Hyperlipidemias: Daskalopoulou SS

Daskalopoulou SS, Mikhailidis DP. · No affiliation provided · Curr Med Res Opin. · Pubmed #17022863 No free full text.

Abstract: Recent guidelines recommend strict goals for low density lipoprotein cholesterol (LDL-C) (70-100 mg/dL; 1.8-2.6 mmol/L). These goals were set following the publication of several trials. In the current issue of the journal, a study compares different doses of the combination tablet (ezetimibe/simvastatin) with statin monotherapy (rosuvastatin). In keeping with previous literature, the combination therapy was more effective in achieving LDL-C goals. This editorial comments on the potential disadvantages of using monotherapy with high-dose statins and considers the issue of statin-induced proteinuria. Combination therapy may need to be increasingly used to achieve the LDL-C targets set by recent guidelines.

Daskalopoulou SS, Daskalopoulos ME, Mikhailidis DP, Liapis CD. · Department of Medicine, Division of Clinical Epidemiology, McGill University, Montreal, Quebec, Canada. · Curr Drug Targets. · Pubmed #17430127 No free full text.

Abstract: Peripheral arterial disease (PAD) is a common disorder usually associated with silent or symptomatic arterial disease elsewhere in the circulation and a "cluster" of cardiovascular risk factors (e.g. smoking, dyslipidemia, hypertension, and insulin resistance/diabetes mellitus). The medical management of PAD should focus on both the relief of symptoms and prevention of secondary cardiovascular complications. This approach must include smoking cessation, optimal cholesterol levels, blood pressure and glycemic control as well as prescribing antiplatelet therapy. This review focuses on the evidence supporting the use of lipid-lowering drugs in PAD. Several trials indicate that getting low density lipoprotein-cholesterol levels to target (<2.6 mmol/l; 100 mg/dl), or even lower, is associated with improvement of symptoms and a reduction in vascular events in patients with PAD.

Kolovou GD, Anagnostopoulou KK, Salpea KD, Daskalopoulou SS, Mikhailidis DP. · Cardiology Department, Onassis Cardiac Surgery Center, Athens, Greece. · Curr Drug Targets. · Pubmed #17430126 No free full text.

Abstract: Several studies showed that postprandial plasma triglyceride (TG) concentrations are higher in patients with coronary heart disease. TG-rich lipoprotein remnants accumulated in the postprandial state are involved in atherogenesis and in events leading to thrombosis. Lipid lowering drugs, such as 3-hydroxy-3-methylglutaryl-CoA reductase inhibitors (statins) are of significant benefit in the primary and secondary prevention of atherosclerosis. Statins can decrease total cholesterol and low density lipoprotein cholesterol as well as TG concentrations and improve postprandial lipoprotein metabolism. Since abnormal postprandial lipemia is associated with pathological conditions, its treatment is relevant. This review considers the effect of statins on postprandial lipemia.

Daskalopoulou SS, Mikhailidis DP. · Department of Clinical Biochemistry, Royal Free Hospital, Royal Free and University College School of Medicine, London NW3 2QG, UK. · Curr Med Res Opin. · Pubmed #16574035 No free full text.

Abstract: Lowering serum cholesterol levels reduces the risk of coronary heart disease (CHD)-related events. Statins are commonly prescribed as first-line treatment but many patients at high-risk for CHD still fail to reach their cholesterol or low-density lipoprotein cholesterol (LDL-C) goals with statin monotherapy. National and international guidelines for the prevention of CHD recommend the modification of lipid profiles and particularly LDL-C [e.g. the National Cholesterol Education Program Adult Treatment Panel III (NCEP ATP III; 2001) and Third Joint Task Force of European and other Societies on Cardiovascular Disease Prevention in Clinical Practice (2003) Guidelines]. Several recent clinical trials indicated an added benefit from aggressive lowering of LDL-C levels. Based on these findings, the NCEP ATP III revised the LDL-C target from < 100 mg/dL (2.6 mmol/L) to < 70 mg/dL (1.8 mmol/L) (optional target) for very high-risk patients and < 130 mg/dL (3.4 mmol/L) to < 100 mg/dL (2.6 mmol/L) for moderately high-risk patients. For patients who fail to achieve their LDL-C target, inhibiting the two main sources of cholesterol - synthesis and uptake - can produce more effective lipid lowering, allowing more patients to reach their LDL-C goal. Ezetimibe is a highly-selective inhibitor of cholesterol absorption and simvastatin is an evidence-based inhibitor of cholesterol synthesis. The LDL-C-lowering efficacy of targeting both major sources of cholesterol with ezetimibe plus simvastatin was demonstrated in several multicentre, double-blind, placebo-controlled trials in patients with hypercholesterolaemia. For patients who do not reach their cholesterol goal with a statin, adding ezetimibe 10 mg significantly reduces LDL-C compared with statin monotherapy. Thus, this treatment option may help patients reach the new 'stricter' cholesterol goals. This review, based on a Medline database search from January 2000 to August 2005, considers the LDL-C-lowering efficacy of ezetimibe and discusses the role of this agent for patients who fail to achieve guideline cholesterol goals with statin monotherapy.

Kolovou GD, Anagnostopoulou KK, Daskalopoulou SS, Mikhailidis DP, Cokkinos DV. · Cardiology Department, Onassis Cardiac Surgery Center, Athens, Greece. · Curr Med Chem. · Pubmed #16101498 No free full text.

Abstract: Several studies showed that after a fatty meal, plasma triglyceride (TG) levels are higher in patients with coronary heart disease. This abnormality may explain why some individuals develop atherosclerotic disease despite normal fasting lipid values. TG-rich lipoproteins are involved in atherosclerosis and thrombosis. TG, remnant-like particle (RLP) cholesterol (RLP-C) and RLP-TG increase after fat load and could contribute to atherothrombosis. Postprandial lipaemia is not a uniform abnormality. Its pathophysiology is not yet entirely clarified; possibly, the response to dietary fat is a polygenic phenomenon. However, a link with insulin resistance is likely; this link as well as that with obesity is discussed. A substantial part of life is spent in the postprandial state. Therefore, several investigators described fat load tests. However, it is still difficult to establish normal postprandial TG ranges since only small numbers of subjects were studied and there is as yet no standardised method. A more simplified fat load test should be established for 'routine' use. In this review, we consider the metabolic features, prevalence and management of postprandial lipaemia. Treatment may involve lifestyle measures as well as the use of lipid lowering (e.g. fibrates or statins), weight reducing and hypoglycaemic drugs.

Liberopoulos EN, Daskalopoulou SS, Mikhailidis DP, Wierzbicki AS, Elisaf MS. · Department of Internal Medicine, Medical School, University of Ioannina, Greece. · Curr Med Res Opin. · Pubmed #15801994 No free full text.

Abstract: BACKGROUND: Statin therapy has been shown to significantly decrease vascular events and overall mortality in primary and secondary prevention trials. This review considers the pharmacology, nonlipid-lowering effects and clinical trial evidence of fluvastatin based on a survey of PubMed entries. FINDINGS: Recent clinical data show that treatment with fluvastatin is associated with a variety of benefits in different high-risk populations along with a good safety profile. Fluvastatin exerts non-lipid lowering-associated pleiotropic effects in both clinical and experimental studies. Furthermore, an extended-release formulation of fluvastatin with a favourable pharmacokinetic profile is available. CONCLUSION: Treatment with fluvastatin offers a convenient, safe and evidence-based approach to managing dyslipidaemias and preventing vascular events.

Daskalopoulou SS, Mikhailidis DP, Elisaf M. · Department of Clinical Biochemistry (Vascular Disease Prevention Clinics), Royal Free Hospital, London, UK. · Angiology. · Pubmed #15547646 No free full text.

Abstract: The prevalence of the metabolic syndrome is increasing owing to lifestyle changes leading to obesity. This syndrome is a complex association of several interrelated abnormalities that increase the risk for cardiovascular disease and progression to diabetes mellitus (DM). Insulin resistance is the key factor for the clustering of risk factors characterizing the metabolic syndrome. The National Cholesterol Education Program (NCEP) Adult Treatment Panel (ATP) III defined the criteria for the diagnosis of the metabolic syndrome and established the basic principles for its management. According to these guidelines, treatment involves the improvement of the underlying insulin resistance through lifestyle modification (eg, weight reduction and increased physical activity) and possibly by drugs. The coexistent risk factors (mainly dyslipidemia and hypertension) should also be addressed. Since the main goal of lipid-lowering treatment is to achieve the NCEP low-density lipoprotein cholesterol (LDL-C) target, statins are a good option. However, fibrates (as monotherapy or in combination with statins) are useful for the treatment of the metabolic syndrome that is commonly associated with hypertriglyceridemia and decreased high-density lipoprotein cholesterol (HDL-C) levels. The blood pressure target is < 140/90 mm Hg. The effect on carbohydrate homeostasis should possibly be taken into account in selecting an antihypertensive drug. Patients with the metabolic syndrome commonly have other less well-defined metabolic abnormalities (eg, hyperuricemia and raised C-reactive protein levels) that may also be associated with an increased cardiovascular risk. It seems appropriate to manage these abnormalities. Drugs that beneficially affect carbohydrate metabolism and delay or even prevent the onset of DM (eg, thiazolidinediones or acarbose) could be useful in patients with the metabolic syndrome. Furthermore, among the more speculative benefits of treatment are improved liver function in nonalcoholic fatty liver disease and a reduction in the risk of acute gout.

Athyros VG, Mikhailidis DP, Papageorgiou AA, Bouloukos VI, Pehlivanidis AN, Symeonidis AN, Kakafika AI, Daskalopoulou SS, Elisaf M. · Atherosclerosis Unit, Aristotelian University, Hippocration Hospital, 49 Konstantinoupoleos St, Thessaloniki, 546 42, Greece. · Platelets. · Pubmed #15823861 No free full text.

Abstract: DECLARATION OF INTEREST: The GREACE study was conducted independently; no Company or Institution has supported it financially. Some of the authors have attended conferences and participated in other trials sponsored by various pharmaceutical companies.We assessed the possible 'synergy' of statins and aspirin (ASA) in reducing vascular events in patients with coronary heart disease, in a post hoc analysis of the GREek Atorvastatin and Coronary-heart-disease Evaluation (GREACE) study. All patients (n = 1600) were divided into four groups according to long-term treatment: Group A (n = 787; statin + ASA), B (n = 93; statin - no ASA), C (n = 599; no statin - on ASA) and D (n = 121; no statin - no ASA). From all patients 692 were either on a statin or ASA monotherapy (Groups B + C). Relative risk reductions (RRRs) in 'all events' (primary endpoint) between groups were assessed. During the 3-year follow-up there were 292 cardiovascular events; 92 (12% of patients) in Group A, 14 (15%) in group B, 144 in Group C (24%) and 42 events in Group D (35%). The total number of events in Group B + C was 158 (23%). The RRRs in the primary endpoint were: Group A versus B 24% (P = 0.1912), A versus C 51% (P < 0.0001), A versus B + C 49% (P < 0.0001) and A versus D 71% (P < 0.0001). The RRRs in Group B versus C was 36% (P = 0.0431) and B versus D 57% (P = 0.0012), while in C versus D 33% (P = 0.0084). Our findings show that statins and ASA have an additive effect in reducing cardiovascular events. Aggressive statin use in the absence of ASA also substantially reduced cardiovascular events. Treatment with ASA in the absence of statin use reduced clinical events in comparison to patients not treated with either drug.

Athyros VG, Mikhailidis DP, Papageorgiou AA, Symeonidis AN, Daskalopoulou SS, Kakafika AI, Pehlivanidis AN, Bouloukos VI, Langer A, Anonymous00343. · Atherosclerosis Unit, Aristotelian University, Hippocration Hospital, Thessaloniki, Greece. · Curr Med Res Opin. · Pubmed #15383187 No free full text.

Abstract: BACKGROUND: Although available guidelines suggest reducing low-density lipoprotein cholesterol (LDL-C) to below 100 mg/dL (2.6 mmol/L), the importance of target-oriented therapy remains controversial. To assess whether achieving guideline-based targets is of benefit, the relationship between clinical outcomes and lipid levels (baseline and on-study) was evaluated in the GREek Atorvastatin and Coronary-heart-disease Evaluation (GREACE) study. This study demonstrated significant reductions in morbidity and mortality associated with active dose titration of atorvastatin and structured management of dyslipidaemia. METHODS AND RESULTS: Intention-to-treat analysis (Cox proportional hazards model) was used to assess the relationship between lipid values and coronary events. Higher levels of LDL-C at baseline were associated with a greater risk of subsequent events among patients randomized to usual care. Reducing the LDL-C and the non-high density lipoprotein cholesterol (non-HDL-C) level to the National Cholesterol Educational Program (NCEP) Adult Treatment Panel (ATP) III goals required greater doses of atorvastatin for the higher baseline quartile of LDL-C. During the study there was a greater reduction in the risk of coronary heart disease (CHD) events in atorvastatin-treated patients who were in the highest quartile of LDL-C at baseline, after achieving the LDL-C treatment goal, in comparison to the usual care patients in the highest baseline LDL-C quartile. CONCLUSIONS: Achieving the NCEP ATP III LDL-C and non-HDL-C goals by titrating up the dose of atorvastatin was associated with a significant reduction in vascular events in patients with CHD. The greatest benefit was seen in those patients with the highest baseline LDL-C levels.

Gazi IF, Daskalopoulou SS, Nair DR, Mikhailidis DP. · Department of Clinical Biochemistry (Vascular Disease Prevention Clinics), Royal Free Hospital (and University College of Medicine), London, UK. · Curr Med Res Opin. · Pubmed #17692154 No free full text.

Abstract: BACKGROUND: Recent guidelines underline the need for high-risk patients to reach strict low density lipoprotein cholesterol (LDL-C) targets (1.8-2.6 mmol/L; 70-100 mg/dL), and specifically mention the possible use of combination therapy (e.g.statin + ezetimibe) to achieve these goals. METHODS: A retrospective case-note audit was carried out to assess the response to administering ezetimibe in patients unable to tolerate statins (Group 1), or high dose of statins (Group 2) and patients who cannot achieve the LDL-C target (2.6 mmol/L; 100 mg/dL) despite taking a statin (Group 3). RESULTS: Ezetimibe lowered LDL-C levels by 20-29% across the 3 patient groups after 2-3 months of treatment. High density lipoprotein cholesterol (HDL-C) levels tended to remain unchanged, although there was a consistent trend for a fall if baseline values were 'high'. However, the LDL-C/HDL-C ratio changed significantly and favourably in all groups. The fall in fasting triglyceride levels in all groups was greater (reaching 19-25%) when baseline levels were > or = 1.5 or 1.7 mmol/L (136-150 mg/dL). There were no marked abnormalities in liver function tests or creatine kinase activity. In Group 3 there was a significant trend for a fall in serum creatinine levels across the tertiles of baseline creatinine values. Limitations of the present study include the small sample size (especially in Groups 1 and 2), its short-term duration and the absence of event-based end-points. Therefore, the results are hypothesis-generating rather than conclusive. CONCLUSIONS: When used alone or added to a statin, ezetimibe favourably altered the LDL-C/HDL-C ratio and lowered triglyceride levels. Ezetimibe was well tolerated in patients with statin intolerance and was associated with a 26% fall in LDL-C. An additional action may be some degree of improved renal function. Further studies are needed to confirm these findings.

Mikhailidis DP, Wierzbicki AS, Daskalopoulou SS, Al-Saady N, Griffiths H, Hamilton G, Monkman D, Patel V, Pittard J, Schachter M. · Dept Clinical Biochemistry (Vascular Disease Prevention Clinics) Royal Free Hospital, Royal Free & University College Medical School, London, UK. · Curr Med Res Opin. · Pubmed #15969896 No free full text.

Abstract: There is no doubt that lowering serum cholesterol levels reduces the risk of major coronary events. This evidence has led treatment guidelines to set progressively lower targets for low density lipoprotein cholesterol (LDL-C). However, despite widespread use of statins, substantial numbers of patients do not achieve the LDL-C goals. Using higher doses of statins in an attempt to achieve these targets may increase the risk of serious adverse effects. Furthermore, the use of combination therapy with agents such as bile acid sequestrants, niacin and fibrates has been limited by increased potential for side effects, drug interactions and poor compliance. Ezetimibe, a selective cholesterol transport inhibitor, reduces the intestinal uptake of cholesterol without affecting absorption of triglycerides or fat-soluble vitamins. In clinical studies, ezetimibe 10 mg, in combination with statins or as monotherapy, was well tolerated and reduced LDL-C by 34-53% and 17-18%, respectively. The available evidence for ezetimibe is reviewed. The role of ezetimibe in increasing the proportion of patients attaining LDL-C treatment goals is discussed.

Daskalopoulou SS, Athyros VG, Hamilton G, Mikhailidis DP. · Department of Clinical Biochemistry, Royal Free and University College Medical School, London, United Kingdom. · J Cardiovasc Pharmacol Ther. · Pubmed #15965566 No free full text.

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Daskalopoulou SS, Daskalopoulos ME, Mikhailidis DP, Liapis CD. · No affiliation provided · Int Angiol. · Pubmed #16355101 No free full text.

This publication has no abstract.