Factors involved in capillary growth in the heart

Growth of capillaries in the heart occurs under physiological circumstances during endurance exercise training, exposure to high altitude and/or cold, and changes in cardiac metabolism or heart rate elicited by modification of thyroid hormone levels. Capillary growth in all these conditions can be linked with increased coronary blood flow, decreased heart rate, or both. This paper brings evidence that, although increased blood flow due to long-term administration of coronary vasodilators results in capillary growth, a long-term decrease in heart rate induced by electrical bradycardial pacing in rabbits and pigs, or by chronic administration of a bradycardic drug, alinidine, in rats, stimulates capillary growth with little or no change in coronary blood flow. Decreased heart rate results in increased capillary wall tension, increased end-diastolic volume and increased force of contraction, and thus stretch of the capillary wall. This could lead to release of various growth factors possibly stored in the capillary basement membrane. Correlation was found between capillary density (CD) and the levels of low molecular endothelial cell stimulating angiogenic factor (ESAF) both in rabbit and pig hearts with CD increased by pacing. There was no relation between expression of mRNA for basic fibroblast growth factor and CD in sham-operated and paced rabbit hearts. In contrast, mRNA for TGFß was increased in paced hearts, and the possible role of this factor in the regulation of capillary growth induced by bradycardia is discussed.     

beta1-Adrenoreceptor activation contributes to ischemia-reperfusion damage as well as playing a role in ischemic preconditioning

Protein kinase A (PKA) activation has been implicated in early-phase ischemic preconditioning. We recently found that during ischemia PKA activation causes inactivation of cytochrome-c oxidase (CcO) and contributes to myocardial damage due to ischemia-reperfusion. It may be that beta-adrenergic stimulation during ischemia via endogenous catecholamine release activates PKA. Thus beta-adrenergic stimulation may mediate both myocardial protection and damage during ischemia. The present studies were designed to determine the role of the beta(1)-adrenergic receptor (beta(1)-AR) in myocardial ischemic damage and ischemic preconditioning. Langendorff-perfused rabbit hearts underwent 30-min ischemia by anterior coronary artery ligation followed by 2-h reperfusion. Occlusion-reperfusion damage was evaluated by delineating the nonperfused volume of myocardium at risk and volume of myocardial necrosis after 2-h reperfusion. In some hearts ischemic preconditioning was accomplished by two 5-min episodes of global low-flow ischemia separated by 10 min before coronary occlusion-reperfusion. Orthogonal electrocardiograms were recorded, and coronary flow was monitored by a drip count. Three hearts from each experimental group were used to determine mitochondrial CcO and aconitase activities. Two-hour reperfusion after occlusion caused an additional decrease in CcO activity vs. that after 30-min occlusion alone. Blocking the beta(1)-AR during occlusion-reperfusion reversed CcO activity depression and preserved myocardium at risk for necrosis. Similarly, mitochondrial aconitase activity exhibited a parallel response after occlusion-reperfusion as well as for the other interventions. Furthermore, classic ischemic preconditioning had no effect on CcO depression. However, blocking the beta(1)-AR during preconditioning eliminated the cardioprotection. If the beta(1)-AR was blocked after preconditioning, the myocardium was preserved. Interestingly, in both of the latter cases the depression in CcO activity was reversed. Thus the beta(1)-AR plays a dual role in myocardial ischemic damage. Our findings may lead to therapeutic strategies for preserving myocardium at risk for infarction, especially in coronary reperfusion intervention.     

Changes in autoregulation of coronary blood flow in rats with various sensitivity to stress

The purpose of work: study of a role of endothelial nitric oxide in development of stress-induced changes in autoregulation of coronary blood flow in rats with various types of behaviour. The experiments were performed on isolated hearts of female-rats, in the "open field" test, depending on the type of impelling and searching activity of animals subdivided into two groups: "active" and "passive". After a 6-hour immobilization stress only in "passive" rats an increase of volumetric velocity of coronary flow; a decrease of an autoregulation index, coronary reserve against the background of intravascular pressure reduction, were found out. The blockade of nitric oxide synthesis in this group completely eliminated the stress-induced decrease of coronary vascular tone and essentially limited the caused by stress dissociation of coronary flow and the contractility function of the myocardium. In blood plasma of "passive" animals the nitrite/nitrate contents was by 55% more than of the "active" rats. After the transferred stress, in "passive" animals the nitrite/nitrate concentration in blood plasma increased by 29% and in "active" rats--by 136%; the absolute values, however, did not differ between the groups. Thus the autoregulation of coronary flow seems to be subject to action of stress in the rats showing a "passive" type of behaviour in the test "open field", and practically does not change in "active" animals; secondly, in spite of the fact that the stress-induced amplification of NO-producing function andothelium of coronary blood vessels is stereotyped in different rats, in "passive" rats, apparently, sensitivity of coronary vessels to nitric oxide is higher than at "active" those.     

Quantitative 31P nuclear magnetic resonance analysis of metabolite concentrations in Langendorff-perfused rabbit hearts.

The quantitative analysis of the mobile high-energy phosphorus metabolites in isovolumic Langendorff-perfused rabbit hearts has been performed by 31P NMR utilizing rapid pulse repetition to optimize sensitivity. Absolute quantification required reference to an external standard, determination of differential magnetization saturation and resonance peak area integration by Lorentzian lineshape analysis. Traditionally accepted hemodynamic indices (LVDP, dp/dt) and biochemical indices (lactate, pyruvate) of myocardial function were measured concomitantly with all NMR determinations. Hemodynamically and biochemically competent Langendorff-perfused rabbit hearts were found to have intracellular PCr, ATP, GPC, and Pi concentrations of 14.95 +/- 0.25, 8.08 +/- 0.13, 5.20 +/- 0.58 and 2.61 +/- 0.47 mM respectively. Intracellular pH was 7.03 +/- 0.01. Cytosolic ADP concentration was derived from a creatine kinase equilibrium model and determined to be approximately 36 microM. Reduction of perfusate flow from 20 to 2.5 ml/min demonstrated statistically significant decreases in PCr, ATP, and pH as well as an increase in Pi that correlated closely with the independent hemodynamic and biochemical indices of myocardial function. The decrease in ATP and PCr concentrations precisely matched the increase in Pi during reduced flow. These results constitute the first quantitative determination of intracellular metabolite concentrations by 31P NMR in intact rabbit myocardium under physiologic and low flow conditions.     

Myocardial oxygenation and adenosine release in isolated guinea pig hearts during changes in contractility

Previous work from this laboratory using near-infrared optical spectroscopy of myoglobin has shown that approximately 20% of the myocardium is hypoxic in buffer-perfused hearts that are perfused with fully oxygenated buffer at 37 degrees C. The present study was undertaken to determine cardiac myoglobin saturation in buffer-perfused hearts when cardiac contractility was increased with epinephrine and decreased during cardiac arrest with KCl. Infusion of epinephrine to achieve a doubling of contractility, as measured by left ventricular maximum pressure change over time (dP/dt), resulted in a decrease in mean myoglobin saturation from 79% at baseline to 65% and a decrease in coronary venous oxygen tension from 155 mmHg at baseline to 85 mmHg. Cardiac arrest with KCl increased mean myoglobin saturation to 100% and coronary venous oxygen tension to 390 mmHg. A previously developed computer model of oxygen transport in the myocardium was used to calculate the probability distribution of intracellular oxygen tension and the hypoxic fraction of the myocardium with an oxygen tension below 0.5 mmHg. The hypoxic fraction of the myocardium was approximately 15% at baseline, increased to approximately 30% during epinephrine infusion, and fell to approximately 0% during cardiac arrest. The coronary venous adenosine concentration changed in parallel with the hypoxic fraction of the myocardium during epinephrine and KCl. It is concluded that catecholamine stimulation of buffer-perfused hearts increases hypoxia in the myocardium and that the increase in venous adenosine concentration is a reflection of the larger hypoxic fraction of myocardium that is releasing adenosine.     

Left ventricular effects on right ventricular developed pressure.

The possibility that left ventricular (LV) performance might affect right ventricular (RV) function through the myocardium was examined by using isolated, flow-perfused, paced rabbit hearts beating isovolumically. Reducing LV volume from its optimal volume to zero caused a 5.7% decrease (N = 10, P less than 0.001) in right ventricular developed pressure (RVDP). Ligating the anterior ventricular branches of the left coronary artery which in the rabbit supply the LV free wall resulted in an additional 9.3% decrease in RVDP (N = 5, P = 0.05) within 3 min of ligation. Finally, cutting the LV free wall from the atrioventricular orifice to the apex (thereby preventing any developed LV free wall force during systole) caused a 45% further decrease in RVDP (N = 2, P less than 0.02). Cineradiographic study showed that the alterations in RVDP resulting from changes in LV volume and coronary occlusion correlated significantly (N = 5, P less than 0.01) with the magnitude of septal bulging into the RV cavity during systole. The results indicate that alteration in LV free wall function and changes in LV volume can directly effect RVDP through the myocardium.     

尾加压素Ⅱ对正常及缺血-再灌注离体大鼠心脏的影响

在正常Langendorff灌流与缺血-再灌注(停灌20 min-复灌20 min)离体大鼠心脏模型,观察尾加压素Ⅱ(urotensin Ⅱ,UⅡ)对冠脉流量、心功能和心肌代谢的影响以及心肌UⅡ受体的功能,以探讨UⅡ的心脏效应。对正常心脏给予0.1、1和10 nmol/L UⅡ各5 min,然后换洗5 min,对停灌缺血-再灌注心脏在再灌注期给予1或10nmol/L UⅡ。监测心率、左室内压和左室内压升降的最大变化率等心功能指标,计算冠脉流量,测定冠脉流出液中总蛋白和肌红蛋白含量以及乳酸脱氢酶(LDH)活性。灌流结束后,测定心肌丙二醛(MDA)含量和质膜UⅡ结合位点(放射性配基结合法)。结果如下:(1)正常心脏灌流UⅡ后,冠脉流量和心功能呈浓度依赖下降,换洗后没有完全恢复。心肌蛋白、肌红蛋白和LDH漏出随UⅡ浓度的增加而增加,换洗后迅速减少。UⅡ组心肌MDA含量与对照组差异无显著性。(2)缺血-再灌注后,冠脉流量显著减少,心功能显著抑制,再灌注期心肌蛋白、肌红蛋白和LDH明显漏出;给予UⅡ后,上述变化增强,且高浓度组更强,与对照组差异有显著性(P<<0.01),再灌注后心肌MDA含量亦显著高于对照(P<0.01)。(3)缺血-再灌注心肌质膜UⅡ受体的B_(max)显著高于正常对照心肌(14.65±1.78vs20.53±1.98 fmol/mg pr,P<0.01),Kd值变化无统计学意义。上述结果表明,在正常     

Chromatic shifts in the fluorescence emitted by murine thymocytes stained with Hoechst 33342.

BACKGROUND: Many methods in flow cytometry rely on staining DNA with a fluorescent dye to gauge DNA content. From the relative intensity of the fluorescence signature, one can then infer position in cell cycle, amount of DNA (i.e., for sperm selection), or, as in the case of flow karyotyping, to distinguish individual chromosomes. This work examines the staining of murine thymocytes with a common DNA dye, Hoechst 33342, to investigate nonlinearities in the florescence intensity as well as chromatic shifts. METHODS: Murine thymocytes were stained with Hoechst 33342 and measured in a flow cytometer at two fluorescence emission bands. In other measurements, cells were stained at different dye concentrations, and then centrifuged. The supernatant was then used for a second round of staining to test the amount of dye uptake. Finally, to test for resonant energy transfer, we measured fluorescence anisotropy at two different wavelengths. RESULTS: The fluorescence of cells stained with Hoechst 33342 is a nonlinear process that shows an overall decrease in intensity with increased dye uptake, and spectral shift to the red. Along with the spectral shift of the fluorescence to the longer wavelengths, we document decreases in the fluorescence anisotropy that may indicate resonant energy transfer. CONCLUSIONS: At low concentrations, Hoechst 33342 binds to the minor groove of DNA and shows an increase in fluorescence and a blue shift upon binding. At higher concentrations, at which the dye molecules can no longer bind without overlapping, the blue fluorescence decreases and the red fluorescence increases until there is approximately one dye molecule per DNA base pair. The ratio of the blue fluorescence to the red fluorescence is an accurate indicator of the cellular dye concentration.     

Atrial natriuretic factor in the Langendorff perfused coronary vasculature of the rabbit isolated heart

Removal of exogenously administered rat ANF (99-126) (rANF) from the rabbit coronary vasculature was investigated. Rabbit hearts were perfused using a modified Langendorff technique and ANF concentrations in the perfusate were measured by a radio-receptor assay. Under these conditions no major degradation of ANF was observed. On perfusion, however, the heart liberated large amounts of ANF. This release peaked 15 minutes after the initiation of perfusion, (685 + 220 pM) and then fell to a sustained basal level (305 + 80 pM) after 45 minutes. Although an increase in the perfusate flow rate reduced the ANF concentration, there was no significant difference in the rate of ANF release between the two flow rates used. After momentary cessation of flow ANF concentration fell to a significantly lower level, however, once again no significant change in rate of release occurred. These results suggest that the heart is not a major site of ANF degradation and that alterations in flow rate through the coronary vascular bed can cause changes in amounts of ANF released.     

Problems related to infarct size measurements in the rat heart.

The feasibility of measuring the extent of hypoperfused myocardium and the infarct size was examined in rat hearts after occlusion of the left coronary artery. The extent of hypoperfused myocardium was examined by autoradiography and after perfusion with fluorescent microspheres. Both methods appeared unreliable in this model. Triphenyltetrazolium chloride (TTC) staining, however, provided a distinct demarcation line between viable myocardium, which was stained red, and the necrotic myocardium, consistent with the ultrastructural border between normal and severely damaged myocytes 5 h after coronary occlusion. TTC staining gives the best demarcation of ischemic tissues. In verapamil-treated rats, there was an apparent reduction in infarct size as compared with untreated rats; 20% reduction in infarct size 5 h after coronary occlusion and 12% reduction after 24 h. There was, however, a large postoperative mortality among the verapamil-treated rats. These problems, and the nonuniform infarct size in rats, may in part explain why infarct size limitation by verapamil has been reported from rat experiments, but not from clinical trials.     

Low extracellular Ca2+ and enzyme release in the perfused rabbit heart

Previous studies have shown that the well-oxygenated perfused rabbit heart releases creatine kinase when treated with the calcium antagonist drug verapamil (VER) in a dose-related manner. It is possible that this effect is related to Ca2+ ion deprivation of the sarcolemma. This possibility was explored by perfusing hearts with low Ca2+ (0.5, 0.23, 0.15, and 0 mM) versus a control group (1.27 mM Ca2+) for 60 min. Low Ca2+ perfusion was associated with reduction in the heart rate--left ventricular systolic pressure product and O2 consumption, tendency for the coronary sinus flow to increase, electromechanical dissociation, prolongation of atrioventricular conduction and QT interval, and decrease in myocardial glycogen. Lower total adenosine nucleotides were found only in the 0 mM Ca2+ group. As the Ca2+ concentration was reduced, the hearts lost increasing amounts of creatine kinase, aspartate aminotransferase, and lactate dehydrogenase. These results confirm the importance of Ca2+ ions in contractile and electrical cardiac functions and show that decreased availability of this cation leads to increasing enzyme leakage resembling that seen in VER-treated hearts.     

离体灌流大鼠左右心肌的应激蛋白增加的非一致性

在病理状况及不同生理条件刺激时,左右心功能和结构改变的不一致已被广泛发现,但是对于造成左右心不一致变化的原因尚缺乏认识。本研究利用双向电泳方法分析和比较了应激蛋白在常氧及低氧灌流的离体大鼠左右心肌的诱导。结果表明,三个分子量为７０ｋＤａ（Ｓｐ６８,７０和７２）ｐＩ６．３－７．３的应激蛋白在左右心肌中均显著增加,并且应激蛋白在右心的合成量要高于左心。这说明右心对缺血灌流刺激的应答不同于左心,应激蛋白对左右心的保护程度不一样。此外,左右心的过氧化氢酶活力均显著下降,提示对离体灌流的大鼠心脏,氧化应激可能是诱导应激蛋白合成的一个重要原因,并且左右心应激蛋白增加不一致的原因很可能与左右心自身的结构及所处的状况有关。     

Myocardial perfusion in experimentally induced diabetes mellitus

Diabetes mellitus was induced in rabbits by alloxan monohydrate. At the end of six-week period, animals of the control and diabetic groups (8 rabbits each) were sacrificed and their hearts were excised and perfused using Langendorff apparatus. Results revealed that diabetes had adverse effects on myocardial perfusion. The baseline coronary flow and maximum coronary flow were significantly reduced in diabetic hearts as compared with those of the control. The maximum total coronary flow tended to decrease in the diabetic hearts. Products of the metabolic changes which accompanied diabetes might have directly and/or indirectly caused the observed reduction in the coronary vascular capacity of the diabetic heart.     

Ischemia increases detectable endothelial nitric oxide synthase in rat and human myocardium.

The aims of the present study were to establish if myocardial ischemia/reperfusion is associated with altered eNOS activity and if myocardial eNOS detection depends on its activity. We determined detectable eNOS in (1) myocardium of isolated perfused rat hearts subjected to either global or regional ischemia and (2) in left ventricular biopsies from patients undergoing two different methods of myocardial protection (i.e., intermittent cold blood cardioplegia and continuous coronary perfusion with warm, beta-blocker-enriched blood) during coronary artery surgery. NOS detection was performed by NADPH-d staining and three eNOS-antibodies against different eNOS epitopes. In addition, activity dependent alteration of detectable eNOS was proofed by bradykinin treatment for 2 to 10 min. Ischemic and receptor mediated eNOS activation increased NADPH-d reactivity and eNOS immunoreaction as measured by antibodies against either amino acids of a central bovine eNOS domain or the human eNOS N-terminal end. In contrast, the antibody against the human eNOS C-terminal end exhibited no alteration of eNOS immunoreaction. The transient eNOS activation was associated with increased cGMP content. In human myocardium subjected to ischemia during cardiac surgery we found that early reperfusion increases eNOS activity. These data demonstrate a strong association between myocardial ischemia/reperfusion and increased eNOS activity as measured by immunocytochemical staining against specific eNOS epitopes. It appears that eNOS activation and subsequent NO release may act as a regulatory system to counter balance the potentially deleterious effects of myocardial ischemia/reperfusion.     

Exercise training preserves coronary flow and reduces infarct size after ischemia-reperfusion in rat heart.

The effect of endurance training on the resistance of the heart to left ventricular (LV) functional deficit and infarction after a transient regional ischemia and subsequent reperfusion was examined. Female Sprague-Dawley rats were randomly assigned to an endurance exercise training (Tr) group or a sedentary (Sed) control group. After 20 wk of training, hearts were excised, perfused, and instrumented for assessment of LV mechanical function, and the left anterior descending coronary artery was occluded to induce a transient regional ischemia (1 h) that was followed by 2 h of reperfusion. Throughout much of the regional ischemia-reperfusion protocol, coronary flow rates, diastolic function, and LV developed pressure were better preserved in hearts from Tr animals. During the regional ischemia, coronary flow to myocardium outside the ischemic zone at risk (ZAR) was maintained in Tr hearts, whereas it progressively fell in Sed hearts. On release of the coronary artery ligature, flow to the ZAR was greater in Tr than in Sed hearts. Infarct size, expressed as a percentage of the ischemic ZAR, was significantly smaller in hearts from Tr rats (24 +/- 3 vs. 32 +/- 2% of ZAR, P < 0.05). Mn- and CuZn-SOD protein expression were higher in the LV myocardium of Tr animals (P < 0.05 for both isoforms). Our data indicate that long-term exercise training leads to infarct sparing and better maintenance of coronary flow and mechanical function after ischemia-reperfusion.     

Structural remodelling of cardiomyocytes in the border zone of infarcted rabbit heart

Cardiomyocyte dedifferentiation, as detected in hibernating myocardium of chronic ischemic patients, is one of the characteristics seen at the border of myocardial infarcts in small and large animals. Our objectives were to study in detail the morphological changes occurring at the border zone of a rabbit myocardial infarction and its use as model for hibernating myocardium. Ligation of the left coronary artery (LAD) was performed on rabbit hearts and animals were sacrificed at 2, 4, 8 and 12 weeks post-infarction. These hearts together with a non-infarcted control heart were perfusion-fixed and tissue samples were embedded in epoxy resin. Hibernating cardiomyocytes were mainly distributed in the non-infarcted region adjacent to the border zone of infarcted myocardium but only in a limited number. In the border zone itself vacuolated cardiomyocytes surrounded by fibrotic tissue were frequently observed. Ultrastructural analysis of these vacuolated cells revealed the presence of a basal lamina inside the vacuoles adjacent to the surrounding membrane, the presence of pinocytotic vesicles and an association with cisternae of the sarcoplasmatic reticulum. Myocyte quantitative analyses revealed a gradual increase in vacuolar area/total cell area ratio and in collagen fibril deposition inside the vacuoles from 2 to 12 weeks post-infarction. Related to the remote zone, the increase in cell width of myocytes located in and adjacent to the border zone demonstrated cellular hypertrophy. These results indicate the occurrence of cardiomyocyte remodelling mechanisms in the border zone and adjacent regions of infarcted myocardium. It is suggested that the vacuoles represent plasma membrane invaginations and/or dilatations of T-tubular structures.     

The low oxygen-carrying capacity of Krebs buffer causes a doubling in ventricular wall thickness in the isolated heart

The buffer-perfused Langendorff heart is significantly vasodilated compared with the in vivo heart. In this study, we employed ultrasound to determine if this vasodilation translated into changes in left ventricular wall thickness (LVWT), and if this effect persisted when these hearts were switched to the "working" mode. To investigate the effects of perfusion pressure, vascular tone, and oxygen availability on cardiac dimensions, we perfused hearts (from male Wistar rats) in the Langendorff mode at 80, 60, and 40 cm H2O pressure, and infused further groups of hearts with either the vasoconstrictor endothelin-1 (ET-1) or the blood substitute FC-43. Buffer perfusion induced a doubling in diastolic LVWT compared with the same hearts in vivo (5.4 +/- 0.2 mm vs. 2.6 +/- 0.2 mm, p < 0.05) that was not reversed by switching hearts to "working" mode. Perfusion pressures of 60 and 40 cm H2O resulted in an increase in diastolic LVWT. ET-1 infusion caused a dose-dependent decrease in diastolic LVWT (6.6 +/- 0.4 to 4.8 +/- 0.4 mm at a concentration of 10(-9) mol/L, p < 0.05), with a concurrent decrease in coronary flow. FC-43 decreased diastolic LVWT from 6.7 +/- 0.5 to 3.8 +/- 0.7 mm (p < 0.05), with coronary flow falling from 16.1 +/- 0.4 to 8.1 +/- 0.4 mL/min (p < 0.05). We conclude that the increased diastolic LVWT observed in buffer-perfused hearts is due to vasodilation induced by the low oxygen-carrying capacity of buffer compared with blood in vivo, and that the inotropic effect of ET-1 in the Langendorff heart may be the result of a reversal of this wall thickening. The implications of these findings are discussed.     

Prevention of stress-induced changes in coronary autoregulation of vasodilative reserve of the coronary vessels and contractile function of the isolated heart with small doses of thyroid hormones

The possibility to restrict stress disturbances of coronary blood flow and contractile myocardium function with small doses of thyroid hormones has been studied on 46 hearts of female rats isolated by the Langendorff method. It is found that small doses of thyroidin increase the force of systoles and adequately increase relative coronary blood flow, coronary reserve vasodilatation, significantly prevent stress disturbances of coronary autoregulation, the force and rate of the myocardium contraction and relaxation, that restricts disproportion between contractive function and coronary blood flow.     

An increase in the redox state during reperfusion contributes to the cardioprotective effect of GIK solution

This study aimed at determining whether glucose-insulin-potassium (GIK) solutions modify the NADH/NAD(+) ratio during postischemic reperfusion and whether their cardioprotective effect can be attributed to this change in part through reduction of the mitochondrial reactive oxygen species (ROS) production. The hearts of 72 rats were perfused with a buffer containing glucose (5.5 mM) and hexanoate (0.5 mM). They were maintained in normoxia for 30 min and then subjected to low-flow ischemia (0.5% of the preischemic coronary flow for 20 min) followed by reperfusion (45 min). From the beginning of ischemia, the perfusate was subjected to various changes: enrichment with GIK solution, enrichment with lactate (2 mM), enrichment with pyruvate (2 mM), enrichment with pyruvate (2 mM) plus ethanol (2 mM), or no change for the control group. Left ventricular developed pressure, heart rate, coronary flow, and oxygen consumption were monitored throughout. The lactate/pyruvate ratio of the coronary effluent, known to reflect the cytosolic NADH/NAD(+) ratio and the fructose-6-phosphate/dihydroxyacetone-phosphate (F6P/DHAP) ratio of the reperfused myocardium, were evaluated. Mitochondrial ROS production was also estimated. The GIK solution improved the recovery of mechanical function during reperfusion. This was associated with an enhanced cytosolic NADH/NAD(+) ratio and reduced mitochondrial ROS production. The cardioprotection was also observed when the hearts were perfused with fluids known to increase the cytosolic NADH/NAD(+) ratio (lactate, pyruvate plus ethanol) compared with the other fluids (control and pyruvate groups). The hearts with a high mechanical recovery also displayed a low F6P/DHAP ratio, suggesting that an accelerated glycolysis rate may be responsible for increased cytosolic NADH production. In conclusion, the cardioprotection induced by GIK solutions could occur through an increase in the cytosolic NADH/NAD(+) ratio, leading to a decrease in mitochondrial ROS production.     

Regional myocardial perfusion under exchange transfusion with liposomal hemoglobin: in vivo and in vitro studies using rat hearts

The purpose of this study was to test the hypothesis that exchange transfusion with liposomal hemoglobin (LH) reduces the microheterogeneity of regional myocardial flows while sustaining cardiac function. Neo Red Cell mixed with albumin was used as the LH solution, in which the LH volume fraction was 17 approximately 18% and hemoglobin density was nearly two-thirds smaller than in rat blood. Regional myocardial flows in left ventricular free walls were measured by tracer digitalradiography (100-mum resolution) in anesthetized rats with or without 50% blood-LH exchange transfusion. Within-layer flow distributions showed lower heterogeneity with (n = 8) than without (n = 8) LH transfusion. No extravasation of hemoglobin was confirmed by 3,3-diaminobenzidin staining (n = 2). Carotid flow increased by 68% due to LH transfusion, whereas arterial pressure and heart rate remained unchanged. On the other hand, cross-circulated rat hearts (n = 7) were used to evaluate the effects of 50% blood-LH exchange on coronary flow and tone preservation under 300-beats/min pacing and 100-mmHg perfusion pressure. Blood-LH exchange caused a 71% increase of coronary flow and 10% decrease of percent flow increase during hyperemia after 30-s flow interruption. Myocardial O(2) supply and consumption increased by 9% and 10%, respectively, whereas myocardial O(2) extraction remained unchanged. The large increases of in vivo carotid flow and coronary flow in cross-circulated hearts due to LH coperfusion could be explained by the reduction of apparent flow viscosity. These results suggest that under LH coperfusion, the microheterogeneity of myocardial flows decreases with increased coronary flow while fairly preserving coronary tone and cardiac function.