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Heart Failure and Atrial Fibrillation, Like Fire and Fury.
Carlisle, MA, Fudim, M, DeVore, AD, Piccini, JP
JACC. Heart failure. 2019;(6):447-456
Abstract
Heart failure and atrial fibrillation are 2 common cardiovascular disorders that frequently complicate one another and exert a significant detrimental effect on cardiovascular health and well-being. Both heart failure and atrial fibrillation continue to increase in prevalence as the risk factors underlying each condition become more common. This review encompasses what is currently known about the epidemiology and pathophysiology of these comorbidities along with incorporation of landmark trials that have contributed to current guidelines. The focus is on clinically relevant considerations, including the contribution of inflammation in the pathophysiology of atrial fibrillation and heart failure. We explore the emerging role of catheter ablation relative to medical therapy in the management of heart failure with reduced ejection fraction, along with indications for biventricular pacing modalities in cardiac resynchronization therapy. We discuss current guideline-directed therapies and how practice models and national recommendations will likely change based on the most recent randomized controlled trials.
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2.
When the Heart Is Not in It: Breastfeeding with Cardiovascular Disease.
Anderson, PO
Breastfeeding medicine : the official journal of the Academy of Breastfeeding Medicine. 2019;(2):80-82
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3.
Pharmacotherapeutic strategies for atrial fibrillation in pregnancy.
Georgiopoulos, G, Tsiachris, D, Kordalis, A, Kontogiannis, C, Spartalis, M, Pietri, P, Magkas, N, Stefanadis, C
Expert opinion on pharmacotherapy. 2019;(13):1625-1636
Abstract
Introduction: Atrial fibrillation (AF) is rare during pregnancy but its incidence is expected to rise in parallel to increasing age of women in pregnancy and fraction of pregnant women with structural heart disease. Areas covered: The authors provide a review of the contemporary evidence on diagnostic work-up and optimal pharmacotherapeutic management of AF in pregnancy. The authors have performed a systematic search for relevant articles using MEDLINE, the COCHRANE LIBRARY, and ClinicalTrials.gov. Expert opinion: New-onset AF during pregnancy is usually an indication of underlying heart disease and should lead to hospital admission. Patients should be evaluated by an experienced cardiologist or an electrophysiologist. Direct cardioversion is highly effective and safe in pregnant women and should be prioritized over pharmacologic cardioversion with intravenous ibutilide or flecainide. Amiodarone should be avoided if possible. Digoxin and beta-blockers are the rate-control pharmaceutic agents with the widest experience of use. Catheter ablation during pregnancy should be considered in selected cases of atrial flutter refractory to medication and only performed using fluoroless techniques, preferably during the second trimester. Vitamin K antagonists (VKAs) can be used after the first trimester, while low molecular weight heparin should be accompanied by periodic evaluation of anti-Xa factor. Non-VKA oral anticoagulants should be avoided because of limited experience in pregnancy.
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4.
Amiodarone-Induced Thyroid Dysfunction: A Clinical Update.
Elnaggar, MN, Jbeili, K, Nik-Hussin, N, Kozhippally, M, Pappachan, JM
Experimental and clinical endocrinology & diabetes : official journal, German Society of Endocrinology [and] German Diabetes Association. 2018;(6):333-341
Abstract
Amiodarone is one of the most commonly prescribed antiarrhythmic agents in clinical practice owing to its efficacy, even with high toxicity profile. The high iodine content and the prolonged biological half-life of the drug can result in thyroid dysfunction in a high proportion of patients treated with amiodarone even after cessation of amiodarone. Both hypothyroidism and hyperthyroidism are common side effects that mandate regular monitoring of patients with thyroid function tests. Amiodarone-induced hypothyroidism (AIH) is diagnosed and managed in the same way as a usual case of hypothyroidism. However, differential diagnosis and clinical management of amiodarone-induced thyrotoxicosis (AIT) subtypes can be challenging. With the aid of a case snippet, we update the current evidence for the diagnostic work up and management of patients with amiodarone-induced thyroid dysfunction in this article.
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5.
Nicorandil improves clinical outcomes in patients with stable angina pectoris requiring PCI: a systematic review and meta-analysis of 14 randomized trials.
Li, Y, Liu, H, Peng, W, Song, Z
Expert review of clinical pharmacology. 2018;(9):855-865
Abstract
Clinical trials concerning the effects of nicorandil in stable coronary artery disease (CAD) remain controversial. This study sought to evaluate the clinical outcomes of nicorandil following elective percutaneous coronary intervention (PCI). Areas covered: A meta-analysis including eligible randomized controlled trials (RCTs) with data on the nicorandil in stable CAD from Pubmed, EMBase, and Cochrane library (up to March 2018) was conducted. The primary end points were postprocedural incidence of myocardial infarction (MI) and contrast-induced nephropathy (CIN). The second end point was major adverse cerebrovascular and cardiovascular events (MACCE). Fourteen RCTs with a total of 1947 elective CAD patients were selected. Nicorandil significantly reduced the incidence of MI [n = 8; relative risk (RR) = 0.58; P = 0.001; I2 = 33.7%], and CIN (n = 5; RR = 0.36; P < 0.00001; I2 = 15.4%). However, There was no lowered risk of MACCE in nicorandil-treated patients [n = 10; odds RR = 0.75; P = 0.19; I2 = 0.0%]. Subsequent trial sequential analyses confirmed the effect of nicorandil on MI and CIN in PCI. Expert commentary: The present systematic review and meta-analysis suggests that nicorandil could improve clinical outcomes in terms of perioperative MI and CIN. However, the effect of nicorandil on the MACCE risk is not obvious. Future high-quality, large-scale clinical trials should majorly concern about the long-term clinical effect of nicorandil.
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6.
A Focus on Pharmacological Management of Catecholaminergic Polymorphic Ventricular Tachycardia.
Claudio, B, Alice, M, Daniel, S
Mini reviews in medicinal chemistry. 2018;(6):476-482
Abstract
Catecholaminergic polymorphic ventricular tachycardia (CPVT) is a channelopathy characterized by adrenergic mediated ventricular arrhythmia. Untreated CPVT is a malignant syndrome with more than 50% of arrhythmic events and up to 25% of fatal or near-fatal cardiac events at 8 years follow-up. Prevention of sudden cardiac death starts with exclusion of competitive sports. Beta blockers (BB) are the cornerstone pharmacological therapy for the prevention of cardiac event in CPVT patients. Dose of BB should be highly tolerable, preferably nadolol. Efficiency of BB is undeniable but uncompleted. Therefore, on top of BB, one can propose the use of Calcium channel blockers or Class 1c antiarrythmic drugs. Indeed Flecainide allows reducing exercise- induced premature ventricular contraction and ventricular arrhythmia. Pharmacological management should be a stepwise approach with BB as the first line of choice. At each step of therapeutic changes, heart rhythm during exercise should be monitored by Holter monitoring and exercise testing. If the pharmacological management fails, left cardiac sympathetic denervation or implantation of cardioverter defibrillator should be considered.
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7.
[Challenges in the management of amiodarone-induced thyrotoxicosis].
Tauveron, I, Batisse-Lignier, M, Maqdasy, S
Presse medicale (Paris, France : 1983). 2018;(9):746-756
Abstract
Amiodarone, a benzofuranic iodine-rich pan antiarrhythmic drug, is frequently associated with thyroid dysfunction. This side effect is heterogeneous and unpredicted, motivating regular evaluation of thyroid function tests. In contrary to hypothyroidism, amiodarone-induced thyrotoxicosis (AIT) is a challenging situation owing to the risk of deterioration of the general and cardiac status of such debilitating patients. Classically, AIT is either an iodine-induced thyrotoxicosis in patients with an abnormal thyroid (type I), or due to a subacute thyroiditis on a "healthy" thyroid (type II). Even if many studies tried to better identify the types of AIT, the diagnostic dilemma of type of AIT could be present, and many patients are treated by an association of antithyroid drugs (useful for type I AIT) with corticoids (useful for type II AIT). Being the main etiological factor in AIT, amiodarone is supposed to be stopped, but it could remain the only anti-arrhythmic option that is needed to be either continued or reintroduced to improve the cardiovascular survival. Recently, many studies demonstrated that amiodarone could be continued or reintroduced in patients with history of type II AIT. Nevertheless, in the other patients, amiodarone maintenance complicates the therapeutic response to the antithyroid drugs and increases the risk of AIT recurrence. Thus, amiodarone therapy is preferred to be interrupted. In such patients, thyroid ablation is recommended once AIT is under control.
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8.
The role of mexiletine in the management of long QT syndrome.
Li, G, Zhang, L
Journal of electrocardiology. 2018;(6):1061-1065
Abstract
Congenital long QT syndrome (LQTS) is a hereditary cardiac disorder characterized by QT-interval prolongation and T-wave abnormalities on electrocardiogram (ECG), and is associated with an increased risk of torsade de pointes and sudden cardiac death. Beta-blocker medication is effective in most patients except those with a very slow heart rate. Increased late sodium currents (INa-L) can result in bradycardia-dependent QT prolongation. Mexiletine, an inhibitor of INa-L, is not only effective in treating type-3 LQTS, but also shows the promise in managing LQTS patients of other genotypes with markedly prolonged QT interval at slow heart rates.
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9.
Amiodarone induced myxedema coma: Two case reports and literature review.
Hawatmeh, A, Thawabi, M, Abuarqoub, A, Shamoon, F
Heart & lung : the journal of critical care. 2018;(4):429-431
Abstract
Amiodarone is a benzofuran derivative that contains 37% iodine by weight and is structurally similar to the thyroid hormones. Amiodarone has a complex effect on the thyroid gland, ranging from abnormalities of thyroid function tests to overt thyroid dysfunction, with either thyrotoxicosis or hypothyroidism. Myxedema coma secondary to amiodarone use has been rarely reported in the literature. Our two case reports are an add on to the literature, and illustrate that amiodarone is an important cause of thyroid dysfunction including hypothyroidism and myxedema coma. Hence, healthcare providers should have a high index of suspicion for these conditions while treating patients who are taking amiodarone therapy as early recognition and management are essential to optimize outcomes.
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10.
The Role of Radiopharmaceuticals in Amiodarone-Induced Thyroid Pathology.
Irimie, A, Piciu, D
Current radiopharmaceuticals. 2017;(3):146-154
Abstract
BACKGROUND AND OBJECTIVE The use of amiodarone for the treatment of ventricular and supraventricular dysrhythmias brings in organism an increased amount of iodine, interfering with thyroid function. If the treatment needs to be interrupted, iodine remains at abnormal levels for months or even years. The aim of the study was to review the literature regarding the optimal tests for early diagnostic and to analyze the role of nuclear medicine tests in the differential and correct assessment of the amiodarone-induced thyroid pathology. METHODS We made a review of available publications in PUBMED referring the amiodaroneinduced thyroid pathology, focusing on the differential diagnosis, made by nuclear medicine tests, of hypothyroidism (AIH) and hyperthyroidism expressed as: type I amiodarone induced thyrotoxicosis (AIT I), type II amiodarone induced thyrotoxicosis (AIT II), and less frequently as a mixt form, type III amiodarone induced thyrotoxicosis (AIT III). We presented cases from the database of a tertiary center in Cluj-Napoca, Romania. RESULTS Despite the frequent complication of thyroid function, this pathology is underestimated and diagnosed. There is a limited number of studies and clear protocols, especially in the mixed forms cases. This increase in iodine uptake interferes seriously with thyroid hormone production and release. The nuclear medicine tests are essential in the correct assessment and differential diagnosis of different forms of induced thyroid dysfunction. The destruction of the follicular cells can result in the release of excessive thyroid hormone into the circulation, with potential development of atrial fibrillation, worsening the cardiac disease, so any benefic therapeutic procedure should be known; the use of radioiodine as therapy alternative, despite the known limitations induced by blockade was clear benefic in the case presented. A special attention needs to be addressed to those patients with differentiated thyroid cancer, which will be submitted to radioiodine therapy and are under chronic therapy with amiodarone. CONCLUSION The nuclear medicine procedures are essential in the correct assessment and differential diagnosis of different forms of induced thyroid dysfunction. The radioiodine is not recommended in AIT, due to stunning effect induced by iodine excess, but in some special, lifethreatening condition, radioiodine I-131 might be a treatment option.