Postischemic inotropic support of the dysfunctional heart

Hypoxia inducible factor-1 improves the actions of positive inotropic agents in stunned cardiac myocytes

1. In the present study, we tested hypothesis that upregulation of hypoxia-inducible factor-1 (HIF-1) would improve the actions of positive inotropic agents in cardiac myocytes after simulated ischaemia-reperfusion (I/R). 2. Hypoxia-inducible factor-1α was upregulated with deferoxamine (150 mg/kg per day for 2 days). Rabbit cardiac myocytes were subjected to simulated ischaemia (15 min, 95% N(2)-5% CO2) and reperfusion (re-oxygenation) and compared with control myocytes. Cell contraction and calcium transients were measured at baseline and after forskolin (10(-7) and 10(-6) mol/L) or ouabain (10(-5) and 10(-4) mol/L). 3. Under control conditions, high-dose forskolin and ouabain increased percentage shortening by 20 and 18%, respectively. Deferoxamine-treated control myocytes responded similarly. In stunned myocytes, forskolin and ouabain did not significantly increase shortening (increases of 8% and 9%, respectively). Deferoxamine restored the effects of forskolin (+26%) and ouabain (+28%) in stunning. The results for maximum shortening and relaxation rates were similar. The increased calcium transients caused by forskolin and ouabain were also depressed in stunned myocytes, but were maintained by HIF-1 upregulation. 4. These results suggest that simulated I/R impaired the functional and calcium transient effects of positive inotropic agents. Upregulation of HIF-1 protects cardiac myocyte function after I/R by maintaining calcium release.

Postresuscitation myocardial dysfunction: correlated factors and prognostic implications

OBJECTIVE

To evaluate the clinical factors correlated with postresuscitation myocardial dysfunction and the prognostic implication such dysfunction may have.

DESIGN AND SETTING

Prospective observational study in a university medical center

PATIENTS

58 adult patients successfully resuscitated from nontraumatic out-of-hospital cardiac arrest over 2 years.

MEASUREMENTS AND RESULTS

Echocardiographic evaluation of the left ventricular systolic and diastolic functions was performed 6 h postresuscitation and was analyzed in correlation to the clinical features and resuscitation factors. Univariate analysis revealed left ventricular ejection fraction (LVEF) to be significantly lower in patients with hypertension, past history of myocardial infarction, resuscitation duration longer than 20 min, defibrillation, and use of more than 5 mg epinephrine. Isovolumic relaxation time (IVRT) was significantly longer in patients with noncardiac cause and initial rhythm of nonventricular fibrillation/tachycardia. Multiple regression analysis showed epinephrine dose and past history of myocardial infarction to be independent factors for LVEF, while the cause of cardiac arrest was independently associated with IVRT. For prognosis, 27 patients survived to hospital discharge. Both LVEF under 40% and IVRT 100 ms or longer were associated with poor survival outcomes. In Cox regression analysis IVRT 100 ms or longer served as an independent factor predicting poor survival prognosis.

CONCLUSIONS

Postresuscitation left ventricular dysfunction is correlated with a number of clinical factors, among which past history of myocardial infarction, epinephrine dose, and the cause of cardiac arrest play independent roles. Meanwhile, IVRT 100 ms or longer 6 h postresuscitation predicts poor survival outcomes and serves as a marker of poor prognosis.

beta 2-Adrenergic stimulation is involved in the contractile dysfunction of the stunned heart

Endogenous catecholamines released during myocardial ischemia have been considered both to aggravate cell injury and exacerbate arrhythmias and to exert a protective action on the post-ischemic contractile function. The present work was addressed to look for evidence to explain this controversy. The effects of cardiac catecholamine depletion and of alpha- and beta-adrenoceptor (AR) blockade on the post-ischemic contractile dysfunction, as well as its possible relationship with cardiac oxidative stress, were studied in isolated and perfused rat hearts submitted to 20 min of ischemia and 30 min of reperfusion (stunning). Catecholamine depletion improves the contractile recovery in the stunned heart. This mechanical effect was associated with decreased levels of lipid peroxidation. A similar enhancement of the contractile function during reperfusion was detected after the simultaneous blockade of alpha 1- and beta-ARs with prazosin plus propranolol. To ascertain which specific AR pathway was involved in the effects of catecholamines on the stunned heart, selective AR blockers, prazosin (alpha 1-blocker), atenolol (beta 1-blocker), ICI 118,551 (beta 2-blocker) and selective inhibitors of Gi-PI3K pathway (pertussis toxin and wortmannin) were alternatively combined. The results indicate that catecholamines released during ischemia exert a dual action on the contractile behavior of the stunned heart: a deleterious effect, related to the activation of the beta 2-AR-Gi-PI3K-pathway, which was counteracted by a beneficial effect, triggered by the stimulation of alpha 1-AR. Neither the depression nor the enhancement of the post-ischemic contractile recovery were related with the increase in ROS formation induced by endogenous catecholamines.

Troponin increases in the critically injured patient: mechanical trauma or physiologic stress?

BACKGROUND

Serum troponin (Tn) is a sensitive and specific marker of myocardial injury. Tn increase after injury is usually attributed to mechanical chest trauma, but this relationship remains unproven. We sought to examine the etiologic factors and prognostic significance of increased Tn levels in a widely screened trauma population.

METHODS

We reviewed all trauma intensive care unit (ICU) admissions over a 5-year period with serial Tn I (TnI) measurements as part of a screening protocol. TnI was categorized as normal (0-1.2 microg/L), intermediate (1.3-5 microg/L), or high (>5 microg/L), and mortality rates were compared between groups. Multivariate regression analysis was used to identify independent predictors of TnI increase and mortality.

RESULTS

There were 1,081 patients identified. An increased TnI was found in 29% of patients. Mortality significantly increased from 16% in the normal group to 33 and 44% in the intermediate and high TnI groups, respectively. Independent predictors of an increased TnI were admission base excess (p = 0.04), Injury Severity Score (ISS) (p < 0.001), and Acute Physiology and Chronic Health Evaluation score (p < 0.001). Chest Abbreviated Injury Scale score and the presence or absence of severe chest injury did not independently predict TnI increase (p = 0.5 and 0.83). Any increase of TnI (>1.2 microg/L) was a strong independent predictor of mortality (odds ratio, 2.1; 95% confidence interval, 1.4-3.1) after controlling for age, sex, mechanism, base excess, Glasgow Coma Scale score, and ISS. Beta-blocker use was associated with a 50% reduction in mortality among patients with an increased Tn (38 versus 16%; p < 0.01).

CONCLUSIONS

Increased serum TnI after trauma is related to the degree of overall injury and physiologic stress and not mechanical chest trauma. Intermediate and high TnI increases are associated with increased mortality, which may be improved by selective use of beta-blockade.

Cyclic GMP reduces myocardial stunning through non-cyclic GMP protein kinase mechanisms

We tested the hypothesis that myocardial stunning would be reduced by increased cyclic GMP and cGMP protein kinase activity. Hearts were instrumented in eight open-chest anesthetized dogs. The left anterior descending coronary artery (LAD) was occluded for 15 minutes followed by a 30-minute recovery and infusion of 8-Bromo-cGMP (0.1 and 1 microg/kg/min) during functional and metabolic data collection. Myocytes from circumflex and LAD regions were then used to obtain data at baseline, with 8-Br-cGMP (10(-7, -6, -5) M) and KT5823 10(-6) M, cGMP protein kinase inhibitor. The in vivo time delay of regional shortening increased significantly from 55 +/- 12 to 99 +/- 3 msec following stunning, but was reduced to 81 +/- 2 by 1 microg/kg/min 8-Br-cGMP. The % regional work during systole decreased during stunning (93 +/- 2 to 76 +/- 8%), but was restored by 8-Br-cGMP (91 +/- 7). Stunning lengthened the time of myocyte contraction and relaxation and reduced baseline shortening. 8-Br-cGMP reduced myocyte shortening in both regions. However, KT5823 only restored myocyte shortening in controls. These data indicated that regional myocardial stunning could be reduced by cyclic GMP but this appeared to be through non-cGMP protein kinase mechanisms.

Myocardial ischemia in intestinal postischemic shock: the effect of hypoxemic reperfusion

OBJECTIVE

The circulatory shock following intestinal ischemia-reperfusion injury has been attributed to hypovolemia. The purpose of the current study is to clarify the pathophysiology of this type of shock and to test the hypothesis that hypoxemic compared with normoxemic reperfusion improves hemodynamics.

DESIGN

Randomized animal study.

SETTING

Medical school laboratory.

SUBJECTS

Twenty-one pigs.

INTERVENTIONS

Pigs were subjected to 120 mins of intestinal ischemia by clamping the superior mesenteric artery. Upon declamping, the animals were randomized into two groups: a group that received hypoxemic reperfusion (HR group, n = 8) with a PaO2 = 30-35 and a control group reperfused with PaO2 = 100 mm Hg (control group, n = 13).

MEASUREMENTS AND MAIN RESULTS

Measurements included mean arterial pressure, cardiac index, pulmonary artery occlusion pressure, and requirements for fluids and epinephrine. Biopsies from the terminal ileal mucosa were taken for malondialdehyde measurements at baseline, at 120 mins of ischemia, and at 30 and 60 mins of reperfusion. A piece of left ventricle was obtained after 120 mins of reperfusion for histologic studies. Five of 13 animals of the control group died in intractable shock; no animal of the HR group died (p =.11). The decrease in the mean arterial pressure during reperfusion was more pronounced in the control group (p <.008) despite the larger doses of epinephrine administered, compared with the HR group (p <.02). During reperfusion, both groups exhibited a decrease in cardiac index; this was more pronounced in the control group (p =.0007). Pulmonary artery occlusion pressure increased during reperfusion in both groups and was more pronounced in the control group (p =.04 at 60 mins). Although mixed venous blood oxygen saturation of the control animals was higher at 30 mins of reperfusion (p =.005), it declined after 60 mins and became lower than that of HR animals at the end of reperfusion (p <.02). The myocardial histopathologic injury score was higher in the control group (2.0 +/- 0.69 and 3.4 +/- 0.89 for the HR and control groups, respectively; p <.03). The concentrations of intestinal mucosa malondialdehyde were significantly higher in the control group at 60 mins of reperfusion (p <.03).

CONCLUSIONS

Acute myocardial ischemia and left heart failure significantly contribute to the circulatory shock that follows intestinal ischemia/reperfusion injury and are attenuated by hypoxemic reperfusion.