Circulating surfactant protein-B levels increase acutely in response to exercise-induced left ventricular dysfunction.

1. As a result of its enormous surface area and necessary thinness for gas exchange, the alveolocapillary barrier is vulnerable to mechanical disruption from raised pulmonary microvascular pressure (Pmv). 2.

An international perspective on heart failure and left ventricular systolic dysfunction complicating myocardial infarction: the VALIANT registry.

Aims: We analysed the contemporary incidence, outcomes, and predictors of heart failure (HF) and/or left ventricular systolic dysfunction (LVSD) before discharge in patients with acute myocardial infarction (MI). The baseline presence of HF or LVSD, or its development during hospitalisation, increases short- and long-term risk after MI, yet its incidence, predictors, and outcomes have not been well described in a large, international, general MI population.

Methods And Results: The VALIANT registry included 5573 consecutive MI patients at 84 hospitals in nine countries from 1999 to 2001.

Prolonged alveolocapillary barrier damage after acute cardiogenic pulmonary edema.

Objectives: To determine whether acute cardiogenic pulmonary edema is associated with damage to the alveolocapillary barrier, as evidenced by increased leakage of surfactant specific proteins into the circulation, to document the duration of alveolocapillary barrier damage in this setting, and to explore the role of pulmonary parenchymal inflammation by determining if circulating tumor necrosis factor-alpha is increased after acute cardiogenic pulmonary edema.

Design: Prospective, observational study.

Setting: Critical care, cardiac intensive care, and cardiology wards of a tertiary-care university teaching hospital.

Infarct-induced chronic heart failure increases bidirectional protein movement across the alveolocapillary barrier.

Chronic heart failure (CHF) is associated with adaptive structural changes at the alveolocapillary barrier that may be associated with altered protein permeability. Bidirectional protein movement across the barrier was studied in anesthetized rats with infarct-induced CHF by following (125)I-labeled albumin ((125)I-albumin) flux into the alveoli and the leakage of surfactant protein (SP)-B from the alveoli into the circulation. Three groups were studied: controls [0% left ventricular (LV) infarction], moderate infarct (25-45% LV infarction), and large infarct (>46% LV infarction).