A Randomized Porcine Study in Low Cardiac Output of Vasoactive and Inotropic Drug Effects on the Gastrointestinal Tract.

BACKGROUND: Splanchnic vasodilation by inodilators is an argument for their use in critical cardiac dysfunction. To isolate peripheral vasoactivity from inotropy, such drugs were investigated, and contrasted to vasopressors, in a fixed low cardiac output (CO) model resembling acute cardiac dysfunction effects on the gastrointestinal tract. We hypothesized that inodilators would vasodilate and preserve the aerobic metabolism in the splanchnic circulation in low CO. METHODS: In anesthetized pigs, CO was lowered to 60% of baseline by partial inferior caval vein balloon inflation. The animals were randomized to placebo (n = 8), levosimendan (24 µg kg-1 bolus, 0.2 µg kg-1 min-1, n = 7), milrinone (50 µg kg-1 bolus, 0.5 µg kg-1 min-1, n = 7), vasopressin (0.001, 0.002 and 0.006 U kg-1 min-1, 1 h each, n = 7) or norepinephrine (0.04, 0.12, and 0.36 µg kg-1 min-1, 1 h each, n = 7). Hemodynamic variables including mesenteric blood flow were collected. Systemic, mixed-venous, mesenteric-venous, and intraperitoneal metabolites were analyzed. RESULTS: Cardiac output was stable at 60% in all groups, which resulted in systemic hypotension, low superior mesenteric artery blood flow, lactic acidosis, and increased intraperitoneal concentrations of lactate. Levosimendan and milrinone did not change any circulatory variables, but levosimendan increased blood lactate concentrations. Vasopressin and norepinephrine increased systemic and mesenteric vascular resistances at the highest dose. Vasopressin increased mesenteric resistance more than systemic, and the intraperitoneal lactate concentration and lactate/pyruvate ratio. CONCLUSION: Splanchnic vasodilation by levosimendan and milrinone may be negligible in low CO, thus rejecting the hypothesis. High-dose vasopressors may have side effects in the splanchnic circulation.

Predictors of low exercise cardiac output in patients with severe pulmonic regurgitation.

BACKGROUND AND OBJECTIVES: Chronic pulmonic regurgitation (PR) following repair of congenital heart disease (CHD) impairs right ventricular function that impacts peak exercise cardiac index (pCI). We aimed to estimate in a non-invasive way pCI and peak oxygen consumption (pVO2) and to evaluate predictors of low pCI in patients with significant residual pulmonic regurgitation after CHD repair. METHOD: We included 82 patients (median age 19 years (range 10-54 years)) with residual pulmonic regurgitation fraction >40%. All underwent cardiac MRI and cardiopulmonary testing with measurement of pCI by thoracic impedancemetry. Low pCI was defined <7 L/min/m2. RESULTS: Low pCI was found in 18/82 patients. Peak indexed stroke volume (pSVi) tended to compensate chronotropic insufficiency only in patients with normal pCI (r=-0.31, p=0.01). Below 20 years of age, only 5/45 patients had low pCI but near-normal (≥6.5 L/min/m2). pVO2 (mL/kg/min) was correlated with pCI (r=0.58, p=0.0002) only in patients aged >20 years. Left ventricular stroke volume in MRI correlated with pSVi only in the group of patients with low pCI (r=0.54, p=0.02). No MRI measurements predicted low pCI. In multivariable analysis, only age predicted a low pCI (OR=1.082, 95% CI 1.035 to 1.131, p=0.001) with continuous increase of risk with age. CONCLUSIONS: In patients with severe PR, pVO2 is a partial reflection of pCI. Risk of low pCI increases with age. No resting MRI measurement predicts low haemodynamic response to exercise. Probably more suitable to detect ventricular dysfunction, pCI measurement could be an additional parameter to take into account when considering pulmonic valve replacement.

Implications of Altered Ketone Metabolism and Therapeutic Ketosis in Heart Failure.

Despite existing therapy, patients with heart failure (HF) experience substantial morbidity and mortality, highlighting the urgent need to identify novel pathophysiological mechanisms and therapies, as well. Traditional models for pharmacological intervention have targeted neurohormonal axes and hemodynamic disturbances in HF. However, several studies have now highlighted the potential for ketone metabolic modulation as a promising treatment paradigm. During the pathophysiological progression of HF, the failing heart reduces fatty acid and glucose oxidation, with associated increases in ketone metabolism. Recent studies indicate that enhanced myocardial ketone use is adaptive in HF, and limited data demonstrate beneficial effects of exogenous ketone therapy in studies of animal models and humans with HF. This review will summarize current evidence supporting a salutary role for ketones in HF including (1) normal myocardial ketone use, (2) alterations in ketone metabolism in the failing heart, (3) effects of therapeutic ketosis in animals and humans with HF, and (4) the potential significance of ketosis associated with sodium-glucose cotransporter 2 inhibitors. Although a number of important questions remain regarding the use of therapeutic ketosis and mechanism of action in HF, current evidence suggests potential benefit, in particular, in HF with reduced ejection fraction, with theoretical rationale for its use in HF with preserved ejection fraction. Although it is early in its study and development, therapeutic ketosis across the spectrum of HF holds significant promise.

Splanchnic Circulation and Intraabdominal Metabolism in Two Porcine Models of Low Cardiac Output.

The impact of acute cardiac dysfunction on the gastrointestinal tract was investigated in anesthetized and instrumented pigs by sequential reductions of cardiac output (CO). Using a cardiac tamponade (n = 6) or partial inferior caval vein balloon inflation (n = 6), CO was controllably reduced for 1 h each to 75% (CO75%), 50% (CO50%), and 35% (CO35%) of the baseline value. Cardiac output in controls (n = 6) was not manipulated and maintained. Mean arterial pressure, superior mesenteric arterial blood flow, and intestinal mucosal perfusion started to decrease at CO50% in the intervention groups. The decrease in superior mesenteric arterial blood flow was non-linear and exaggerated at CO35%. Systemic, venous mesenteric, and intraperitoneal lactate concentrations increased in the intervention groups from CO50%. Global and mesenteric oxygen uptake decreased at CO35%. In conclusion, gastrointestinal metabolism became increasingly anaerobic when CO was reduced by 50%. Anaerobic gastrointestinal metabolism in low CO can be detected using intraperitoneal microdialysis.

The Trend of ß3-Adrenergic Receptor in the Development of Septic Myocardial Depression: A Lipopolysaccharide-Induced Rat Septic Shock Model.

Septic shock with low cardiac output is very common in children. However, the mechanism underlying myocardial depression is unclear. The role of ß3-AR in the development of myocardial depression in sepsis is unknown. In the present study, we generated an adolescent rat model of hypodynamic septic shock induced by lipopolysaccharide (LPS). Neonatal cardiomyocytes were also treated with LPS to mimic myocardial depression in sepsis, which was confirmed via an in vivo left ventricular hemodynamic study, and measurements of contractility and the Ca2+ transient in isolated adolescent and neonatal cardiomyocytes. After 16 h of LPS treatment, cultured neonatal cardiomyocytes showed a diminished Ca2+ transient amplitude associated with an increase in the ß3-AR level. With the addition of a ß3-AR agonist, the Ca2+ transient in LPS-treated neonatal rat cardiomyocytes gradually decreased over time; such a change was absent in cells treated with nitric oxide synthase (NOS) inhibitors prior to treatment with a ß3-AR agonist. In adolescent rats with septic myocardial depression, cardiac function declined as indicated by decreased MAP, dP/dtmax, and dP/dtmix for 6 h after LPS injection; however, the ß3-AR level first increased 2 h after LPS treatment and then decreased 6 h after LPS treatment in the absence of exogenous catecholamines. The results indicate that, in vitro, at the cellular level ß3-AR may be involved in the development of myocardial depression (Ca2+ transient depression) in sepsis through NOS signaling pathways; however, in vivo, a complicated mechanism for modulating ß3-AR may exist.

Change in end-tidal carbon dioxide outperforms other surrogates for change in cardiac output during fluid challenge.

Background: During fluid challenge, volume expansion (VE)-induced increase in cardiac output (Δ VE CO) is seldom measured. Methods: In patients with shock undergoing strictly controlled mechanical ventilation and receiving VE, we assessed minimally invasive surrogates for Δ VE CO (by transthoracic echocardiography): fluid-induced increases in end-tidal carbon dioxide (Δ VE E'CO2 ); pulse (Δ VE PP), systolic (Δ VE SBP), and mean systemic blood pressure (Δ VE MBP); and femoral artery Doppler flow (Δ VE FemFlow). In the absence of arrhythmia, fluid-induced decrease in heart rate (Δ VE HR) and in pulse pressure respiratory variation (Δ VE PPV) were also evaluated. Areas under the receiver operating characteristic curves (AUC ROC s) reflect the ability to identify a response to VE (Δ VE CO ≥15%). Results: In 86 patients, Δ VE E'CO2 had an AUC ROC =0.82 [interquartile range 0.73-0.90], significantly higher than the AUC ROC for Δ VE PP, Δ VE SBP, Δ VE MBP, and Δ VE FemFlow (AUC ROC =0.61-0.65, all P <0.05). A value of Δ VE E'CO2 >1 mm Hg (>0.13 kPa) had good positive (5.0 [2.6-9.8]) and fair negative (0.29 [0.2-0.5]) likelihood ratios. The 16 patients with arrhythmia had similar relationships between Δ VE E'CO2 and Δ VE CO to patients with regular rhythm ( r 2 =0.23 in both subgroups). In 60 patients with no arrhythmia, Δ VE E'CO2 (AUC ROC =0.84 [0.72-0.92]) outperformed Δ VE HR (AUC ROC =0.52 [0.39-0.66], P <0.05) and tended to outperform Δ VE PPV (AUC ROC =0.73 [0.60-0.84], P =0.21). In the 45 patients with no arrhythmia and receiving ventilation with tidal volume <8 ml kg -1 , Δ VE E'CO2 performed better than Δ VE PPV, with AUC ROC =0.86 [0.72-0.95] vs 0.66 [0.49-0.80], P =0.02. Conclusions: Δ VE E'CO2 outperformed Δ VE PP, Δ VE SBP, Δ VE MBP, Δ VE FemFlow, and Δ VE HR and, during protective ventilation, arrhythmia, or both, it also outperformed Δ VE PPV. A value of Δ VE E'CO2 >1 mm Hg (>0.13 kPa) indicated a likely response to VE.

Meox2/Tcf15 heterodimers program the heart capillary endothelium for cardiac fatty acid uptake.

BACKGROUND: Microvascular endothelium in different organs is specialized to fulfill the particular needs of parenchymal cells. However, specific information about heart capillary endothelial cells (ECs) is lacking. METHODS AND RESULTS: Using microarray profiling on freshly isolated ECs from heart, brain, and liver, we revealed a genetic signature for microvascular heart ECs and identified Meox2/Tcf15 heterodimers as novel transcriptional determinants. This signature was largely shared with skeletal muscle and adipose tissue endothelium and was enriched in genes encoding fatty acid (FA) transport-related proteins. Using gain- and loss-of-function approaches, we showed that Meox2/Tcf15 mediate FA uptake in heart ECs, in part, by driving endothelial CD36 and lipoprotein lipase expression and facilitate FA transport across heart ECs. Combined Meox2 and Tcf15 haplodeficiency impaired FA uptake in heart ECs and reduced FA transfer to cardiomyocytes. In the long term, this combined haplodeficiency resulted in impaired cardiac contractility. CONCLUSIONS: Our findings highlight a regulatory role for ECs in FA transfer to the heart parenchyma and unveil 2 of its intrinsic regulators. Our insights could be used to develop new strategies based on endothelial Meox2/Tcf15 targeting to modulate FA transfer to the heart and remedy cardiac dysfunction resulting from altered energy substrate usage.

Evaluation and optimisation of current milrinone prescribing for the treatment and prevention of low cardiac output syndrome in paediatric patients after open heart surgery using a physiology-based pharmacokinetic drug-disease model.

BACKGROUND AND OBJECTIVE: Milrinone is the drug of choice for the treatment and prevention of low cardiac output syndrome (LCOS) in paediatric patients after open heart surgery across Europe. Discrepancies, however, among prescribing guidance, clinical studies and practice pattern require clarification to ensure safe and effective prescribing. However, the clearance prediction equations derived from classical pharmacokinetic modelling provide limited support as they have recently failed a clinical practice evaluation. Therefore, the objective of this study was to evaluate current milrinone dosing using physiology-based pharmacokinetic (PBPK) modelling and simulation to complement the existing pharmacokinetic knowledge and propose optimised dosing regimens as a basis for improving the standard of care for paediatric patients. METHODS: A PBPK drug-disease model using a population approach was developed in three steps from healthy young adults to adult patients and paediatric patients with and without LCOS after open heart surgery. Pre- and postoperative organ function values from adult and paediatric patients were collected from literature and integrated into a disease model as factorial changes from the reference values in healthy adults aged 20-40 years. The disease model was combined with the PBPK drug model and evaluated against existing pharmacokinetic data. Model robustness was assessed by parametric sensitivity analysis. In the next step, virtual patient populations were created, each with 1,000 subjects reflecting the average adult and paediatric patient characteristics with regard to age, sex, bodyweight and height. They were integrated into the PBPK drug-disease model to evaluate the effectiveness of current milrinone dosing in achieving the therapeutic target range of 100-300 ng/mL milrinone in plasma. Optimised dosing regimens were subsequently developed. RESULTS: The pharmacokinetics of milrinone in healthy young adults as well as adult and paediatric patients were accurately described with an average fold error of 1.1 ± 0.1 (mean ± standard deviation) and mean relative deviation of 1.5 ± 0.3 as measures of bias and precision, respectively. Normalised maximum sensitivity coefficients for model input parameters ranged from -0.84 to 0.71, which indicated model robustness. The evaluation of milrinone dosing across different paediatric age groups showed a non-linear age dependence of total plasma clearance and exposure differences of a factor 1.4 between patients with and without LCOS for a fixed dosing regimen. None of the currently used dosing regimens for milrinone achieved the therapeutic target range across all paediatric age groups and adult patients, so optimised dosing regimens were developed that considered the age-dependent and pathophysiological differences. CONCLUSION: The PBPK drug-disease model for milrinone in paediatric patients with and without LCOS after open heart surgery highlights that age, disease and surgery differently impact the pharmacokinetics of milrinone, and that current milrinone dosing for LCOS is suboptimal to maintain the therapeutic target range across the entire paediatric age range. Thus, optimised dosing strategies are proposed to ensure safe and effective prescribing.

Mechanical dyssynchrony precedes QRS widening in ATP-sensitive K⁺ channel-deficient dilated cardiomyopathy.

BACKGROUND: Contractile discordance exacerbates cardiac dysfunction, aggravating heart failure outcome. Dissecting the genesis of mechanical dyssynchrony would enable an early diagnosis before advanced disease. METHODS AND RESULTS: High-resolution speckle-tracking echocardiography was applied in a knockout murine surrogate of adult-onset human cardiomyopathy caused by mutations in cardioprotective ATP-sensitive K(+) (K(ATP)) channels. Preceding the established criteria of cardiac dyssynchrony, multiparametric speckle-based strain resolved nascent erosion of dysfunctional regions within cardiomyopathic ventricles of the K(ATP) channel-null mutant exposed to hemodynamic stress. Not observed in wild-type counterparts, intraventricular disparity in wall motion, validated by the degree, direction, and delay of myocardial speckle patterns, unmasked the disease substrate from asymptomatic to overt heart failure. Mechanical dyssynchrony preceded widening of the QRS complex and exercise intolerance and progressed into global myocardial discoordination and decompensated cardiac pump function, precipitating a low output syndrome. CONCLUSIONS: The present study, with the use of high-resolution imaging, prospectively resolved the origin and extent of intraventricular motion disparity in a K(ATP) channel-knockout model of dilated cardiomyopathy. Mechanical dyssynchrony established as an early marker of cardiomyopathic disease offers novel insight into the pathodynamics of dyssynchronous heart failure.

Decrease of total antioxidative capacity in developed low cardiac output syndrome.

BACKGROUND: It has been known that cardiac surgery induces an oxidative stress. The persistent oxidative stress during reperfusion may lead to depressed myocardial function resulting in low cardiac output syndrome (LCOS) necessitating inotropic or intra-aortic balloon counterpulsation support. Total antioxidant capacity (TAC) is a measurement of oxidative stress in tissues. The purpose of this study was to examine the TAC differences during coronary artery bypass graft (CABG) operation in patients who have developed LCOS and who have not. MATERIAL AND METHODS: Seventy-nine patients were enrolled in the study. Central venous blood samples were obtained immediately before surgery, during operation, and at the end of surgery to assess TAC. Clinical data regarding patient demographics and operative outcomes were prospectively collected and entered into our clinical database. RESULTS: LCOS developed in 8 patients (10.12%). The TAC has decreased sharply in the LCOS patients compared with those who did not develop LCOS (P < 0.001) during operation. In addition, the receiver operating characteristic (ROC) area was 0.879. CONCLUSION: TAC has decreased during operation in a significant proportion of patients undergoing isolated CABG, and this is more prominent and serious and might be an independent variable in patients who have developed LCOS. This may be related to intraoperative misadventure or inadequate myocardial antioxidative protection. Routine measurement of the TAC during operation may provide information for assessment of the LCOS development.

[Clinical practice guide for the management of low cardiac output syndrome in the postoperative period of heart surgery]. / Guías de práctica clínica para el manejo del síndrome de bajo gasto cardíaco en el postoperatorio de cirugía cardíaca.

The low cardiac output syndrome is a potential complication in cardiac surgery patients and associated with increased morbidity and mortality. This guide is to provide recommendations for the management of these patients, immediately after surgery, admitted to the ICU. The recommendations are grouped into different sections, trying to answer from the most basic concepts such as the definition to the different sections of basic and advanced monitoring and ending with the complex management of this syndrome. We propose an algorithm for initial management, as well as two other for ventricular failure (predominantly left or right). Most of the recommendations are based on expert consensus because of the lack of randomized trials of adequate design and sample size in this group of patients. The quality of evidence and strength of the recommendations were made following the GRADE methodology. The guide is presented as a list of recommendations (and level of evidence for each recommendation) for each question on the selected topic. Then for each question, we proceed to the justification of the recommendations.

Combining SERCA2a activation and Na-K ATPase inhibition: a promising new approach to managing acute heart failure syndromes with low cardiac output.

Heart failure (HF) patients are a medically complex and heterogeneous population with multiple cardiac and non-cardiac comorbidities. Although there are a multitude of etiologic substrates and initiating and amplifying mechanisms contributing to disease progression, these pathophysiologic processes ultimately all lead to impaired myocardial function. The myocardium must both pump oxygenated, nutrient-rich blood throughout the body (systolic function) and receive deoxygenated, nutrient-poor blood returning from the periphery (diastolic function). At the molecular level, it is well-established that Ca2+ plays a central role in excitation-contracting coupling with action potentials stimulating the opening of L-type Ca2+ in the plasma membrane and ryanodine receptor 2 (RyR2) in the sarcoplasmic reticulum (SR) membrane during systole and the Na-Ca2+ exchanger and SERCA2a returning Ca2+ to the extracellular space and SR, respectively, during diastole. However, there is increasing recognition that impaired Ca2+ cycling may contribute to myocardial dysfunction. Preclinical studies and clinical trials indicate that combining SERCA2a activation and Na-K ATPase inhibition may increase contractility (inotropy) and facilitate active relaxation (lusitropy), improving both systolic and diastolic functions. Istaroxime, a novel luso-inotrope that activates SERCA2a and inhibits the Na-K ATPase, is currently in phase II clinical development and has been shown to improve systolic and diastolic functions and central hemodynamics, increase systolic but not diastolic blood pressure, and decrease substantially heart rate. Irrespective of its clinical utility, the development of istaroxime has evolved our understanding of the clinical importance of inhibiting the Na-K ATPase in order to obtain a clinically significant effect from SERCA2a activation in the setting of myocardial failure.

Glucose-insulin-potassium reduces the incidence of low cardiac output episodes after aortic valve replacement for aortic stenosis in patients with left ventricular hypertrophy: results from the Hypertrophy, Insulin, Glucose, and Electrolytes (HINGE) trial.

BACKGROUND: Patients undergoing aortic valve replacement for critical aortic stenosis often have significant left ventricular hypertrophy. Left ventricular hypertrophy has been identified as an independent predictor of poor outcome after aortic valve replacement as a result of a combination of maladaptive myocardial changes and inadequate myocardial protection at the time of surgery. Glucose-insulin-potassium (GIK) is a potentially useful adjunct to myocardial protection. This study was designed to evaluate the effects of GIK infusion in patients undergoing aortic valve replacement surgery. METHODS AND RESULTS: Patients undergoing aortic valve replacement for aortic stenosis with evidence of left ventricular hypertrophy were randomly assigned to GIK or placebo. The trial was double-blind and conducted at a single center. The primary outcome was the incidence of low cardiac output syndrome. Left ventricular biopsies were analyzed to assess changes in 5' adenosine monophosphate-activated protein kinase (AMPK), Akt phosphorylation, and protein O-linked ß-N-acetylglucosamination (O-GlcNAcylation). Over a 4-year period, 217 patients were randomized (107 control, 110 GIK). GIK treatment was associated with a significant reduction in the incidence of low cardiac output state (odds ratio, 0.22; 95% confidence interval, 0.10 to 0.47; P=0.0001) and a significant reduction in inotrope use 6 to 12 hours postoperatively (odds ratio, 0.30; 95% confidence interval, 0.15 to 0.60; P=0.0007). These changes were associated with a substantial increase in AMPK and Akt phosphorylation and a significant increase in the O-GlcNAcylation of selected protein bands. CONCLUSIONS: Perioperative treatment with GIK was associated with a significant reduction in the incidence of low cardiac output state and the need for inotropic support. This benefit was associated with increased signaling protein phosphorylation and O-GlcNAcylation. Multicenter studies and late follow-up will determine whether routine use of GIK improves patient prognosis.

Acute effects of levosimendan on cerebral and systemic perfusion and oxygenation in newborns: an observational study.

BACKGROUND: Cardiovascular drugs play a major role in the pre- and postoperative care in neonates with congenital heart disease. Management strategies aim to optimise contractility, improve diastolic function, maintain adequate preload, and reduce afterload. Levosimendan, a novel inodilator agent, enhances myocardial contractility and causes peripheral and coronary vasodilation. OBJECTIVES: A systematic approach was used to evaluate the acute haemodynamic effects of levosimendan in critically ill infants with low cardiac output syndrome (LCOS). METHODS: Infants received a continuous infusion of levosimendan, at a dose increased stepwise (range 0.1-0.2 µg/kg/min), during 48 h. Two near-infrared units were used to assess cerebral (frontal-parietal, c) and peripheral (thigh, p) perfusion and oxygenation. The changes in cerebral blood volume (ΔCBV), cerebral (cΔHbD) and peripheral (pΔHbD) intravascular oxygenation and the cerebral (cTOI) and peripheral (pTOI) tissue oxygenation index that followed levosimendan administration were continuously monitored. Blood pressure, heart rate, and temperature were continuously recorded. In addition, baseline and end-of-study pH, blood gases, lactate and haematocrit were determined. RESULTS: Seven doses of levosimendan were investigated. The mean study time was 13.3 (7-19) h. Levosimendan produced an increase in cΔHbD (p < 0.05) and pΔHbD (NS) and a decrease in heart rate (p < 0.001) and lactate (p < 0.05). Trends showed an increase in mean blood pressure (NS). These results were independent of the effect of time. Mixed linear model analysis identified blood pressure changes and levosimendan as factors independently associated with cΔHbD. CONCLUSIONS: Levosimendan improves cerebral and systemic perfusion and oxygenation in critically ill infants suffering from LCOS.

Comparison of the effects of dobutamine and milrinone on hemodynamic parameters and oxygen supply in patients undergoing cardiac surgery with low cardiac output after anesthetic induction.

BACKGROUND AND OBJECTIVES: Several classes of inotropic drugs with different hemodynamic effects are used in the treatment of low cardiac output in patients with diastolic dysfunction undergoing cardiac surgery. The objective of the present study was to compare the effects of dobutamine and milrinone on hemodynamic parameters and oxygen supply in this population of patients. METHODS: After approval by the Ethics Committee of the institution and signing of the informed consent, 20 patients undergoing cardiac surgery with cardiac index < 2 L*min(-1)*m(2) after anesthetic induction and placement of a pulmonary artery catheter were randomly divided to receive dobutamine 5 microg*kg(-1). min(-1) (n = 10), or milrinone 0.5 microg*kg(-1)*min(-1) (n = 10). Hemodynamic parameters were measured after anesthetic induction and after 30 and 60 minutes, and arterial and venous blood gases were measured at baseline and 60 minutes. Non-paired Student t test or two-way ANOVA for repeated measurements was used to compare the data. RESULTS: Dobutamine and milrinone promoted significant increases in cardiac index (56% and 47%) and oxygen supply (53% and 45%), and reduction in systemic (33% and 36%) and pulmonary (34% and 19%) vascular resistance, respectively. However, statistically significant differences were not observed between both drugs. CONCLUSIONS: Both inotropic drugs were similarly effective in restoring tissue blood flow and oxygen supply to adequate levels in patients with low cardiac output undergoing cardiac surgery.

[Angiotensin II receptor blocker add-on therapy for low cardiac output in decompensated heart failure].

BACKGROUND: During heart failure (HF) decompensation, an intense activation of the renin-angiotensin-aldosterone system occurs; however, the use of angiotensin-converting enzyme inhibitor (ACEI) cannot block it completely. Otherwise, the addition of angiotensin II receptor blocker (ARB) can be useful when the inotropic dependence occurs. We evaluated the efficacy of the ARB-ACEI association on dobutamine withdrawal in advanced decompensated HF. OBJECTIVE: To assess the efficacy of association angiotensin receptor blocker--angiotensin converting enzyme inhibitor to withdraw the intravenous inotropic support in decompensated severe heart failure. METHODS: In a case-control study (N = 24), we selected patients admitted at the hospital due to HF that had been using dobutamine for more than 15 days, with one or more unsuccessful drug withdrawal attempts; optimized dose of ACEI and ejection fraction (EF) < 0.45. Then, the patients additionally received ARB (n=12) or not (control, n=12). The outcome was the successful dobutamine withdrawal, evaluated by logistic regression, with a p < 0.05. RESULTS: The EF was 0.25 and the age was 53 years, with a dobutamine dose of 10.7 microg/kg x min. The successful drug withdrawal was observed in 8 patients from the ARB group (67.7%) and in 2 patients from the control group (16.7%). The odds ratio (OR) was 10.0 (95%CI: 1.4 to 69.3; p = 0.02). The worsening in renal function was similar (ARB group: 42% vs. control group: 67%; p=0.129). CONCLUSION: In this pilot study, the ARB-ACEI association was associated with successful dobutamine withdrawal in advanced decompensated heart failure. The worsening in renal function was similar in both groups. Further studies are necessary to clarify the issue.

Adição de Bloqueador do receptor de angiotensina II na insuficiência cardíaca descompensada / Adición de bloqueante del receptor de angiotensina II en la insuficiencia cardiaca descompensada / Angiotensin II receptor blocker add-on therapy for low cardiac output in decompensated heart failure

FUNDAMENTO: Durante a descompensação da insuficiência cardíaca, ocorre uma intensa ativação do sistema renina-angiotensina-aldosterona, entretanto, o uso de inibidor da enzima de conversão de angiotensina (IECA) não pode bloqueá-lo completamente. De outro modo, a adição de bloqueador do receptor de angiotensina II (BRA) pode ser útil quando ocorre a dependência de inotrópico. Avaliamos a eficiência da associação BRA-IECA para retirada da dobutamina na insuficiência cardíaca avançada e descompensada. OBJETIVO: Avaliar a eficácia da associação de bloqueador do receptor AT1 de angiotensina II ao inibidor de enzima de conversão, para a retirada da dobutamina em pacientes com dependência de suporte inotrópico decorrente da descompensação aguda da insuficiência cardíaca crônica. MÉTODOS: Em um estudo caso-controle (N = 24), selecionamos pacientes internados por descompensação da insuficiência cardíaca e com uso por mais de 15 dias de dobutamina, ou uma ou mais tentativas sem sucesso de retirada; dose otimizada de IECA; e FEVE < 0,45. Os pacientes então receberam adicionalmente BRA (n = 12) ou não (controle, n = 12). O desfecho foi o sucesso na retirada da dobutamina, avaliado pela regressão logística, com p < 0,05. RESULTADOS: A fração de ejeção foi de 0,25, e a idade de 53 anos, com dose de dobutamina de 10,7 μg/kg.min. O sucesso na retirada de dobutamina ocorreu em oito pacientes do grupo BRA (67,7 por cento), e em dois no grupo controle (16,7 por cento). A "odds ratio" foi de 10,0 (intervalo de confiança de 95 por cento:1,4 a 69,3; p = 0,02). A piora da função renal foi semelhante (grupo BRA: 42 por cento vs. grupo controle: 67 por cento, p = 0,129). CONCLUSÃO: Neste estudo piloto, a associação BRA-IECA foi relacionada ao sucesso na retirada da dobutamina, na insuficiência cardíaca avançada descompesada. A piora da função renal foi semelhante em ambos os grupos. Estudos adicionais são necessários para esclarecer o assunto.

BACKGROUND: During heart failure (HF) decompensation, an intense activation of the renin-angiotensin-aldosterone system occurs; however, the use of angiotensin-converting enzyme inhibitor (ACEI) cannot block it completely. Otherwise, the addition of angiotensin II receptor blocker (ARB) can be useful when the inotropic dependence occurs. We evaluated the efficacy of the ARB-ACEI association on dobutamine withdrawal in advanced decompensated HF. OBJECTIVE: To assess the efficacy of association angiotensin receptor blocker - angiotensin converting enzyme inhibitor to withdraw the intravenous inotropic support in decompensated severe heart failure. METHODS: In a case-control study (N = 24), we selected patients admitted at the hospital due to HF that had been using dobutamine for more than 15 days, with one or more unsuccessful drug withdrawal attempts; optimized dose of ACEI and ejection fraction (EF) < 0.45. Then, the patients additionally received ARB (n=12) or not (control, n=12). The outcome was the successful dobutamine withdrawal, evaluated by logistic regression, with a p < 0.05. RESULTS: The EF was 0.25 and the age was 53 years, with a dobutamine dose of 10.7 μg/kg.min. The successful drug withdrawal was observed in 8 patients from the ARB group (67.7 percent) and in 2 patients from the control group (16.7 percent). The odds ratio (OR) was 10.0 (95 percentCI: 1.4 to 69.3; p = 0.02). The worsening in renal function was similar (ARB group: 42 percent vs. control group: 67 percent; p=0.129). CONCLUSION: In this pilot study, the ARB-ACEI association was associated with successful dobutamine withdrawal in advanced decompensated heart failure. The worsening in renal function was similar in both groups. Further studies are necessary to clarify the issue.

FUNDAMENTO: Durante la descompensación de la insuficiencia cardiaca, ocurre una intensa activación del sistema renina-angiotensina-aldosterona, sin embargo, el empleo de inhibidor de la enzima de conversión de angiotensina (IECA) no puede bloquearlo completamente. De otro modo, la adición de bloqueante del receptor de angiotensina II (BRA) puede ser útil cuando ocurre la dependencia de inotrópico. Evaluamos la eficiencia de la asociación BRA-IECA para retirada de la dobutamina en la insuficiencia cardiaca avanzada y descompensada. OBJETIVO: Evaluar la eficacia de la asociación de bloqueante del receptor AT1 de angiotensina II al inhibidor de enzima de conversión, para la retirada de la dobutamina en pacientes con dependencia de soporte inotrópico que trascurre de la descompensación aguda de la insuficiencia cardiaca crónica. MÉTODOS: En un estudio caso-control (N = 24), seleccionamos a pacientes internados por descompensación de la insuficiencia cardiaca y con empleo por más de 15 días de dobutamina, o una o más intentos sin éxito de retirada; dosis optimizada de IECA; y FEVI < 0,45. Así que los pacientes recibieron adicionalmente BRA (n = 12) o no (control, n = 12). El desenlace fue el éxito en la retirada de la dobutamina, evaluado por la regresión logística, con p < 0,05. RESULTADOS: La fracción de eyección fue de 0,25, y la edad de 53 años, con dosis de dobutamina de 10,7 μg/kg.min. El éxito en la retirada de dobutamina ocurrió en ocho pacientes del grupo BRA (67,7 por ciento), y en dos en el grupo control (16,7 por ciento). La "odds ratio" fue de 10,0 (intervalo de confianza de 95 por ciento:1,4 a 69,3; p = 0,02). El empeoramiento de la función renal se halló similar (grupo BRA: 42 por ciento vs grupo control: 67 por ciento, p = 0,129). CONCLUSIÓN: En este estudio piloto, la asociación BRA-IECA se relacionó al éxito en la retirada de la dobutamina, en la insuficiencia cardiaca avanzada descompensada. El empeoramiento de la función ...

[Optimization of energy metabolism in patients with chronic heart failure].

Nowadays particular interest of clinicians is attracted by metabolic therapy of patients with chronic heart failure (CHF). The objective of this study was to investigate the influence of complex therapy with addition of Vasonat on the dynamics of remodeling indexes of left ventricle and functional class of CHF on classification of NYHA. It has been shown that application of metabolic modulator Vasonat in addition to conventional therapy of CHF facilitated the clinical improvement and significant decline of functional class. Vasonat use resulted in the meaningful improvement of the contractive function of myocardium and increase of tolerance to the physical exercise. Moreover, high efficiency of Vasonat has been demonstrated in the control of the syndrome of oxidizing stress, by decrease in intensity of free-radical processes and activation of the antioxidant defense system.