Metformin prevents ischaemic ventricular fibrillation in metabolically normal pigs.

Aims/hypothesis: Metformin is the drug most often used to treat type 2 diabetes. Evidence suggests that metformin may reduce mortality of individuals with type 2 diabetes, but the mechanism of such an effect is unknown and outcomes of metformin treatment in people without diabetes have not been determined. If metformin favourably affected mortality of non-diabetic individuals, it might have even broader therapeutic utility.

Arterial insulin resistance in Yucatan micropigs with diet-induced obesity and metabolic syndrome.

Aim: Metabolic syndrome affects a large proportion of the population and increases cardiovascular disease risk. Because metabolic syndrome often co-exists clinically with atherosclerosis, it is difficult to distinguish the respective contributions of the components to vascular abnormalities. Accordingly, we utilized a porcine dietary model of metabolic syndrome without atherosclerosis to investigate early abnormalities of vascular function and signaling.

Impaired contractile recovery after low-flow myocardial ischemia in a porcine model of metabolic syndrome.

Clinical metabolic syndrome conveys a poor prognosis in patients with acute coronary syndrome, not fully accounted for by the extent of coronary atherosclerosis. To explain this observation, we determined whether postischemic myocardial contractile and metabolic function are impaired in a porcine dietary model of metabolic syndrome without atherosclerosis. Micropigs (n = 28) were assigned to a control diet (low fat, no added sugars) or an intervention diet (high saturated fat and simple sugars, no added cholesterol) for 7 mo.

Right heart failure in the intensive care unit.

Purpose Of Review: This review summarizes the approach to and recent developments in the evaluation and treatment of acute right heart failure in the ICU. Right heart failure, defined as failure of the right ventricle to provide sufficient blood flow through the pulmonary circulation at normal central venous pressure, is a common problem caused by a combination of increased right-ventricular afterload and right-ventricular contractile dysfunction.

Recent Findings: Management of acute right heart failure continues to be challenging because of insufficient understanding of its pathophysiology, a lack of guidelines, and few available tools.

PPAR-γ as a therapeutic target in cardiovascular disease: evidence and uncertainty.

Peroxisome proliferator-activated receptor γ (PPAR-γ) is a key regulator of fatty acid metabolism, promoting its storage in adipose tissue and reducing circulating concentrations of free fatty acids. Activation of PPAR-γ has favorable effects on measures of adipocyte function, insulin sensitivity, lipoprotein metabolism, and vascular structure and function. Despite these effects, clinical trials of thiazolidinedione PPAR-γ activators have not provided conclusive evidence that they reduce cardiovascular morbidity and mortality.

Calpain inhibition preserves talin and attenuates right heart failure in acute pulmonary hypertension.

Right heart failure from right ventricular (RV) pressure overload is a major cause of morbidity and mortality, but its mechanism is incompletely understood. We tested the hypothesis that right heart failure during 4 hours of RV pressure overload is associated with alterations of the focal adhesion protein talin, and that the inhibition of calpain attenuates RV dysfunction and preserves RV talin. Anesthetized open-chest pigs treated with the calpain inhibitor MDL-28170 (n = 20) or inactive vehicle (n = 23) underwent 4 hours of RV pressure overload by pulmonary artery constriction (initial RV systolic pressure, 64 ± 1 and 66 ± 1 mm Hg in MDL-28170 and vehicle-treated pigs, respectively).

Thiazolidinedione drugs promote onset, alter characteristics, and increase mortality of ischemic ventricular fibrillation in pigs.

Purpose: Despite favorable metabolic and vascular effects, thiazolidinedione (TZD) drugs have not convincingly reduced cardiovascular mortality in clinical trials, raising the possibility of countervailing, off-target effects. We previously showed that TZDs block cardiac ATP-sensitive potassium (K(ATP)) channels in pigs. In this study, we investigated whether TZDs affect onset, spectral characteristics, and mortality of ischemic ventricular fibrillation (VF) and whether such effects are recapitulated by a non-selective K(ATP) blocker (glyburide) or a mitochondrial K(ATP) blocker (5-hydroxydecanoate).

Evaluation of right ventricular function.

Right ventricular (RV) function is a powerful prognostic factor in congestive heart failure and pulmonary hypertension, but assessing RV function is a challenge because of the right ventricle's complex geometry, its extreme sensitivity to loading conditions, and a limited understanding of underlying mechanisms of right heart failure. At present, a single widely accepted and generally applicable index of RV function is not available. Current approaches to assessment of RV function include physical examination, catheterization, conventional contrast and radionuclide angiography, nuclear perfusion scintigraphy, cardiac CT, MRI, echocardiography, and positron emission tomography.

The right ventricle and pulmonary circulation: basic concepts.

The primary purpose of the right ventricle and pulmonary circulation is gas exchange. Because gas exchange occurs in thin, highly permeable alveolar membranes, pulmonary pressure must remain low to avoid pulmonary edema; because the right ventricle and the lungs are in series with the left ventricle and the systemic circulation, the entire cardiac output must pass through the lungs. This low pressure, high volume system, makes dramatically different demands on the right ventricle compared with the demands made on the left ventricle by the systemic circulation.

Pathophysiology of right ventricular failure.

Right ventricular failure may be defined as the inability of the right ventricle of the heart to provide adequate blood flow through the pulmonary circulation at a normal central venous pressure. Critical care specialists encounter right ventricular failure routinely in their practice, but until recently right ventricular failure as a primary clinical entity received scant consideration. Indeed, there is still not a single published practice guideline focused on right ventricular failure.

Calpain inhibition attenuates right ventricular contractile dysfunction after acute pressure overload.

Right ventricular contractile failure from acute RV pressure overload is an important cause of morbidity and mortality, but the mechanism of RV failure in this setting is incompletely defined. We hypothesized that RV dysfunction from acute RV pressure overload is, in part, due to activation of calpain, and that calpain inhibition would therefore attenuate RV dysfunction. Anesthetized, open chest pigs were treated with the calpain inhibitor MDL-28170 or with inactive vehicle, and then subjected to acute RV pressure overload for 90 min.