1.
Present and future pharmacotherapeutic agents in heart failure: an evolving paradigm.
Loudon, BL, Noordali, H, Gollop, ND, Frenneaux, MP, Madhani, M
British journal of pharmacology. 2016;(12):1911-24
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Abstract
Many conditions culminate in heart failure (HF), a multi-organ systemic syndrome with an intrinsically poor prognosis. Pharmacotherapeutic agents that correct neurohormonal dysregulation and haemodynamic instability have occupied the forefront of developments within the treatment of HF in the past. Indeed, multiple trials aimed to validate these agents in the 1980s and early 1990s, resulting in a large and robust evidence-base supporting their use clinically. An established treatment paradigm now exists for the treatment of HF with reduced ejection fraction (HFrEF), but there have been very few notable developments in recent years. HF remains a significant health concern with an increasing incidence as the population ages. We may indeed be entering the surgical era for HF treatment, but these therapies remain expensive and inaccessible to many. Newer pharmacotherapeutic agents are slowly emerging, many targeting alternative therapeutic pathways, but with mixed results. Metabolic modulation and manipulation of the nitrate/nitrite/nitric oxide pathway have shown promise and could provide the answers to fill the therapeutic gap between medical interventions and surgery, but further definitive trials are warranted. We review the significant evidence base behind the current medical treatments for HFrEF, the physiology of metabolic impairment in HF, and discuss two promising novel agents, perhexiline and nitrite.
2.
[The best of clinical cardiovascular pharmacology in 2005].
Ambrosi, R, Andrejak, M, Drici, MD, Herpin, D, ,
Archives des maladies du coeur et des vaisseaux. 2006;(1):95-9
Abstract
Although the year 2005 has reinforced the therapeutic advances of 2004, with confirmation of certain concepts, the 'coxib affair' has continued to provoke arguments between pharmaceutical companies, licensing agencies as well as patients, some of whom have amalgamated into consumer groups to reject en masse placing any responsibility on the prescribers in favour of an attack on the drug licensing process itself. Among the cardiovascular drugs that will soon be licensed, only ivabradine in stable angina, and remodulin in primary pulmonary arterial hypertension are new. The therapeutic advances in 2005 regarding platelet aggregation and blood coagulation have been significant, in the human, scientific and commercial context, while hypertension has not been ignored. Another new development is the ever more precise notion of the metabolic syndrome, a target of choice for the pharmaceutical industry. The potential range of applications has been widened to include obesity, hypertension, diabetes, HDL cholesterol... The licensing authorities find themselves facing a hurdle to overcome, with novel combinations of drugs (ACE inhibitors, calcium blockers/statins, statins/aspirin, ARA2/calcium blockers...).
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Emerging therapies for the management of decompensated heart failure: from bench to bedside.
deGoma, EM, Vagelos, RH, Fowler, MB, Ashley, EA
Journal of the American College of Cardiology. 2006;(12):2397-409
Abstract
While pharmaceutical innovation has been highly successful in reducing mortality in chronic heart failure, this has not been matched by similar success in decompensated heart failure syndromes. Despite outstanding issues over definitions and end points, we argue in this paper that an unprecedented wealth of pharmacologic innovation may soon transform the management of these challenging patients. Agents that target contractility, such as cardiac myosin activators and novel adenosine triphosphate-dependent transmembrane sodium-potassium pump inhibitors, provide inotropic support without arrhythmogenic increases in cytosolic calcium or side effects of more traditional agents. Adenosine receptor blockade may improve glomerular filtration and diuresis by exerting a direct beneficial effect on glomerular blood flow while vasopressin antagonists promote free water excretion without compromising renal function and may simultaneously inhibit myocardial remodeling. Urodilatin, the renally synthesized isoform of atrial natriuretic peptide, may improve pulmonary congestion via vasodilation and enhanced diuresis. Finally, metabolic modulators such as perhexiline may optimize myocardial energy utilization by shifting adenosine triphosphate production from free fatty acids to glucose, a unique and conceptually appealing approach to the management of heart failure. These advances allow optimism not only for the advancement of our understanding and management of decompensated heart failure syndromes but for the translational research effort in heart failure biology in general.