Small Interfering RNA to Reduce Lipoprotein(a) in Cardiovascular Disease.

BACKGROUND: Lipoprotein(a) is a presumed risk factor for atherosclerotic cardiovascular disease. Olpasiran is a small interfering RNA that reduces lipoprotein(a) synthesis in the liver. METHODS: We conducted a randomized, double-blind, placebo-controlled, dose-finding trial involving patients with established atherosclerotic cardiovascular disease and a lipoprotein(a) concentration of more than 150 nmol per liter. Patients were randomly assigned to receive one of four doses of olpasiran (10 mg every 12 weeks, 75 mg every 12 weeks, 225 mg every 12 weeks, or 225 mg every 24 weeks) or matching placebo, administered subcutaneously. The primary end point was the percent change in the lipoprotein(a) concentration from baseline to week 36 (reported as the placebo-adjusted mean percent change). Safety was also assessed. RESULTS: Among the 281 enrolled patients, the median concentration of lipoprotein(a) at baseline was 260.3 nmol per liter, and the median concentration of low-density lipoprotein cholesterol was 67.5 mg per deciliter. At baseline, 88% of the patients were taking statin therapy, 52% were taking ezetimibe, and 23% were taking a proprotein convertase subtilisin-kexin type 9 (PCSK9) inhibitor. At 36 weeks, the lipoprotein(a) concentration had increased by a mean of 3.6% in the placebo group, whereas olpasiran therapy had significantly and substantially reduced the lipoprotein(a) concentration in a dose-dependent manner, resulting in placebo-adjusted mean percent changes of -70.5% with the 10-mg dose, -97.4% with the 75-mg dose, -101.1% with the 225-mg dose administered every 12 weeks, and -100.5% with the 225-mg dose administered every 24 weeks (P<0.001 for all comparisons with baseline). The overall incidence of adverse events was similar across the trial groups. The most common olpasiran-related adverse events were injection-site reactions, primarily pain. CONCLUSIONS: Olpasiran therapy significantly reduced lipoprotein(a) concentrations in patients with established atherosclerotic cardiovascular disease. Longer and larger trials will be necessary to determine the effect of olpasiran therapy on cardiovascular disease. (Funded by Amgen; OCEAN[a]-DOSE ClinicalTrials.gov number, NCT04270760.).

Urgent need for individual mobile phone and institutional reporting of at home, hospitalized, and intensive care unit cases of SARS-CoV-2 (COVID-19) infection.

Approximately 90 days of the SARS-CoV-2 (COVID-19) spreading originally from Wuhan, China, and across the globe has led to a widespread chain of events with imminent threats to the fragile relationship between community health and economic health. Despite near hourly reporting on this crisis, there has been no regular, updated, or accurate reporting of hospitalizations for COVID-19. It is known that many test-positive individuals may not develop symptoms or have a mild self-limited viral syndrome consisting of fever, malaise, dry cough, and constitutional symptoms. However some individuals develop a more fulminant syndrome including viral pneumonia, respiratory failure requiring oxygen, acute respiratory distress syndrome requiring mechanical ventilation, and in substantial fractions leading to death attributable to COVID-19. The pandemic is evolving in a clustered, non-inform fashion resulting in many hospitals with preparedness but few or no cases, and others that are completely overwhelmed. Thus, a considerable risk of spread when personal protection equipment becomes exhausted and a large fraction of mortality in those not offered mechanical ventilation are both attributable to a crisis due to maldistribution of resources. The pandemic is amenable to self-reporting through a mobile phone application that could obtain critical information on suspected cases and report on the results of self testing and actions taken. The only method to understand the clustering and the immediate hospital resource needs is mandatory, uniform, daily reporting of hospital censuses of COVID-19 cases admitted to hospital wards and intensive care units. Current reports of hospitalizations are delayed, uncertain, and wholly inadequate. This paper urges all the relevant stakeholders to take up self-reporting and reporting of hospitalizations of COVID-19 as an urgent task in combating this devastating pandemic.

Class effects of SGLT2 inhibitors on cardiorenal outcomes.

BACKGROUND: To summarize the four recent sodium-glucose cotransporter 2 inhibitor (SGLT2i) trials: Dapagliflozin Effect on CardiovascuLAR Events (DECLARE-TIMI 58), CANagliflozin CardioVascular Assessment Study (CANVAS) Program, Empagliflozin Cardiovascular Outcome Event Trial in Type 2 Diabetes Mellitus Patients-Removing Excess Glucose (EMPA-REG OUTCOME), Canagliflozin and Renal Events in Diabetes with Established Nephropathy Clinical Evaluation (CREDENCE), and explore the potential determinants for their cardiovascular, renal, and safety outcomes. RESULTS: The composite renal outcome event rates per 1000 patient-years for drug and placebo, as well as the corresponding relative risk reductions, were 3.7, 7.0, 47%; 5.5, 9.0, 40%; 6.3, 11.5, 46%; 43.2, 61.2, 30% for DECLARE-TIMI 58, CANVAS, EMPA-REG OUTCOME, and CREDENCE, respectively (event definitions varied across trials). The major adverse cardiovascular (CV) event rates per 1000 patient-years for drug and placebo, as well as the corresponding relative risk reductions, were 22.6, 24.2, 7%; 26.9, 31.5, 14%; 37.4, 43.9, 14%; 38.7, 48.7, 20% for DECLARE-TIMI 58, CANVAS, EMPA-REG OUTCOME, and CREDENCE, respectively. DECLARE-TIMI 58 had the fewest cardiorenal events and CREDENCE the most. These differences were presumably due to varying inclusion criteria resulting in DECLARE-TIMI 58 having the best baseline renal filtration function and CREDENCE the worst (mean estimated glomerular filtration rate 85.2, 76.5, 74, 56.2 mL/min/1.73 m2 for DECLARE-TIMI 58, CANVAS, EMPA-REG OUTCOME, and CREDENCE, respectively). Additionally, CREDENCE had considerably higher rates of albuminuria (median urinary albumin-creatinine ratios (UACR) were 927, 12.3, and 13.1 mg/g for CREDENCE, CANVAS, and DECLARE-TIMI 58, respectively; EMPA-REG OUTCOME had 59.4% UACR < 30, 28.6% UACR > 30-300, 11.0% UACR > 300 mg/g). CONCLUSIONS: Dapagliflozin, empagliflozin, and canagliflozin have internally and externally consistent and biologically plausible class effects on cardiorenal outcomes. Baseline renal filtration function and degree of albuminuria are the most significant indicators of risk for both CV and renal events. Thus, these two factors also anticipate the greatest clinical benefit for SGLT2i.

Efficacy and safety of alirocumab in reducing lipids and cardiovascular events.

BACKGROUND: Alirocumab, a monoclonal antibody that inhibits proprotein convertase subtilisin-kexin type 9 (PCSK9), has been shown to reduce low-density lipoprotein (LDL) cholesterol levels in patients who are receiving statin therapy. Larger and longer-term studies are needed to establish safety and efficacy. METHODS: We conducted a randomized trial involving 2341 patients at high risk for cardiovascular events who had LDL cholesterol levels of 70 mg per deciliter (1.8 mmol per liter) or more and were receiving treatment with statins at the maximum tolerated dose (the highest dose associated with an acceptable side-effect profile), with or without other lipid-lowering therapy. Patients were randomly assigned in a 2:1 ratio to receive alirocumab (150 mg) or placebo as a 1-ml subcutaneous injection every 2 weeks for 78 weeks. The primary efficacy end point was the percentage change in calculated LDL cholesterol level from baseline to week 24. RESULTS: At week 24, the difference between the alirocumab and placebo groups in the mean percentage change from baseline in calculated LDL cholesterol level was -62 percentage points (P<0.001); the treatment effect remained consistent over a period of 78 weeks. The alirocumab group, as compared with the placebo group, had higher rates of injection-site reactions (5.9% vs. 4.2%), myalgia (5.4% vs. 2.9%), neurocognitive events (1.2% vs. 0.5%), and ophthalmologic events (2.9% vs. 1.9%). In a post hoc analysis, the rate of major adverse cardiovascular events (death from coronary heart disease, nonfatal myocardial infarction, fatal or nonfatal ischemic stroke, or unstable angina requiring hospitalization) was lower with alirocumab than with placebo (1.7% vs. 3.3%; hazard ratio, 0.52; 95% confidence interval, 0.31 to 0.90; nominal P=0.02). CONCLUSIONS: Over a period of 78 weeks, alirocumab, when added to statin therapy at the maximum tolerated dose, significantly reduced LDL cholesterol levels. In a post hoc analysis, there was evidence of a reduction in the rate of cardiovascular events with alirocumab. (Funded by Sanofi and Regeneron Pharmaceuticals; ODYSSEY LONG TERM ClinicalTrials.gov number, NCT01507831.).

Cardiorenal Outcomes in the CANVAS, DECLARE-TIMI 58, and EMPA-REG OUTCOME Trials: A Systematic Review.

In this systematic review, we sought to summarize the 3 recent sodium-glucose cotransporter 2 inhibitor (SGLT2i) trials (Dapagliflozin Effect on CardiovasculAR Events (DECLARE-TIMI 58), Canagliflozin Cardiovascular Assessment Study (CANVAS) Program, and Empagliflozin, Cardiovascular Outcomes, and Mortality in Type 2 Diabetes (EMPA-REG OUTCOME)) and to explore the potential causes for their different results. We found that the major adverse cardiovascular event rates per 1000 patient-years for drug and placebo, as well as the corresponding relative risk reductions, were 22.6, 24.2, 7%; 26.9, 31.5, 14%; 37.4, 43.9, 14% for DECLARE-TIMI 58, CANVAS, and EMPA-REG OUTCOME, respectively. DECLARETIMI 58 had the fewest cardiorenal events (across treatment and control arms) and EMPA-REG OUTCOME the most. DECLARE-TIMI 58 used alternative inclusion criterion for baseline renal function (creatinine clearance ≧ 60 mL/min) compared to the other trials (estimated glomerular filtration rate (eGFR) > 30 mL/min/1.73 m2 bodysurface area). Therefore, the DECLARE-TIMI 58 study cohort had higher eGFR (mean eGFR 85.2 mL/min/1.73 m2 compared to 76.5 and 74 in CANVAS and EMPAREG OUTCOME, respectively); this may have caused the difference in results. Additionally contributing to the high event rate in EMPA-REG OUTCOME was the requirement of prior confirmed cardiovascular disease (CVD), resulting in 99.2% of patients with CVD compared to only 65.6% and 40.6% in CANVAS and DECLARE-TIMI 58, respectively (which did not require CVD). In conclusion, there is a need for large-scale studies of SGLT2i with matching inclusion/exclusion criteria and appropriate endpoints to ensure a truly direct comparison of the drugs.

Two Perspectives of the Appropriate Use Criteria in Cardiology Practice: Advantageous and Useful or Limiting and Harmful?

The appropriate use criteria (AUC) has become an integral part of the cardiologist's daily practice and have evolved greatly since their inception over a decade ago. However, as health care costs continue to rise, the AUC has come to play an even more pivotal role in the way medicine-specifically cardiology-is practiced today. This editorial describes two opposing viewpoints commonly held by practicing clinicians of the AUC. Written from the perspective of two fellows-in-training looking ahead at the challenges and opportunities of clinical practice (under the auspices of several experienced clinicians and leaders of the American College of Cardiology), this article provides a fresh perspective on the impact AUC has on our patients, clinicians, and the health care system.

Acute and Chronic Cardiovascular Effects of Hyperkalemia: New Insights Into Prevention and Clinical Management.

Hyperkalemia is a common electrolyte disorder associated with life-threatening cardiac arrhythmias and increased mortality. Patients at greatest risk for hyperkalemia include those with diabetes and those with impaired renal function in whom a defect in the excretion of renal potassium may already exist. Hyperkalemia is likely to become more common clinically because angiotensin receptor blockers and angiotensin-converting enzyme inhibitors are increasingly being used in higher doses and are thought to confer cardiovascular and renal protection. Until recently, options for treating hyperkalemia were limited to the use of thiazide and loop diuretics and sodium polystyrene sulfonate. Newer options such as sodium zirconium cyclosilicate will allow for the safe and effective treatment of hyperkalemia while maintaining patients on prescribed renin-angiotensin-aldosterone system inhibitors.

Novel Agents for the Prevention and Management of Hyperkalemia.

Hyperkalemia is defined as serum potassium concentrations elevated above the upper limit of normal (> 5.0 mEq/L). It has become more common in cardiovascular practice due to the growing population of patients with chronic kidney disease and the broad application of drugs that modulate renal elimination of potassium by reducing production of angiotensin II (angiotensin-converting enzyme inhibitors, direct renin inhibitors, ß-adrenergic receptor antagonists), blocking angiotensin II receptors (angiotensin receptor blockers), or antagonizing the action of aldosterone on mineralocorticoid receptors (mineralocorticoid receptor antagonists). The risk of hyperkalemia is a major limiting factor for the use of these disease-modifying drugs in both acute and chronic cardiorenal syndromes. Thus, agents to control the plasma concentration of potassium are needed in the multidrug treatment of cardiorenal disease, including chronic kidney disease, heart failure, and acute kidney injury. Novel oral therapies in development for both acute and extended use in the management of hyperkalemia include patiromer sorbitex calcium and sodium zirconium cyclosilicate. Important biochemical differences between these compounds result in unique product profiles and electrolyte outcomes in patients treated for hyperkalemia. This review highlights the major mechanisms of hyperkalemia and key results from randomized trials in a range of clinical scenarios in patients with, and at risk for, hyperkalemia.

New vistas for the treatment of obesity: turning the tide against the leading cause of morbidity and cardiovascular mortality in the developed world.

Excess adiposity and obesity are the root cause of at least 27 diseases that cause considerable lifelong morbidity and, in many scenarios, eventual cardiovascular mortality. The human body has the ability to increase the number and size of its adipocytes by approximately 10-fold over the course of a lifetime. As fat mass increases, its blood supply, supporting cells, tissue structure, and local and systemic hormonal control also increase. This results in excess adiposity, leading to progressive obesity and the resistance to weight-loss attempts. There have been numerous trials of food diets combined with exercise that, in general, have a 50% dropout rate at 1 year and lead to very modest (∼5%) reductions in body weight. Thus, many with obesity require interventions beyond casual diet and exercise advice. Meal replacement diets and bariatric surgery offer considerably greater degrees of weight loss, but both can be plagued by weight regain. Because the ability to control food urges has been shown to be a key psychological factor for success, medicinal approaches that work in this domain are attractive adjuncts to diet, exercise, and weight-loss surgery. This article reviews the emerging role of medical therapy in the treatment of excess adiposity with the goal of reducing comorbidities and possibly improving cardiovascular survival.

The potential role of anti-PCSK9 monoclonal antibodies in the management of hypercholesterolemia.

Atherosclerotic cardiovascular disease (ASCVD) is the leading cause of death and disability in developed nations, and it is rising rapidly in other parts of the developing world. Levels of low-density lipoprotein cholesterol (LDL-C) are directly correlated with atherogenic risk, and statin-based therapy is the most common management for these patients. However, many patients exhibit resistance to and/or adverse effects from statin therapy, and there is a need for adjunctive therapies or statin alternatives for these patients. The recently discovered human protein proprotein convertase subtilisin/kexin type 9 (PCSK9) plays an important role in LDL-C metabolism. PCSK9 promotes LDL receptor (LDL-R) degradation with a consequent reduction in LDL-R density and an increase in LDL-C levels. Consequently, PCSK9 inhibition to reduce LDL-C levels has become a primary focus for drug development. Numerous clinical trials focusing on monoclonal antibodies against PCSK9 have demonstrated efficacy equal to or greater than statin therapy for lowering LDL-C levels. Long-term trials are underway to assess safety, tolerability, and ability to reduce ASCVD.

DCRM 2.0: Multispecialty practice recommendations for the management of diabetes, cardiorenal, and metabolic diseases.

The spectrum of cardiorenal and metabolic diseases comprises many disorders, including obesity, type 2 diabetes (T2D), chronic kidney disease (CKD), atherosclerotic cardiovascular disease (ASCVD), heart failure (HF), dyslipidemias, hypertension, and associated comorbidities such as pulmonary diseases and metabolism dysfunction-associated steatotic liver disease and metabolism dysfunction-associated steatohepatitis (MASLD and MASH, respectively, formerly known as nonalcoholic fatty liver disease and nonalcoholic steatohepatitis [NAFLD and NASH]). Because cardiorenal and metabolic diseases share pathophysiologic pathways, two or more are often present in the same individual. Findings from recent outcome trials have demonstrated benefits of various treatments across a range of conditions, suggesting a need for practice recommendations that will guide clinicians to better manage complex conditions involving diabetes, cardiorenal, and/or metabolic (DCRM) diseases. To meet this need, we formed an international volunteer task force comprising leading cardiologists, nephrologists, endocrinologists, and primary care physicians to develop the DCRM 2.0 Practice Recommendations, an updated and expanded revision of a previously published multispecialty consensus on the comprehensive management of persons living with DCRM. The recommendations are presented as 22 separate graphics covering the essentials of management to improve general health, control cardiorenal risk factors, and manage cardiorenal and metabolic comorbidities, leading to improved patient outcomes.

Venous disease: the missing link in cardiovascular medicine.

Until recently, medical literature and the practice of vascular medicine focused on the cosmetic aspects of venous disease and the advanced stages of venous insufficiency such as painful varicose veins and venous ulcers. The systemic effects of venous insufficiency resulting from a reduction of venous return and increased transit time of blood from the lower extremities that can mimic heart failure are only recently being recognized. This article reviews the diagnosis and treatment options for the patients with venous insufficiency, and increases awareness about the systemic effects of venous disease and its role in the practice of cardiovascular medicine.

New vistas for the treatment of obesity: turning the tide against the leading cause of morbidity and cardiovascular mortality in the developed world.

Excess adiposity and obesity are the root cause of at least 27 diseases that cause considerable lifelong morbidity and, in many scenarios, eventual cardiovascular mortality. The human body has the ability to increase the number and size of its adipocytes by approximately 10-fold over the course of a lifetime. As fat mass increases, its blood supply, supporting cells, tissue structure, and local and systemic hormonal control also increase. This results in excess adiposity, leading to progressive obesity and the resistance to weight-loss attempts. There have been numerous trials of food diets combined with exercise that, in general, have a 50% dropout rate at 1 year and lead to very modest (∼ 5%) reductions in body weight. Thus, many with obesity require interventions beyond casual diet and exercise advice. Meal replacement diets and bariatric surgery offer considerably greater degrees of weight loss, but both can be plagued by weight regain. Because the ability to control food urges has been shown to be a key psychological factor for success, medicinal approaches that work in this domain are attractive adjuncts to diet, exercise, and weight-loss surgery. This article reviews the emerging role of medical therapy in the treatment of excess adiposity with the goal of reducing comorbidities and possibly improving cardiovascular survival.

Evolving Management of Low-Density Lipoprotein Cholesterol: A Personalized Approach to Preventing Atherosclerotic Cardiovascular Disease Across the Risk Continuum.

Management of elevated low-density lipoprotein cholesterol (LDL-C) is central to preventing atherosclerotic cardiovascular disease (ASCVD) and key to reducing the risk of ASCVD events. Current guidelines on the management of blood cholesterol recommend statins as first-line therapy for LDL-C reduction according to an individual's ASCVD risk and baseline LDL-C levels. The addition of nonstatin lipid-lowering therapy to statins to achieve intensive LDL-C lowering is recommended for patients at very high risk of ASCVD events, including patients with familial hypercholesterolemia who have not achieved adequate LDL-C lowering with statins alone. Despite guideline recommendations and clinical trial evidence to support the use of lipid-lowering therapies for ASCVD risk reduction, most patients at high or very high risk do not meet LDL-C thresholds. This review explores the challenges associated with LDL-C lowering in contemporary clinical practice and proposes a framework for rethinking the binary definition of ASCVD, shifting from "primary" versus "secondary" prevention to a "continuum of risk." The approach considers the role of plaque burden and progression in subclinical disease and emphasizes the importance of early risk assessment and treatment for preventing first cardiovascular events. Patients at high risk of ASCVD events who require significant LDL-C lowering should be considered for combination therapies comprising statin and nonstatin agents. Practical guidance for the pharmacological management of elevated LDL-C, both now and in the future, is provided.

Pharmacokinetics and pharmacodynamics of Abelacimab (MAA868), a novel dual inhibitor of Factor XI and Factor XIa.

BACKGROUND: Factor XI (FXI) inhibition offers the promise of hemostasis-sparing anticoagulation for the prevention and treatment of thromboembolic events. Abelacimab (MAA868) is a novel fully human monoclonal antibody that targets the catalytic domain and has dual activity against the inactive zymogen Factor XI and the activated FXI. OBJECTIVES: To investigate the safety, pharmacokinetics (PK), and pharmacodynamics (PD) of single dose intravenous and multiple dose subcutaneous administration of abelacimab in healthy volunteers and patients with atrial fibrillation, respectively. PATIENTS/METHODS: In study ANT-003, healthy volunteers were administered single intravenous doses of abelacimab (30-150 mg) or placebo. The ANT-003 study also included a cohort of obese but otherwise healthy subjects. In study ANT-004, patients with atrial fibrillation were administered monthly subcutaneous doses of abelacimab (120 mg and 180 mg), or placebo, for 3 months. Key PK and PD parameters, including activated partial thromboplastin time (aPTT) and free FXI levels, as well as anti-drug antibodies (ADA) were assessed. RESULTS: Following intravenous administration of abelacimab, the terminal elimination half-life ranged from 25 to 30 days. One hour after the start of the intravenous infusion greater than 99% reductions in free FXI levels were observed. Following once monthly subcutaneous administration, marked reductions from baseline in free FXI levels were sustained. Parenteral administration of abelacimab demonstrated a favorable safety profile with no clinically relevant bleeding events. CONCLUSIONS: Intravenous and multiple subcutaneous dose administration of abelacimab were safe and well tolerated. The safety, PK, and PD data from these studies support the clinical development of abelacimab.

The electrophysiological properties of ranolazine: a metabolic anti-ischemic drug or an energy-efficient antiarrhythmic agent?

Ranolazine, a newer anti-ischemic agent that appears to induce a more efficient utilization of adenosine triphosphate at the cellular level, has been shown to be clinically beneficial in patients with chronic stable angina. More recently, the antiarrhythmic effects of the drug have been described in patients with acute coronary syndromes, as well as in those with atrial fibrillation, when combined with other agents. Experimentally, the predominant inhibitory effects on late I(Na), I(Ca), I(Na-Ca), and I(Ks), with little or no effect on I(to) or I(K1), have been demonstrated. Different experimental models have shown the potential beneficial effect of the drug in both supraventricular and ventricular arrhythmias. Interestingly, despite its potential prolongation of the QT interval, ranolazine does not appear to induce ventricular arrhythmias in animal models. Whether the antiarrhythmic effect is secondary to a more efficient energy production by the cardiac cell or by its direct effect on ion channels is still unclear. The effect of ranolazine on other ionic currents, as well as its potential as a clinically relevant antiarrhythmic agent, still needs to be studied.

Serial magnetic resonance imaging detects a rapid reduction in plaque lipid content under PCSK9 inhibition with alirocumab.

PCSK9 inhibitors lower low-density lipoprotein cholesterol (LDL-C) and reduce cardiovascular events. The clinical benefits presumably result from favorable effects on atherosclerotic plaques. Lipid-core and plaque inflammation have been recognized as main determinants of risk for plaque rupture and cardiovascular events. Both can be noninvasively assessed with carotid MRI. We studied if PCSK9 inhibition with alirocumab induces regression in lipid-core or plaque inflammation within 6 months as measured by MRI. Patients with non-calcified carotid plaque(s) and baseline LDL-C ≥ 70 mg/dl, who were statin-intolerant or taking a low-dose statin (≤ 10 mg per day of atorvastatin or an equivalent), received subcutaneous alirocumab 150 mg every 2 weeks. Carotid MRI was performed at baseline and 6 months after treatment, including pre- and post-contrast images for measuring percent lipid-core volume (%LC) and dynamic contrast-enhanced images for measuring microvessel leakiness (Ktrans), a marker of inflammation. Twenty-eight patients completed the study (69 ± 9 years; 64% male). Alirocumab led to significant changes in LDL-C (p < 0.001) and high-density lipoprotein cholesterol (HDL-C) (p = 0.003). At 6 months, there was a significant reduction in %LC (mean: - 2.1% [- 3.5, - 0.7], p = 0.005; a 17% reduction from baseline of 9.9%) without significant changes in lumen/wall area or in the inflammatory index Ktrans. Carotid plaque lipid content was reduced by 17% after 6 months of PCSK9 inhibition with alirocumab. This was seen before observable changes in lumen or wall areas, which supports pursing plaque lipid content as a more sensitive marker of therapeutic response compared to lumen or wall areas in future technical developments and serial studies.