Plasma Levels of Soluble CD146 Reflect the Severity of Pulmonary Congestion Better Than Brain Natriuretic Peptide in Acute Coronary Syndrome

Acute heart failure is a fatal syndrome. Emergency physicians, cardiologists, intensivists, nurses and other health care providers have to cooperate to provide optimal benefit. However, many treatment decisions are opinion-based and few are evidenced-based. This consensus paper provides guidance to practicing physicians and nurses to manage acute heart failure in the pre-hospital and hospital setting. Criteria of hospitalization and of discharge are described. Gaps in knowledge and perspectives in the management of acute heart failure are also detailed. This consensus paper on acute heart failure might help enable contiguous practice.

The aim of this study was to determine the effect of transient myocardial ischemia on circulating natriuretic peptide levels. Natriuretic peptides are released by the heart in response to wall stress. We hypothesized that transient myocardial ischemia would cause acute changes in circulating natriuretic peptide levels. B-type natriuretic peptide (BNP), N-terminal fragment of BNP pro-hormone (NT-pro-BNP), and N-terminal fragment of atrial natriuretic peptide pro-hormone (NT-pro-ANP) levels were measured in 112 patients before, immediately after, and 4 h after exercise testing with nuclear perfusion imaging. Baseline levels of BNP were associated with the subsequent severity of provoked ischemia, with median levels of 43, 62, and 101 pg/ml in patients with none, mild-to-moderate, and severe inducible ischemia, respectively (p = 0.03). Immediately after exercise, the median increase in BNP was 14.2 pg/ml in patients with mild-to-moderate ischemia (p = 0.0005) and 23.7 pg/ml in those with severe ischemia (p = 0.017). In contrast, BNP levels only rose by 2.3 pg/ml in those who did not develop ischemia (p = 0.31). A similar relationship was seen between baseline NT-pro-BNP levels and inducible ischemia, but the changes in response to ischemia were less pronounced. NT-pro-ANP levels rose with exercise in both ischemic and non-ischemic patients. When added to traditional clinical predictors of ischemia, a post-stress test BNP >or=80 pg/ml remained a strong and independent predictor of inducible myocardial ischemia (odds ratio 3.0, p = 0.025). Transient myocardial ischemia was associated with an immediate rise in circulating BNP levels, and the magnitude of rise was proportional to the severity of ischemia. These findings demonstrate an important link between the severity of an acute ischemic insult and the circulating levels of BNP.

Acute heart failure syndrome (AHFS) is a major public health problem. It is defined as gradual or rapid change in heart failure (HF) signs and symptoms, which often results in an unplanned hospitalization and a need for urgent therapy. Many evidence-based pharmacologic, device, and surgical treatment for HF are available or under development. Despite these new treatments and improvement in survival, hospitalizations in HF have steadily increased over the last 30 years, and the post-discharge prognosis of patients hospitalized with AHFS remains poor (Gheorghiade et al. Circulation 112:3958-3968, 2005; Fonarow et al. Rev Cardiovasc Med 4:S21-30, 2003). Most hospitalizations for AHFS are related to "congestion" rather than to low cardiac output. The definition, identification, quantification, and monitoring of congestion are therefore essential in AHFS. The purpose of this article is: (1) to characterize the different types of hemodynamic, clinical, and pulmonary congestion in AHFS; (2) to focus on the different possible ways to assess pulmonary congestion (probably the most important, and up to now the most diagnostically elusive of the three types of congestions); (3) to propose new possible ways to implement objective and user-friendly measures of pulmonary congestion in clinical and scientific decision-making in AHFS in the near future.