Pharmacological inhibition of translocon is sufficient to alleviate endoplasmic reticulum stress and improve Ca2+ handling and contractile recovery of stunned myocardium.

INTRODUCTION: The function of endoplasmic reticulum (ER), a Ca2+ storage compartment and site of protein folding, is altered by disruption of intracellular homeostasis. Misfolded proteins accumulated in the ER lead to ER stress (ERS), unfolded protein response (UPR) activation and ER Ca2+ loss. Myocardial stunning is a temporary contractile dysfunction, which occurs after brief ischemic periods with minimal or no cell death, being oxidative stress and Ca2+ overload potential underlying mechanisms. Myocardial stunning induces ERS response with negatively impact on the post-ischemic mechanical performance through an unknown mechanism. AIMS: In this study, we explored whether ER Ca2+ efflux through the translocon, a major Ca2+ leak channel, contributes to Ca2+ mishandling and the consequent contractile abnormalities of the stunned myocardium. METHODS: Mechanical performance, cytosolic Ca2+, UPR markers and oxidative state were evaluated in perfused rat/mouse hearts subjected to a brief ischemia followed by reperfusion (I/R) in absence or presence of the translocon inhibitor, emetine (1 µM), comparing its effects with those of the chaperones TUDCA (30 µM) and 4-PBA (3 mM). RESULTS: Emetine treatment precluded the I/R-induced increase in UPR signaling markers and improved the contractile recovery together with a remarkable attenuation in myocardial stiffness when compared to I/R hearts with no drug. This alleviation of I/R-induced mechanical abnormalities was more effective than that obtained with the chemical chaperones, TUDCA and 4-PBA. Moreover, emetine treatment produced a striking improvement in diastolic Ca2+ handling with a partial recovery of the I/R-induced oxidative stress. CONCLUSION: Blocking ER Ca2+ store depletion via translocon suppressed ER stress and improved mechanical performance and diastolic Ca2+ handling of stunned myocardium. Modulation of translocon permeability emerges as a therapeutic approach to face dysfunctional consequences of the I/R injury.

Chemical chaperones improve the functional recovery of stunned myocardium by attenuating the endoplasmic reticulum stress.

AIM: Myocardial ischaemia/reperfusion (I/R) produces structural and functional alterations depending on the duration of ischaemia. Brief ischaemia followed by reperfusion causes reversible contractile dysfunction (stunned heart) but long-lasting ischaemia followed by reperfusion can result in irreversible injury with cell death. Events during I/R can alter endoplasmic reticulum (ER) function leading to the accumulation of unfolded/misfolded proteins. The resulting ER stress induces activation of several signal transduction pathways, known as unfolded protein response (UPR). Experimental evidence shows that UPR contributes to cell death in irreversible I/R injury; however, there is still uncertainty for its occurrence in the stunned myocardium. This study investigated the ER stress response and its functional impact on the post-ischaemic cardiac performance of the stunned heart. METHODS: Perfused rat hearts were subjected to 20 minutes of ischaemia followed by 30 minutes of reperfusion. UPR markers were evaluated by qRT-PCR and western blot. Post-ischaemic mechanical recovery was measured in absence and presence of two chemical chaperones: tauroursodeoxycholic acid (TUDCA) and 4-phenylbutyric acid (4-PBA). RESULTS: Analysis of mRNA and protein levels of various ER stress effectors demonstrated that different UPR signalling cascades, involving both pro-survival and pro-apoptotic pathways, are activated. Inhibition of the UPR with chemical chaperones improved the post-ischaemic recovery of cardiac mechanical function without affecting the I/R-induced increase in oxidative stress. CONCLUSION: Our results suggest that prevention of ER stress by chemical chaperones could be a therapeutic tool to limit deterioration of the contractile function in clinical settings in which the phenomenon of myocardial stunning is present.

Hyperinsulinaemic euglycaemic therapy use in neurogenic stunned myocardium following subarachnoid haemorrhage.

We present a 62-year-old female who collapsed with a subarachnoid haemorrhage. This was complicated by profound shock secondary to neurogenic stunned myocardium. As the patient demonstrated life-threatening catecholamine-resistant shock that was unresponsive to conventional treatment measures, hyperinsulinaemic euglycaemic therapy was utilised as a rescue therapy. To our knowledge this has not previously been described in the literature. The patient proceeded to stabilise and made a good recovery.

Brain-Heart Interactions in Traumatic Brain Injury.

The cardiovascular manifestations associated with nontraumatic head disorders are commonly known. Similar manifestations have been reported in patients with traumatic brain injury (TBI); however, the underlying mechanisms and impact on the patient's clinical outcomes are not well explored. The neurocardiac axis theory and neurogenic stunned myocardium phenomenon could partly explain the brain-heart link and interactions and can thus pave the way to a better understanding and management of TBI. Several observational retrospective studies have shown a promising role for beta-adrenergic blockers in patients with TBI in reducing the overall TBI-related mortality. However, several questions remain to be answered in clinical randomized-controlled trials, including population selection, beta blocker type, dosage, timing, and duration of therapy, while maintaining the optimal mean arterial pressure and cerebral perfusion pressure in patients with TBI.

Atorvastatin can ameliorate left atrial stunning induced by radiofrequency ablation for atrial fibrillation.

The objective of this study was to study the functional changes of the left atrium after radiofrequency ablation treatment for atrial fibrillation and the therapeutic effect of atorvastatin. Fifty-eight patients undergoing radiofrequency ablation for atrial fibrillation were randomly divided into non-atorvastatin group and atorvastatin group. Patients in the atorvastatin group were treated with atorvastatin 20 mg p.o. per night in addition to the conventional treatment of atrial fibrillation; patients in the non-atorvastatin group received conventional treatment of atrial fibrillation only. Echocardiography was performed before radiofrequency ablation operation and 1 week, 2 weeks, 3 weeks, and 4 weeks after operation. Two-dimensional ultrasound speckle tracking imaging system was used to measure the structural indexes of the left atrium. Results indicated that there was no significant change for indexes representing the structural status of the left atrium within a month after radiofrequency ablation (P > 0.05); however, there were significant changes for indexes representing the functional status of the left atrium. There were also significant changes in indexes reflecting left atrial strain status: the S and SRs of atorvastatin group were higher than those of non-atorvastatin group (P < 0.05). In summary, atorvastatin could improve left atrial function and shorten the duration of atrial stunning after radiofrequency ablation of atrial fibrillation.

Diabetes Mellitus-Induced Microvascular Destabilization in the Myocardium.

BACKGROUND: Diabetes mellitus causes microcirculatory rarefaction and may impair the responsiveness of ischemic myocardium to proangiogenic factors. OBJECTIVES: This study sought to determine whether microvascular destabilization affects organ function and therapeutic neovascularization in diabetes mellitus. METHODS: The authors obtained myocardial samples from patients with end-stage heart failure at time of transplant, with or without diabetes mellitus. Diabetic (db) and wild-type (wt) pigs were used to analyze myocardial vascularization and function. Chronic ischemia was induced percutaneously (day 0) in the circumflex artery. At day 28, recombinant adeno-associated virus (rAAV) (5 × 1012 viral particles encoding vascular endothelial growth factor-A [VEGF-A] or thymosin beta 4 [Tß4]) was applied regionally. CD31+ capillaries per high power field (c/hpf) and NG2+ pericyte coverage were analyzed. Global myocardial function (ejection fraction [EF] and left ventricular end-diastolic pressure) was assessed at days 28 and 56. RESULTS: Diabetic human myocardial explants revealed capillary rarefaction and pericyte loss compared to nondiabetic explants. Hyperglycemia in db pigs, even without ischemia, induced capillary rarefaction in the myocardium (163 ± 14 c/hpf in db vs. 234 ± 8 c/hpf in wt hearts; p < 0.005), concomitant with a distinct loss of EF (44.9% vs. 53.4% in nondiabetic controls; p < 0.05). Capillary density further decreased in chronic ischemic hearts, as did EF (both p < 0.05). Treatment with rAAV.Tß4 enhanced capillary density and maturation in db hearts less efficiently than in wt hearts, similar to collateral growth. rAAV.VEGF-A, though stimulating angiogenesis, induced neither pericyte recruitment nor collateral growth. As a result, rAAV.Tß4 but not rAAV.VEGF-A improved EF in db hearts (34.5 ± 1.4%), but less so than in wt hearts (44.8 ± 1.5%). CONCLUSIONS: Diabetes mellitus destabilized microvascular vessels of the heart, affecting the amplitude of therapeutic neovascularization via rAAV.Tß4 in a translational large animal model of hibernating myocardium.

Citric Acid Cycle Metabolites Predict the Severity of Myocardial Stunning and Mortality in Newborn Pigs.

OBJECTIVES: Myocardial infarction and chronic heart failure induce specific metabolic changes in the neonatal myocardium that are closely correlated to outcome. The aim of this study was to examine the metabolic responses to noninfarct heart failure and inotropic treatments in the newborn heart, which so far are undetermined. DESIGN: A total of 28 newborn pigs were instrumented with a microdialysis catheter in the right ventricle, and intercellular citric acid cycle intermediates and adenosine metabolite concentrations were determined at 20-minute intervals. Stunning was induced by 10 cycles of 3 minutes of ischemia, which was performed by occluding the right coronary artery, followed by 3 minutes of reperfusion. Animals were randomized for treatment with epinephrine + milrinone, dopamine + milrinone, dobutamine, or saline. SETTING: University hospital animal laboratory. MAIN RESULTS: Ischemia-reperfusion induced right ventricular stunning and increased the concentrations of pyruvate lactate, succinate, malate, hypoxanthine, and xanthine (all, p < 0.01). During inotrope infusion, no differences in metabolite concentrations were detected between the treatment groups. In nonsurviving animals (n = 8), concentrations of succinate (p < 0.0001), malate (p = 0.009), and hypoxanthine (p = 0.04) increased compared with survivors, while contractility was significantly reduced (p = 0.03). CONCLUSIONS: Accumulation of citric acid cycle intermediates and adenosine metabolites reflects the presence of myocardial stunning and predicts mortality in acute noninfarct right ventricular heart failure in newborn pigs. This phenomenon occurs independently of the type of inotrope, suggesting that citric acid cycle intermediates represent potential markers of acute noninfarct heart failure.

Cardiac Strain in a Swine Model of Regional Hibernating Myocardium: Effects of CoQ10 on Contractile Reserve Following Bypass Surgery.

There is conflicting clinical evidence whether administration of coenzyme Q10 (CoQ10) improves function following coronary artery bypass graft surgery (CABG). Using a swine model of hibernating myocardium, we tested whether daily CoQ10 would improve contractile function by MRI at 4-week post-CABG. Twelve pigs underwent a thoracotomy and had a constrictor placed on the left anterior descending (LAD). At 12 weeks, they underwent off-pump bypass and received daily dietary supplements of either CoQ10 (10 mg/kg/day) or placebo. At 4-week post-CABG, circumferential strain measurements in the hibernating LAD region from placebo and CoQ10 groups were not different and increased to a similar extent with dobutamine (-14.7 ± 0.6 versus -14.8 ± 0.1, respectively (NS)). Post-sacrifice, oxidant stress markers were obtained in the mitochondrial isolates and protein carbonyl in the placebo, and CoQ10 groups were 6.14 ± 0.36 and 5.05 ± 0.32 nmol/mg, respectively (NS). In summary, CoQ10 did not improve contractile reserve or reduce oxidant stress at 4-week post-CABG.

Effects of Combined Milrinone and Levosimendan Treatment on Systolic and Diastolic Function During Postischemic Myocardial Dysfunction in a Porcine Model.

It is not known whether there are positive or negative interactions on ventricular function when a calcium-sensitizing inotrope is added to a phosphodiesterase inhibitor in the clinical setting of acute left ventricular (LV) dysfunction. We hypothesized that when levosimendan is added to milrinone treatment, there will be synergetic inotropic and lusitropic effects. This was tested in an anesthetized porcine postischemic global LV injury model, where ventricular pressures and volumes (conductance volumetry) were measured. A global ischemic injury was induced by repetitive left main stem coronary artery occlusions. Load-independent indices of LV function were assessed before and after ventricular injury, after milrinone treatment, and finally after addition of levosimendan to the milrinone treatment. Nonparametric, within-group comparisons were made. The protocol was completed in 12 pigs, 7 of which received the inotrope treatment and 5 of which served as controls. Milrinone led to positive lusitropic effects seen by improvement in tau after myocardial stunning. The addition of levosimendan to milrinone further increased lusitropic state. The latter effect could however not be attributed solely to levosimendan, since lusitropic state also improved spontaneously in time-matched controls at the same rate during the corresponding period. When levosimendan was added to milrinone infusion, there was no increase in systolic function (preload recruitable stroke work) compared to milrinone treatment alone. We conclude that in this model of postischemic LV dysfunction, there appears to be no clear improvement in systolic or diastolic function after addition of levosimendan to established milrinone treatment but also no negative effects of levosimendan in this context.

Role of levosimendan in the management of subarachnoid hemorrhage.

Aneurysmal subarachnoid hemorrhage (aSAH) is one of the leading causes of neurologic disability accounting for dismal long term survival rates. aSAH leads to a sudden increase in intracranial pressure and a massive sympathetic discharge. Excessive sympathetic stimulation leads to catecholamine mediated myocardial dysfunction and hemodynamic instability which may critically hamper brain perfusion and oxygenation. In the setting of acute aSAH, administration of vasoactive drugs aims at stabilizing impaired hemodynamics. However, studies have shown that conventional treatment with vasoactive drugs that lead to Ca(+2) overload and increase myocardial oxygen consumption, fail to restore hemodynamics and decrease cerebral blood flow. Levosimendan is a non-adrenergic inotropic Ca(+2) sensitizer with not only beneficial hemodynamic properties but also pleiotropic effects, contributing to its cardioprotective and neuroprotective role. Although there have been limited data available regarding the use of levosimendan in patients with aSAH, current evidence suggests that levosimendan may have a role in the setting of post-aSAH cardiomyopathy and decreased cerebral blood flow both in the emergency departments and in intensive care units. The purpose of this review is to provide an overview of studies of levosimendan therapy for aSAH, and describe current knowledge about the effects of levosimendan in the management of aSAH.

Aturdimiento miocárdico neurogénico en Pediatría. A propósito de un caso / Neurogenic stunned myocardium in Pediatrics. A case report

El aturdimiento miocárdico neurogénico es una entidad poco frecuente que semeja un síndrome coronario agudo, con alteraciones electrocardiográficas, disfunción cardiaca y aumento de enzimas cardiacas, pero sin evidencia de lesión coronaria. Puede ocurrir en el posoperatorio de neurocirugía. Se presenta el caso de un paciente pediátrico que a las 24 h de ser intervenido de un meduloblastoma de fosa posterior desarrolló un aturdimiento miocárdico neurogénico que evolucionó a taquicardia nodal con repercusión hemodinámica. La evolución fue satisfactoria, aunque precisó tratamiento antiarrítmico, con resolución bioquímica, ecográfica y clínica en menos de una semana (AU)

Neurogenic stunned myocardium is an unusual clinical entity. It mimics an acute coronary syndrome with electrocardiographic abnormalities, cardiac dysfunction and elevated cardiac enzymes with absence of obstructive coronary disease. It may occur after a neurosurgical procedure. A case is presented of neurogenic stunned myocardium occurring in a child after removal of a posterior fossa medulloblastoma. The patient developed nodal tachycardia with hemodynamic impairment. The clinical course was satisfactory due to antiarrhythmic therapy, with biochemical, echocardiographic, and clinical improvement within a week (AU)

Management of catecholamine-induced stunned myocardium--a case report.

Hypertensive, hypervolumic, and hemodilution therapy (triple-H therapy) is administered to patients with symptomatic cerebral vasospasm after intracranial aneurysm clipping. This therapy can sometimes result in cardiac dysfunction because of pharmacologically induced hyperadrenergic state. The diagnosis may be missed if blood pressure alone is monitored to guide triple-H therapy. In this report, we describe one such patient who developed cardiac failure after triple-H therapy. This was diagnosed by using a bioreactance noninvasive cardiac output monitoring. Continuous cardiac output monitoring by this technique facilitated treatment of cardiac failure with milrinone and dobutamine. At discharge, the patient had no neurologic deficits.

Usefulness of cardiac arrest centers - extending lifesaving post-resuscitation therapies: the Arizona experience - .

The post-cardiac arrest syndrome is a complex, multisystems response to the global ischemia and reperfusion injury that occurs with the onset of cardiac arrest, its treatment (cardiopulmonary resuscitation) and the re-establishment of spontaneous circulation. Regionalization of post-cardiac arrest care, utilizing specified cardiac arrest centers (CACs), has been proposed as the best solution to providing optimal care for those successfully resuscitated after out-of-hospital cardiac arrest. A multidisciplinary team of intensive care specialists, including critical care/pulmonologists, cardiologists (general, interventional, and electrophysiology), neurologists, and physical medicine/rehabilitation experts, is crucial for such centers. Particular attention to the timely initiation of targeted temperature management and early coronary angiography/percutaneous coronary intervention is best provided by such CACs. A State-wide program of CACs was started in Arizona in 2007. This is a voluntary program, whereby medical centers agree to provide all resuscitated cardiac arrest patients brought to their facility with state-of-the-art post-resuscitation care, including targeted temperature management for comatose patients and strong consideration for emergent coronary angiography for all patients with a likely cardiac etiology for their cardiac arrest. Survival improved by more than 50% at facilities that became CACs with a commitment to provide aggressive post-resuscitation care to all such patients. Providing aggressive, post-resuscitation care is the next real opportunity to increase long-term survival for cardiac arrest patients.

Expression of uncoupling protein-2 remains increased within hibernating myocardium despite successful coronary artery bypass grafting at 4 wk post-revascularization.

BACKGROUND: We have previously shown that mitochondrial uncoupling protein-2 (UCP-2) is increased in a swine model of hibernating myocardium (HM). Although UCP-2 reduces oxidant stress, it can promote inefficiency of the electron transport chain. In this study, we tested whether UCP-2 remains increased in revascularized HM (RHM) after coronary artery bypass grafting (CABG). METHODS: Seven swine underwent thoracotomy with placement of a constrictor on the left anterior descending artery (LAD). Twelve weeks later, a left internal mammary artery graft was placed on the distal LAD. Four weeks post-CABG, computed tomography angiography documented patent grafts and function. At the terminal study, blood flow to the LAD and remote territories were assessed during high dose dobutamine and mitochondria isolated from both regions for analysis. Comparisons were made to a group of swine with HM who underwent constrictor placement without bypass grafting (n = 4). RESULTS: During dobutamine infusion, RHM demonstrated lower blood flows (2.44 ± 0.23 versus 3.43 ± 0.30 mL/min/g; P < 0.05) and reduced wall thickening (33 ± 9% versus 52 ± 13%; P < 0.05) compared with remote regions. RHM had lower respiratory control indices (3.7 ± 0.3 versus 4.3 ± 0.4; P < 0.05) with persistently increased UCP-2 content. CONCLUSIONS: Despite patent grafts, RHM demonstrates a submaximal response to dobutamine infusion and increased mitochondrial UCP-2 expression. These data support the notion that recovery of the mitochondria in RHM is delayed early post-CABG and may contribute to impaired oxygen consumption and contractile reserve during catecholamine challenges.

[Neurogenic stunned myocardium in Pediatrics. A case report]. / Aturdimiento miocárdico neurogénico en Pediatría. A propósito de un caso.

Neurogenic stunned myocardium is an unusual clinical entity. It mimics an acute coronary syndrome with electrocardiographic abnormalities, cardiac dysfunction and elevated cardiac enzymes with absence of obstructive coronary disease. It may occur after a neurosurgical procedure. A case is presented of neurogenic stunned myocardium occurring in a child after removal of a posterior fossa medulloblastoma. The patient developed nodal tachycardia with hemodynamic impairment. The clinical course was satisfactory due to antiarrhythmic therapy, with biochemical, echocardiographic, and clinical improvement within a week.

Thyroid hormone and the stunned myocardium.

Acute critically ill patients experience a rapid decline in plasma free thyroid hormone levels (free triiodothyronine (FT3) and free levothyroxine (FT4)), with a marked elevation of reverse T3, recognized as the euthyroid sick syndrome (ESS) or low-T3 syndrome. The ESS is also often associated with depressed myocardial function, sometimes referred to as the 'stunned myocardium'. Its clinical effects may vary from minimal hemodynamic impairment to cardiogenic shock. Medical management may range from aspirin alone to placement of a left ventricular assist device. With adequate supportive therapy, recovery usually occurs within days or weeks. The effect of T3/T4 therapy has been studied in three conditions in which the ESS and myocardial functional depression have been documented - i) transient regional myocardial ischemia and reperfusion, ii) transient global myocardial ischemia in patients undergoing cardiac surgery on cardiopulmonary bypass, and iii) transient inadequate global myocardial perfusion in brain-dead potential organ donors. Under all three conditions, myocardial ischemia leads to rapid loss of high-energy phosphates, accumulation of myocardial tissue lactate, and probably loss of homeostasis of cytosolic calcium, which may further increase cell injury. There is an inability to generate ATP through the Krebs cycle, which reduces the high-energy phosphate pool essential for all cell ATPases. Under all three conditions, following administration of T3/T4, the myocardial dysfunction was rapidly reversed. We, therefore, cautiously advocate the use of thyroid hormonal therapy to any patient with the ESS and/or a stunned myocardium.

[Clinical research of safflower injection on hibernating myocardial revascularization].

Coronary artery disease (CAD) is one of the leading causes of death. Safflower attracts great attention owing to its anti-ischemia/reperfusion injury effect. Ninety-three patients with CAD were included and randomized into safflower treatment group, PCI group and control group. Low-dose dobutamine stress echocardiography (DSE) was performed to measure end-systolic volume (ESV), end-diastolic volume (EDV), left ventricular ejection fraction (LVEF) and wall motion score index (WMSI) to determine the recovery of hibernating myocardium and cardiac function in all patients before treatment and after 3-month follow-up. The study was to investigate the effects of safflower on hibernating myocardial revascularization and cardiac function. It was found that LVEF was significantly improved, while the ESV and WMSI were significantly reduced after 2-week treatment in safflower and PCI treatment groups. No significant differences were found between safflower and PCI treatment groups in ESV, EDV, WMSI and LVEF after treatment Safflower injection effectively improved hibernating myocardial function.

Enhancement of myocardial function and reduction of injury with levosimendan after percutaneous coronary intervention for acute myocardial infarction: a pilot study.

OBJECTIVES: To determine the short-term clinical effects of levosimendan in acute myocardial infarction (AMI) patients with myocardial stunning after emergency percutaneous coronary intervention (PCI). METHODS: The study population consisted of 30 patients with AMI who received emergency PCI and satisfied the inclusion criteria. Levosimendan was given as a continuous infusion of 0.1 µg/kg/min for 24 h, and the remaining 10 patients received placebo treatment. The patients were observed with invasive haemodynamic monitoring and were evaluated biochemically and echocardiographically before and after the drug infusion. RESULTS: Following treatment, biochemical indices (not including creatine kinase and its MB fraction) were significantly lower in the levosimendan group than in the placebo group. Meanwhile, left-ventricular (LV) end-systolic volume, mean pulmonary arterial pressure, pulmonary capillary wedge pressure and systemic vascular resistance were significantly reduced in the levosimendan group, whereas the early-to-late diastolic velocities ratio, LV ejection fraction, cardiac index and cardiac power index were increased. Troponin I levels were reduced and fewer stunned and infarction segments were observed in the patients treated with levosimendan. CONCLUSIONS: Levosimendan can significantly improve the myocardium function of patients with myocardial stunning after PCI.

New perspectives of nitric oxide donors in cardiac arrest and cardiopulmonary resuscitation treatment.

Nitric oxide (NO) is often used to treat heart failure accompanied with pulmonary edema. According to present knowledge, however, NO donors are contraindicated when systolic blood pressure is less than 90 mmHg. Based on recent findings and our own clinical experience, we formulated a hypothesis about the new breakthrough complex lifesaving effects of NO donors in patients with cardiac arrest and cardiopulmonary resuscitation therapy. It includes a direct hemodynamic effect of NO donors mediated through vasodilation of coronary arteries in cooperation with improvement of cardiac function and cardiac output through reversible inhibition of mitochondrial complex I and mitochondrial NO synthase, followed by reduction in reactive oxygen species and correction of myocardial stunning. Simultaneously, an increase in vascular sensitivity to sympathetic stimulation could lead to an increase in diastolic blood pressure. Confirmation of this hypothesis in clinical practice would mean a milestone in the treatment for cardiac arrest and cardiopulmonary resuscitation.