Novel Biomarkers in Heart Failure: New Insight in Pathophysiology and Clinical Perspective

Heart failure (HF) is a complex clinical syndrome with a huge social burden in terms of cost, morbidity, and mortality. Brain natriuretic peptide (BNP) appears to be the gold standard in supporting the daily clinical management of patients with HF. Novel biomarkers may supplement BNP to improve the understanding of this complex disease process and, possibly, to personalize care for the different phenotypes, in order to ameliorate prognosis. In this review, we will examine some of the most promising novel biomarkers in HF. Inflammation plays a pivotal role in the genesis and progression of HF and, therefore, several candidate molecules have been investigated in recent years for diagnosis, prognosis, and therapy monitoring. Noncoding RNAs are attractive as biomarkers and their potential clinical applications may be feasible in the era of personalized medicine. Given the complex pathophysiology of HF, it is reasonable to expect that the future of biomarkers lies in the application of precision medicine, through wider testing panels and “omics” technologies, to further improve HF care delivery

Advances and Challenges in Biomarkers Use for Coronary Microvascular Dysfunction: From Bench to Clinical Practice

Coronary microvascular dysfunction (CMD) is related to a broad variety of clinical scenarios in which cardiac microvasculature is morphologically and functionally affected, and it is associated with impaired responses to vasoactive stimuli. Although the prevalence of CMD involves about half of all patients with chronic coronary syndromes and more than 20% of those with acute coronary syndrome, the diagnosis of CMD is often missed, leading to the underestimation of its clinical importance. The established and validated techniques for the measurement of coronary microvascular function are invasive and expensive. An ideal method to assess endothelial dysfunction should be accurate, non-invasive, cost-effective and accessible. There are varieties of biomarkers available, potentially involved in microvascular disease, but none have been extensively validated in this heterogeneous clinical population. The investigation of potential biomarkers linked to microvascular dysfunction might improve the assessment of the diagnosis, risk stratification, disease progression and therapy response. This review article offers an update about traditional and novel potential biomarkers linked to CMD

Modifications of intracranial pressure after molecular adsorbent recirculating system treatment in patients with acute liver failure: Case reports

Cerebral dysfunction may be fatal in patients with acute liver failure (ALF); intracranial pressure (ICP) monitoring may be mandatory to direct measures to prevent further cerebral edema. Recently the introduction of dialysis with the molecular adsorbent recirculating system (MARS) has improved the outcomes among patients with ALF. The aim of this study was to evaluate ICP changes after MARS treatment among patients with ALF. Methods. Three patients—14, 18 and 16 years old—were admitted to the ICU for acute liver failure induced by HBV in two cases and by acetaminophen in the other one. Because of Glasgow Coma Score (GCS)8, they were intubated and ventilated to protect the airway and maintain moderate hypocapnia. Invasive monitoring of intracranial pressure MARS treatments were performed in all patients. Results. The patients received MARS treatments every day after their admission to liver transplantation. After MARS therapy the ICP decreased on average from 21 to 7 mm Hg. Significant hemodynamic modifications were not observed and their neurogical conditions improved. Conclusion. MARS treatment improved the clinical pictures of these patients increasing the available time to obtain an urgent liver graft

Clinical effects of use polymyxin B fixed on fibers in liver transplant patients with severe sepsis or septic shock

Abstract: Polymyxin B (PMX-B) is a polycationic antibiotic, known to bind the lipid A portion of endotoxin, a cell wall component exclusively found in gram-negative bacteria (GNB). An extracorporeal hemoperfusion device (TORAYMYXIN) has been developed: PMX is covalently bound to the surface of an insoluble carrier material to inactivate endotoxin in blood without exerting toxicity on the brain or the kidney. The aim of this study was to evaluate the efficacy, safety, and clinical effects of direct hemoperfusion with an immobilized polymyxin B fiber column (DHP-PMX) among liver transplant patients with severe sepsis or septic shock. Methods. From June 2004 to May 2005, 10 patients (6 men and 4 women) of overall mean age of 55 years (46-65 range) underwent orthotopic liver transplantation (OLT) and developed severe sepsis or septic shock according to The Consensus Conference of American College Physicians/Society of Critical Care Medicine (ACCP/SCCM) criteria. GNB were detected in all treated patients who received conventional antibiotic therapy, vasopressor or inotropic agents, and ventilatory support. The DHP-PMX treatment was performed three times in each patient. Hemodynamic and respiratory parameters and dosages of vasopressor or inotropic drugs were assessed at baseline and after each treatment. Results. No adverse events occurred. From baseline to the third treatment the mean arterial pressure increased from 64 +/- 5 mm Hg to 89 +/- 4 rum Hg; while the dosages of dobutamine and norepinephrine were reduced: 6.4 to 1 mcg/kg/min and 1.3 to 0.001 mcg/kg per min, respectively. The PaO2/FiO(2) ratio increased: 214 to 291 mm Fig. Conclusion. The use of DHP-PMX may be an important aid in patients with sepsis in association with conventional therapy