common method for myocardial preservation in cardiac operations. However, depolarizing cardioplegia causes depolarization of the membrane potential by extracellular hyperkalemia, resulting in depletion of energy stores and calcium overload. This study examined the hypothesis that non-depolarizing cardioplegia would provide superior protection compared with depolarizing cardioplegia. Methods: In an isolated rat heart Langendorff model, hearts were perfused for 10 min with St. Thomas' Hospital cardioplegic solution (Group I: n=20), St. Thomas' Hospital cardioplegic solution+Lidocaine 1 mM (Group II: n=20) or non-depolarizing cardioplegia (Group III: n=20). The hearts then were subjected to 60 min of normothermic global ischemia, after which they were perfused with Krebs–Henseleit buffer at 37 °C for 30 min. The percent recovery of functional data, myocardial cyclic AMP contents, and myocardial cyclic GMP contents were recorded at each time point (base, after the administration of cardioplegia, after global ischemia, and after 30 min of reperfusion). Ca²⁺-ATPase in sarcoplasmic reticulum was measured at pre-ischemia and 30 min of reperfusion. Results: The percent recovery of developed pressure and ±dp/dt were significantly higher in Group III than in other groups. Myocardial cyclic AMP and GMP contents were elevated after reperfusion in all groups. However, in Group III, myocardial cyclic AMP contents after 30 min of reperfusion were significantly higher than in other groups (Group III: 14.7±1.6 vs. Group I: 8.7±1.0, Group II: 8.3±0.2 pmol/mg dry weight, P=0.05) but not cGMP. The sarcoplasmic reticulum Ca²⁺-ATPase activities at 30 min of reperfusion significantly increased in Group III compared with Groups II and I (Group III: 70.3±3.6 vs. Group I: 46.8±3.4, Group II: 53.9±6.1 μmol Pi/mg per h, P=0.025 and P=0.030). Conclusions: Non-depolarizing cardioplegia induced the activity of Ca²⁺-ATPase in sarcoplasmic reticulum after reperfusion. The activity would be increased by the cyclic AMP pathway. These findings suggested that non-depolarizing cardioplegia prevented calcium overload after reperfusion, especially decreased cytosolic calcium during the diastolic phase.     

Successful orthotopic pig heart transplantation from non-heart-beating donors.

BACKGROUND: With the aim to expand the severely limited donor pool by use of non-heart-beating donors we developed a technique for successful transplantation of hearts after 30 minutes of normothermic ischemia without donor pretreatment. METHODS: In control groups hearts were transplanted in a conventional fashion using crystalloid cardioplegia (Group I, n = 6) or BCP (Group II, n = 8) for induction of cardiac arrest. In the ischemic groups hearts were harvested after 30 minutes of normothermic ischemia, perfused with blood cardioplegia (BCP) (Group III, n = 9) or BCP containing the Na(+)-H(+)-exchange inhibitor HOE 642 (Group IV, n = 8) and transplanted orthotopically. RESULTS: All animals could be weaned from cardiopulmonary bypass. Low dose inotropic support was necessary in the ischemic groups only. Recovery of the maximal left ventricular stroke work index (LVSWImax) in Groups I vs II was 62.6+/-19.6% vs 73.3+/-23.3% (NS), maximal right ventricular stroke work index (RVSWImax) averaged 61.1+/-18.8 vs 87.8+/-31.7% (NS) as compared to the preoperative level. In the ischemic groups (III vs IV) LVSWImax was 27.3+/-11.7 vs 59.5+/-32.4% (p = 0.038), RVSWImax was 27.4+/-20.9 vs 64.2+/-46.6% (NS). CONCLUSIONS: The results indicate that (a) successful pig heart transplantation after 30 minutes of normothermic ischemia is possible without donor pretreatment, and (b) that HOE 642 improves posttransplant LVSWImax significantly.     

吡那地尔预处理对缺血心肌的保护效果

目的观察心肺转流(cardiopulmonory bypass,CPB)下,ATP敏感性钾通道开放剂(KCOs)吡那地尔(pinacidil)预处理分别对常温和低温高钾停跳心肌的保护作用.方法18只犬均分为三组,CPB心脏高钾停跳,全心缺血60 min,恢复灌注30 min.常温吡那地尔组(NP组)、低温吡那地尔组(HP组)CPB前主动脉根部灌注浓度为10 μmol/L的吡那地尔5 min.对比观察阻断主动脉前、后心肌超微结构、丙二醛(MDA)含量、血清心肌酶含量以及血液动力学的变化.结果(1)电镜:HP组除阻断60min外的其他时点心肌的正常线粒体及糖原含量均接近缺血前水平,明显高于C组和NP组;(2)心肌MDA的含量:HP组阻断30 min和开放20 min以及NP组开放20 min与C组有显著性差异;(3)血清心肌酶:HP组,除阻断30 min,CK-MB均明显低于同期C组;(4)血液动力学变化:HP组开放循环后心输出量(CO)、左室搏出功(LVSW)恢复比C组迅速.结论吡那地尔明显增强低温CPB心肌缺血-再灌注期超微结构的保护效果.     

The effectiveness of ischemic preconditioning on myocardial protection and comparison with K(+) cardioplegia

The purpose of this study is to investigate the effects of ischemic preconditioning on myocardial protection and to compare this method to K(+) crystalloid cardioplegia. Langendorff perfused isolated working rat hearts were used in the following groups. After 20 min of stabilisation, 30 hearts were divided into three groups. In group I (control, n=10), hearts were arrested with cold (+4 degrees C) Krebs-Henseleit (K-H) solution, in group II (cardioplegia, n=10) hearts were arrested with cold K(+) cardioplegia solution, and in group III (preconditioning, n=10) hearts were subjected to 5 min normothermic ischemia followed by 5 min reperfusion then arrested with cold K-H solution. All hearts were subjected to 30 min of global ischemia (24 degrees C) and 40 min of reperfusion. Hemodynamic measurements were performed with a left ventricular latex balloon using a data acquisition system. Creatine kinase (CK-MB) washout and Troponin I (cTnI) levels were determined from the coronary effluents. There was no significant difference among the three groups in any of the parameters (hemodynamic and biochemical) measured at the end of stabilisation period. During reperfusion, functional recovery and coronary flow were significantly improved in K(+) cardioplegia and preconditioned groups compared with control group. CK-MB washout and cTnI levels were significantly lower in groups II and III compared with group I at the reperfusion. However no significant difference was observed between K(+) cardioplegia and preconditioned groups among biochemical and hemodynamic parameters and coronary flow at the post-ischemic period. In conclusion, ischemic preconditioning is as effective as K(+) cardioplegia on myocardial protection and recovery of myocardial function during reperfusion.     

The effect of graft perfusion with warm blood cardioplegia for cadaver heart transplantation

This study was designed to verify the effect of reperfusion of donor hearts in a perfusion apparatus after 60 min of global ischemia prior to heart transplantation. Thirteen dogs were exsanguinated from the femoral artery and cardiac arrest was achieved. The hearts were left in situ at room temperature (25°C)for 60 min. In group A (n=7), the hearts were excised and reperfused 60 min after cardiac arrest in the perfusion apparatus with substrate-enriched warm blood cardioplegia (WBCP) containing a hydroxyl radical scavenger, EPC, followed by 45 min of blood perfusion, Next, the hearts were preserved in cold (4°C) University of Wisconsin (UW) solution. In group B (n=6), the hearts were perfused with cold (4°C) St. Thomas' solution 60 min after cardiac arrest and preserved in cold UW solution. Thereafter, all hearts in both groups were transplanted orthotopically to recipient dogs. In group A, 6 of 7 dogs were weaned from cardiopulmonary bypass (CPB). In group B, only 2 of 6 dogs were weaned from CPB. Moreover, 3 of the 6 hearts in group B did not start beating after transplantation (stone heart). This study suggested reperfusion of the donor heart in the perfusion apparatus with WBCP to be a beneficial preconditioning method when utilizing 60-min arrested hearts for transplantation. This study was supported in part by Senju Pharmaceutical Co. Ltd., Osaka, Japan     

The warm versus cold perfusion controversy: a clinical comparative study

To evaluate the effects of temperature on myocardial and total body protection, we analyzed 129 consecutive patients who underwent coronary artery bypass grafting, valve replacement, or both, with continuous cardioplegia (Cp). The patients were assigned to three groups: group I (n = 37) normothermic cardiopulmonary bypass (CPB) (37°C) and warm (37°C) Cp, group II (n = 49) normothermic CPB and cold (4°C) Cp and group III (n = 43) hypothermic (28°C) CPB and cold Cp. Comparison of groups I and II showed similar serum levels of creatine kinase (CK) and its myocardialspecific isoenzyme on the first postoperative day, a similar rate of perioperative myocardial infarction, postoperative need for intra-aortic balloon pump, postoperative need for inotropic support and mortality. Comparison of groups I and III showed similar serum levels of CK, amylase, lactate dehydrogenase and creatinine on the first postoperative day, a similar complication rate and mortality rate. However, normothermic CPB resulted in a shorter bypass time (83 ± 4 vs 98 ± 7 min, P<0.05) and interval until extubation (25.0 ± 3.8 vs 40.3 ± 7.4 h, P<0.05). In conclusion, there are no differences concerning myocardial protection, however, warm CPB shortens the perfusion time and postoperative course.     

Effects of NHE-1 inhibition on cardioprotection and impact on protection by K/Mg cardioplegia

BACKGROUND: Cardiac sodium hydrogen exchanger isoform-1 (NHE-1) activity during ischemia/reperfusion contributes to myocardial injury. The effects of NHE-1 inhibition during ischemia or reperfusion and on the protection afforded by K/Mg cardioplegia was unknown. METHODS: Rabbit hearts were used for Langendorff perfusion. Control hearts were perfused for 180 minutes. Global ischemia (GI) hearts received 30 minutes normothermic global ischemia and 120 minutes reperfusion. K/Mg hearts received cardioplegia 5 minutes before ischemia. Separate groups of GI and K/Mg hearts received the NHE-1 inhibitor, HOE-642, before ischemia (HOE-642-I), at the immediate start of reperfusion (HOE-642-R), or both before ischemia and at the immediate start of reperfusion (HOE-642-IR). RESULTS: Left ventricular peak developed pressure was significantly increased in HOE-I, HOE-R, and HOE-IR throughout reperfusion (p < 0.05 versus GI). Infarct size was significantly decreased (p < 0.05 versus GI) in all groups, but was significantly increased in HOE-R as compared with HOE-IR (p < 0.05). NHE-1 inhibition with K/Mg cardioplegia significantly decreased left ventricular peak developed pressure after 90 minutes of reperfusion (p < 0.05 versus K/Mg), with no significant effect on infarct size. CONCLUSIONS: NHE-1 inhibition used alone provides cardioprotection with optimal effects being observed with HOE-IR. NHE-1 inhibition with K/Mg cardioplegia decreases postischemic functional recovery during late reperfusion.     

Influence of pre-existing ischemia on recovery from chemical cardioplegia. A study on pig hearts in an isolated blood-perfused model.

The impact of prior cardiac ischemia on recovery from chemical cardioplegia was investigated in pig hearts. Group I hearts were subjected to 9-min normothermic ischemia before the start of chemical cardioplegia. After 180 min of induced cardiac arrest, all hearts were reperfused and monitored for 120 min in a blood-perfused Langendorff model. Consistent with left ventricular performance, myocardial oxygen uptake was significantly lower in group I than in the other hearts during the first 60 min of reperfusion. Lactate elimination was significantly higher in group I at the start of reperfusion, but showed no intergroup difference after 25 min. Nor was intergroup difference found in left ventricular end-diastolic pressure, total myocardial flow or glucose extraction fraction during reperfusion. The mitochondrial ultrastructure was identical in the two groups before chemical cardioplegia. During cardioplegia it deteriorated in group I but normalized in group II. During reperfusion these circumstances were reversed. Although precardioplegic ischemia thus significantly impaired left ventricular performance during early recovery, with corresponding effects on metabolism and ultrastructure, stable performance during reperfusion indicated that the ischemic injury did not worsen.     

Whole blood cardioplegia (minicardioplegia) reduces myocardial edema after ischemic injury and cardiopulmonary bypass

While blood:crystalloid cardioplegia is the clinical standard for patients undergoing cardiopulmonary bypass (CPB), it has been postulated that whole blood minicardioplegia may benefit the severely injured heart by reducing cardioplegic volume, thereby reducing myocardial edema. To test this hypothesis, we compared the cardioprotection of a popular 4:1 blood:crystalloid cardioplegia to whole blood minicardioplegia (WB) in a porcine model of acute myocardial ischemia. Yorkshire pigs (n = 20) were placed on atriofemoral bypass and subjected to 30 minutes of global normothermic ischemia. Animals were randomized to receive either 4:1 cold cardioplegia (n = 10) or WB cold cardioplegia (n = 10) delivered antegrade continuously for 90 minutes. Baseline (BL) echocardiographic determination of left ventricular mass (LVM) was compared within groups for cardiac edema (%) measured by histologic morphometrics. All (100%) animals receiving WB were successfully weaned off CPB, whereas only 40% of animals receiving 4:1 were successfully weaned off CPB. Cardiac edema percentage (p < .004) and LVM (p < .05) were significantly decreased in the WB group compared with 4:1. WB cardioplegia increases the number of hearts successfully weaned from CPB and decreases cardiac edema in our porcine model of acute myocardial ischemia. This finding implies whole blood cardioplegia may be more protective in a select group of patients undergoing extended CPB time by decreasing myocardial edema.     

Na+/H+ exchange inhibition improves post-transplant myocardial compliance in 4-hour stored donor hearts

Na⁺/H⁺ exchange inhibitors have cardioprotective properties. The effects of the new Na⁺/H⁺ exchange inhibitor, HOE642 on myocardial function were assessed after transplantation of canine brain-dead and non-brain-dead donor hearts preserved for 4 h. Four groups were studied: brain-dead donors; non-brain-dead donors; brain-dead donors and recipients treated with HOE642 (2 mg/kg); and treated non brain-dead donors and recipients. Donor hearts were stored in NIH2. At the end of 60 min reperfusion after transplantation, pressure–volume curves were constructed. Biopsies were analysed histologically and ultrastructurally. Afterwards, weaning from cardiopulmonary bypass was accomplished. HOE642 improved compliance in hearts from both brain-dead and non-brain-dead donors. No differences in myocardial water content nor in myocardial performance were detected. No irreversible damage was seen ultrastructurally. It is concluded that myocardial compliance after transplantation was improved by administration of HOE642. The use of this inhibitor might improve the current myocardial preservation technique for transplantation.     

Effects of adenosine infusion on the pig heart during normothermic ischemia and reperfusion.

Possible enhancement of myocardial protection during ischemia and reperfusion by administration of adenosine was evaluated in a pig heart model. Adenosine (100 micrograms/kg/min) was infused into the aortic root during ischemia in group AI (n = 5) and into the right atrium during reperfusion in group AR (n = 6). Group C (n = 6) served as controls. During cardiopulmonary bypass the hearts were subjected to 30 min of normothermic ischemia and 15 min of reperfusion before weaning. In group AI the stroke work index 30 and 90 min after ischemia and the mean arterial pressure 30 min after ischemia were significantly higher than in group C. These parameters did not differ significantly between groups AR and C. All groups showed decrease in myocardial adenosine triphosphate (ATP) and adenylate charge potential (ACP) during ischemia and partial (ATP) or complete (ACP) restoration after ischemia. Adenosine infusion into the aortic root during ischemia (adenosine cardioplegia) thus resulted in improved postischemic heart function, although biochemical correlates in ATP and ACP were not apparent.     

Na(+)/H(+) exchanger inhibitor HOE642 offers myoprotection in senescent myocardium independent of ischemic preconditioning mechanisms

BACKGROUND: Inhibition of Na(+)/H(+) exchange has been shown to provide functional protection during ischemia and reperfusion in mature heart. This study was undertaken to elucidate the effect of Na(+)/H(+) exchange inhibitor HOE642 in the aged rabbit heart. METHODS: Isolated rabbit hearts were subjected to 1 h of left descending coronary artery (LAD) ischemia and 1 h of reperfusion. To determine the effects of HOE642 on ischemia/reperfusion injury, seven aged or mature hearts received the Na(+)/H(+) exchange inhibitor HOE642 (1 microM) for 15 min before the ischemia and for 30 min after reperfusion. Seven aged (more than 135 weeks) or mature (15-20 weeks) rabbit hearts served as a control (untreated) with no interventions. Left ventricular pressures, monophasic action potentials and coronary flows were measured throughout the experiment and infarct size was detected at the end of experiment. RESULTS: (1) In the mature hearts, HOE642 improved postischemic functional recovery (63.1 +/- 5.0% vs. 84.4 +/- 5.4%, mature untreated vs. mature HOE, p < 0.05) and reduced infarct size as compared to untreated hearts (42.0 +/- 2.5% vs. 24.8 +/- 2.3%, mature untreated vs. mature HOE, p < 0.05). (2) Although infarct size in aged untreated hearts was significantly decreased as compared to mature untreated hearts (42.0 +/- 2.5% vs. 19.3 +/- 1.6%, mature untreated vs. aged untreated, p < 0.05), there are no significant differences regarding postischemic functional recovery between mature and aged untreated hearts (63.1 +/- 5.0% vs. 59.5 +/- 5.9%, mature untreated vs. aged untreated, p = n.s.). (3) In the aged hearts, HOE642 improved postischemic functional recovery as compared to untreated hearts (59.5 +/- 5.9% vs. 85.9 +/- 8.1%, aged untreated vs. aged HOE, p < 0.05). CONCLUSION: Na(+)/H(+) exchange inhibitor HOE642 is effective against ischemia-reperfusion injury in senescent as well as mature hearts.     

Myocardial viability twenty-four hours after orthotopic heart transplantation from non-heart-beating donors

OBJECTIVES: Using a new preservation strategy, we investigated the performance of hearts from non-heart-beating donors during an observation period of 24 hours after orthotopic heart transplantation in a pig model. METHODS: In the control group (n = 6) beating donor hearts were harvested with Bretschneider's HTK solution and transplanted orthotopically without reperfusion modifications. In the non-heart-beating donor group (n = 6) hearts were perfused with leukocyte-depleted blood cardioplegia after 30 minutes of normothermic ischemia. Blood cardioplegia was supplemented with a sodium-hydrogen exchange inhibitor and adenosine. After transplantation, a second controlled reperfusion with blood cardioplegia was performed. RESULTS: Preload recruitable stroke work of the left ventricle 24 hours after transplantation in the control versus non-heart-beating donor group was 108% +/- 24% versus 103% +/- 18% of baseline values. Myocardial blood flow of the left and right ventricle was increased to 146% +/- 32% and 176% +/- 51% in the control group versus 176% +/- 29% and 194% +/- 27% in the non-heart-beating donor group. Myocardial oxygen consumption was 11.2 +/- 2.1 versus 12.8 +/- 2.2 mL/100 g per minute at baseline and 11.6 +/- 2.6 versus 13.2 +/- 3.1 mL/100 g per minute after 24 hours (not significant). Histologic examination with Luxol fast blue staining revealed that 2.6% +/- 4.8% of myocytes in the control group versus 1.8% +/- 1.9% in the non-heart-beating donor group were damaged irreversibly. CONCLUSIONS: Recovery of donor hearts from non-heart-beating donors is comparable with recovery of organs harvested from heart-beating donors if the above-mentioned preservation technique is used. These results could encourage the use of marginal donor hearts and help to expand the limited donor pool.     

Experimental evaluation of myocardial protective effect of prostacyclin analog (OP-41483) as an adjunct to cardioplegic solution

A stable prostacyclin analog (OP-41483) was evaluated for myocardial protective effect against global ischemia with the use of cardioplegia. Isolated canine hearts (n = 25) were exposed to 60 minutes of warm (37 degrees C) global ischemia after the arrest by crystalloid cardioplegia. Prostaglandin analog was given in three different ways: preadministration (700 ng/kg body weight per minute) before ischemia for 30 minutes (group I, n = 5), given as a component of cardioplegic solution (600 ng/ml, group II, n, = 6), and post-administration (25 ng/kg body weight per minute) during reperfusion for 30 minutes (group III, n = 7). During reperfusion, coronary sinus blood flow, 6-keto-prostaglandin F1 alpha in coronary sinus blood, and myocardial oxygen consumption were measured during reperfusion. As a result, groups II and III showed significantly better global left ventricular function (developed pressure, maximum dP/dt, and diastolic compliance) than the control group (without prostaglandin analog, n = 7) and group I. Myocardial oxygen consumption at reperfusion (1 minute) was significantly larger in group II than in the control group. 6-keto-prostaglandin F1 alpha flux was significantly larger in group II than in the other three groups during reperfusion. The results indicated that prostaglandin analog has a beneficial effect on myocardial protection under global ischemia with cardioplegia, particularly when used as a component of cardioplegic solution and also during reperfusion. The mechanism may relate to the cytoprotective effect (including protection of endothelium with enhanced endogenous prostacyclin production at reperfusion and also to the modulation of reperfusion per se.     

Developmental changes in reperfusion injury. Comparison of intracellular ion accumulation in ischemic and cardioplegic arrest

Developmental differences in ischemic and potassium cardioplegic arrest were evaluated in newborn (birth to 7 day old) and adult (6 to 12 month old) New Zealand white rabbit hearts isolated and perfused by Langendorff's method. An extracellular space washout technique was used to measure intracellular sodium and calcium in the two age groups after ischemia alone, after normothermic and hypothermic cardioplegia, and after cardioplegia with reperfusion. Although the intracellular ionic contents of nonreperfused adult hearts after 30 and 40 minutes of ischemia were identical, there was a twofold elevation in intracellular sodium level after 40 minutes of ischemia in the newborn hearts. Adult hearts arrested by normothermic potassium cardioplegia demonstrated no alteration in the intracellular ionic content, whereas in the newborn hearts, potassium cardioplegia produced excess intracellular calcium loading before reperfusion, which was greater than that occurring with ischemia alone. When hypothermia (12 degrees C) was combined with cardioplegic arrest, a prereperfusion influx of sodium and calcium was not observed in the newborn hearts, and ionic reperfusion injury was blunted in both newborn and adult hearts. These studies demonstrate that the newborn heart is more susceptible than the adult to both ischemia and cardioplegia. This may be due to age-dependent differences in transmembrane passive diffusion, sodium/calcium exchange, or calcium slow channel properties and suggests alternative myocardial protective strategies for the newborn infant.     

A new hydroxyl radical scavenger “EPC” on cadaver heart transplantation in a canine model

This study was performed to determine if an “arrested” heart, resuscitated with cardiopulmonary bypass (CPB) after the cessation of beating, can be successfully transplanted, and whether a hydroxyl radical scavenger EPC can reduce ischemic and reperfusion injury during resuscitation of the arrested heart and following orthotopic heart transplantation. A total of 16 pairs of canines were divided into a control group of eight pairs and an EPC-treated group of eight pairs. Cardiac arrest of the donor heart was induced by the discontinuation of respiratory support after the induction of brain death. The cadaver heart was then resuscitated and core-cooled to myocardial temperature of 15°C using CPB. The donor heart was harvested using cold cardioplegia and orthotopically transplanted. All of the transplanted hearts in the EPC group were weaned from CPB without any inotropic support after 60 min of bypass support, whereas all the animals in the control group required 5 μg/kg/min dopamine (P=0.001). Moreover, cardiac function (E _max) 1h after orthotopic heart transplantation was better preserved in the EPC group than in the control group, at 110±36% vs. 70±21% of the post brain death values (P=0.02) These findings demonstrate that EPC reduces posttransplant reperfusion injury, and thus it may prove to be a valuable adjunct in this challenging model.     

Ischemic postconditioning: brief ischemia during reperfusion converts persistent ventricular fibrillation into regular rhythm

Objectives: Brief episodes of myocardial ischemia-reperfusion employed during reperfusion after a prolonged ischemic insult may attenuate the total ischemia-reperfusion injury. This phenomenon has been termed ischemic postconditioning. In the present study, we studied the possible effect of postconditioning on persistent reperfusion-induced ventricular fibrillation (VF) in the isolated rat heart model. Methods: Isolated Langendorff-perfused rat hearts (n=46) were subjected to 30 min of regional ischemia and reperfusion. The hearts with persistent VF (n=11) present after 15 min of reperfusion were then randomly assigned into one of the two groups: (1) control hearts (n=6), in which perfusion was continued without intervention; (2) postconditioned hearts (n=5) subjected to 2 min of global ischemia followed by reperfusion. Left ventricular pressures, heart rate, coronary flow, and electrogram were monitored throughout the experiment. Results: Conversion of VF into regular rhythm was observed in all hearts subjected to postconditioning. Regular beating was maintained by all postconditioned hearts during the subsequent reperfusion. None of the hearts in the control group had normal rhythm at the end of the experiment. At the end of reperfusion, the left ventricular developed pressure was lower in beating postconditioned hearts compared to the hearts that did not develop persistent VF. Conclusions: Ischemic postconditioning possesses strong antiarrhythmic effect against persistent reperfusion-induced tachyarrhythmias. Postconditioning may be an interesting, novel adjunct strategy to protect the heart.     

HOE-642联合尼可地尔对无心跳猪供心的保护作用

目的 探讨无心跳供者(NHBD)的心脏进行移植的可行性,以及HOE-642联合尼可地尔对这种供心的保护效果.方法 将健康雄性家猪随机分为实验组和对照组,实验组供者采取主动脉快速完全放血法制成NHBD模型,取其心脏,冷保存4 h后进行移植;对照组供者经主动脉适量放血(仍有心跳),造成热缺血,然后取其心脏,冷保存4 h后进行移植.实验组于供心热缺血前5 min静脉给予HOE-642(2 mg/kg);以含HOE-642和尼可地尔的4 ℃ Stanford液灌洗和保存供心;供心吻合前经主动脉根部以含HOE-642和尼可地尔的4 ℃ 4:1血心停搏液(高钾)灌注1次;供心吻合期间以含HOE-642和尼可地尔的4 ℃ 4:1血心停搏液(低钾)间断灌注;心脏吻合完毕主动脉开放后初始5 min时段内,静脉给予HOE-642(2 mg/kg).对照组的供心处理除不用HOE-642和尼可地尔外,其余同实验组.采集供心主动脉根部放血前、移植心脏吻合完毕主动脉开放后1 h(停机)以及主动脉开放后2 h(实验结束)3个时点的心脏血流动力学指标,测定移植心脏的心肌含水量,观察心肌的组织学变化.结果 两组在主动脉开放后心肌红润,心脏搏动有力,均成功脱机.两组各检测时点的左心室舒张末压、左心室峰发展压及左心室压力变化速率的差异均无统计学意义(P＞0.05);实验组和对照组心肌组织含水量分别为(78.6±5.7)%和(76.4±4.2)%,其差异无统计学意义(P＞0.05);光镜下见两组的心肌纤维结构清楚,排列紧密,间质未见炎症细胞浸润,也未见变性、坏死,无排斥反应征象,电镜下见心肌细胞超微结构完整.结论 NHBD的供心可用于移植,其效果与有心跳者相近;HOE-642和尼可地尔联用可能对该类供心具有一定的保护作用.     

Does hypothermia or hyperkalemia influence the preconditioning response?

Ischemic preconditioning (IPC) is a potent mode of myocardial protection, but not in all models of cold cardioplegia. The present study investigates possible effects of hypothermia and hyperkalemia on the preconditioning response. Langendorff-perfused rat hearts were preconditioned (2 min global ischemia and 5 min reperfusion) or control-perfused prior to 35 min normothermic, global ischemia (series 1, n = 17 in each group); 50 min normothermic cardioplegia (St. Thomas's II) (series 2, n = 10 in each); 75 min 23 degrees C, global ischemia (series 3, n = 7 in each); or 5 h 6-8 degrees C, global ischemia (series 4, n = 9 in each). Left ventricular developed (LVDP) and end-diastolic (LVEDP) pressures, coronary flow (CF), heart rate, incidence of severe reperfusion arrhythmias, and release of troponin T (TnT) were measured. IPC attenuated reduction of LVDP and CF, and increase of LVEDP during reperfusion in series 1-3. TnT release was reduced by IPC in series 3 only. IPC did not attenuate dysfunction after hypothermic ischemia (series 4). Neither hyperkalemia nor moderate hypothermia alone inhibited the preconditioning response, but IPC was not protective in deep hypothermia.     

温血停搏液术终灌注对缺血再灌注心肌的保护作用

利用猫体外循环模型观察含甘露醇的温血停搏液术终灌注对缺血再灌注心肌的保护作用。心肌缺血恢复正常血液灌注前，从主动脉根部以５～６ｋＰａ的压力注入３７℃含甘露醇的低钾温血停搏液５０ｍｌ。结果显示用含甘露醇的温血停搏液术终灌注可保护缺血后再灌注心肌的功能，提高心肌能量储备，降低线粒体丙二醛含量。结论：含甘露醇的温血停搏液术终灌注，可提高心肌对氧自由基的清除能力，减轻线粒体膜脂质过氧化，提高心肌能量储备，有利于再灌注后心肌功能的恢复