Hypercholesterolemia and Dyslipidemia

The Effects of Resveratrol in Patients with Cardiovascular Disease and Heart Failure: A Narrative Review

Cardiovascular disease (CVD) is the main cause of death globally and responsible for the second highest number of deaths in Canada. Medical advancements in the treatment of CVD have led to patients living longer with CVD but often progressing to another condition called heart failure (HF). As a result, HF has emerged in the last decade as a major medical concern. Fortunately, various “traditional” pharmacotherapies for HF exist and have shown success in reducing HF-associated mortality. However, to augment the treatment of patients with CVD and/or HF, alternative pharmacotherapies using nutraceuticals have also shown promise in the prevention and treatment of these two conditions. One of these natural compounds considered to potentially help treat HF and CVD and prevent their development is resveratrol. Herein, we review the clinical findings of resveratrol’s ability to be used as an effective treatment to potentially help treat HF and CVD. This will allow us to gain a more fulsome appreciation for the effects of resveratrol in the health outcomes of specific patient populations who have various disorders that constitute CVD.

Apolipoprotein A-V gene therapy for disease prevention / treatment: a critical analysis

Apolipoprotein (apo) A-V is a novel member of the class of exchangeable apo's involved in triacylglycerol (TG) homeostasis. Whereas a portion of hepatic-derived apoA-V is secreted into plasma and functions to facilitate lipoprotein lipase-mediated TG hydrolysis, another portion is recovered intracellularly, in association with cytosolic lipid droplets. Loss of apoA-V function is positively correlated with elevated plasma TG and increased risk of cardiovascular disease. Single nucleotide polymorphisms (SNP) in the APOA5 locus can affect transcription efficiency or introduce deleterious amino acid substitutions. Likewise, rare mutations in APOA5 that compromise functionality are associated with increased plasma TG and premature myocardial infarction. Genetically engineered mouse models and human population studies suggest that, in certain instances, supplementation with wild type (WT) apoA-V may have therapeutic benefit. It is hypothesized that individuals that manifest elevated plasma TG owing to deleterious APOA5 SNPs or rare mutations would respond to WT apoA-V supplementation with improved plasma TG clearance. On the other hand, subjects with hypertriglyceridemia of independent origin (unrelated to apoA-V function) may not respond to apoA-V augmentation in this manner. Improvement in the ability to identify individuals predicted to benefit, advances in gene transfer technology and the strong connection between HTG and heart disease, point to apoA-V supplementation as a viable disease prevention / therapeutic strategy. Candidates would include individuals that manifest chronic TG elevation, have low plasma apoA-V due to an APOA5 mutation/polymorphism and not have deleterious mutations/polymorphisms in other genes known to influence plasma TG levels.

Sophisticated tests for susceptibility to atherosclerosis: an added value for heart hospitals

Coronary atherosclerosis is the result of multiple complex metabolic disorders acting alone or in combination. Metabolic cardiology has advanced considerably in the past decade and now offers cardiologists a sophisticated approach to treating the underlying cause(s) of coronary artery disease in patients seen in invasive cardiology practices. Disorders which have now been powerfully linked to coronary artery disease include the small low-density lipoprotein trait, impaired reverse cholesterol transport, homocysteinemia, insulin resistance, aspects of inflammation, and infectious burden. These disorders are common and alone, or in combination, are found in over 90% of patients with coronary artery disease. Treatments for these disorders are well elucidated and have been associated with cardiovascular benefit. Incorporation of a sophisticated metabolic atherosclerosis management unit into existing invasive cardiology practices offers the cardiologist and patient many benefits. The cardiologist obtains a powerful tool that complements invasive cardiology, provides patients with access to cutting-edge diagnosis and treatment, and provides a forum that allows incorporation of clinically valid advances in metabolic cardiovascular care in a time frame far shorter than the traditional consensus recommendation approach. Incorporation of such a clinical service is consistent with the recent American College of Cardiology focus on the "CardioTeam."

Thinking intelligently about therapy of atherosclerosis

Atherosclerosis is a very complex disease. Although it is thought that hyperlipidemia, dyslipidemia, and other conditions such as high blood pressure are mainly responsible for the development of atherosclerosis, many other factors such as endothelial dysfunction and inflammation play a significant role in its pathology. The clinicians should be aware of all the contributing factors to optimize the therapy for atherosclerosis. A combination of lifestyle modification, nutritional measures, and pharmacological intervention with statins or fibrates would achieve good results if the treatment of atherosclerosis were pursued vigorously. In the presence of hypertension, the use of angiotensin-converting enzyme inhibitors and calcium channel blockers would be more appropriate.

Small LDL and its clinical importance as a new CAD risk factor: a female case study

The underlying metabolic cause of coronary heart disease in many patients is not high blood cholesterol. In fact, the Framingham study has reported that 80% of individuals who go on to have coronary artery disease have the same total blood cholesterol values as those who do not go on to have a cardiovascular event. The most common metabolic contributor to coronary artery disease is the atherogenic lipoprotein profile, characterized by an abundance of highly atherogenic small, dense low-density lipoprotein particles and a deficiency of the high-density lipoprotein (HDL) subtype most associated with coronary artery disease protection (HDL(2b)). This trait is present in 50% of men with coronary artery disease and is not reflected by total or low-density lipoprotein cholesterol values. While fasting triglycerides tend to he higher, and HDL cholesterol lower in patients with the atherogenic lipoprotein profile, the majority have triglyceride and HDL cholesterol values generally accepted to be in the "normal" range. An abundance of basic science and clinical trial evidence convincingly indicates that the presence of an atherogenic lipoprotein profile signifies a three-fold increased risk for a cardiovascular event and rapid arteriographic progression, but it also identifies a group of patients who respond particularly well to specific therapeutic interventions. Often the most effective interventions are the least expensive.