Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0948265 (metabolic syndrome)
 24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cardiovascular diseases (CVD) represent a significant health problem in all countries world-wide and in the developed world, including the Czech Republic, in particular. The underlying cause in the majority of CVD patients is atherosclerosis and its complications, respectively. The present paper focuses on prevention and timely treatment of atherosclerosis. Management should be comprehensive and should target the risk factors (RF). Hypertension, hyperlipoproteinaemia and dyslipidemia (HLP and DLP), type 2 diabetes mellitus (T2DM), visceral fat obesity and cigarette smoking are the dominating RFs. Even though all RFs have to be managed simultaneously and it is not possible to focus on just one of them, for the sake of clarity, this paper discusses hypertension and the use of telmisartan, a representative of one the most up-to-date group of antihypertensives. There is a growing evidence that it is not always just a reduction of a specific risk that is important but also the mode of treatment. For example, to reduce a CV risk in a patient with hypertension but also, for example, with metabolic syndrome, it is more beneficial to treat the patient with rennin-angiotensin system (RAS) blocking agents, possibly in a combination with calcium channels antagonists, than to use "traditional" (older) treatment approach with a combination of a beta/blocker and diuretic. Among the RAS-modifying agents, ACE inhibitors and sartans are the most widely used. Among sartans, telmisartan is very well-tolerated and has evidence from a large interventional study for its effect on reducing the CV risk.
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PMID:[Comprehensive management of cardiovascular risk. Focusing on telmisartan]. 2084 16

We shall open our overview of issues related to obesity and hyperlipoproteinemia (HLP) or dyslipidemia with a notoriously known truth (that some are still reluctant to accept): HLP/DLP is not obesity. It is certainly not possible to put an equal sign between subcutaneous fat and the level of plasma lipids and lipoproteins. On the other hand, it is obvious that there is a number of connecting links between HLP/DLP and obesity. These associations on one side and differences on the other are the focus of this review paper. (1) HLP/DLP as well as obesity represent a group of high incidence metabolic diseases (gradually evolving from epidemic to pandemic) that affect several tens of percent of inhabitants. (2) Both HLP/DLP and obesity often occur concurrently, often as a result of unhealthy lifestyle. However, genetic factors are also been studies and it is possible that mutual predispositions for the development of both diseases will be identified. At present, it is only possible to conclude that obesity worsens lipid metabolism in genetically-determined HLP. (3) Both these metabolic diseases represent a risk factor for other pathologies, cardiovascular diseases are the most important common complication of both conditions (central type of obesity only). Concurrent presence of HDL/DLP and obesity is often linked to other diagnoses, such as type 2 diabetes mellitus (DM2T), hypertension, pro-coagulation or pro-inflammatory states; all as part of so called metabolic syndrome. (4) Patients with metabolic syndrome and, mainly, central obesity usually have typical dyslipidemia with reduced HDL-cholesterol (HDL-C) and sometimes hypertriglyceridaemia. Current treatment of HDL/DLP aims to first impact on the primary aim, i.e. LDL-cholesterol (LDL-C), and than influence HDL-C. (5) It seems that the therapeutic efforts in HLP/DLP and obesity will go in the same direction. I will skip the trivial (and difficult to accept by patients) dietary changes. Pharmacotherapy, however, (very scarce with respect to obesity) may bring positive effects on lipids and BMI. Metformin used to be considered as a drug that could improve lipid profile and lead to body weight reduction. Even though larger studies did not provide an unambiguous evidence for this, metformin keeps its position as a first line oral antidiabetic (not only) in patients with T2DM, HLP and obesity. Positive effect on lipids, mainly HDL-C is reported with pioglitazone. This drug, unlike other glitazones, does not bring body weight reduction but at least does not have a negative effect. Other antidiabetics with a positive effect on lipids and body weight include incretins, liraglutid in particular. Liraglutid importantly decreases triglyceride levels and has anorectic effect. Furthermore, metabolic effects of bariatric surgery should not be overlooked. Bariatric surgery brings weight reduction as well as it improves lipid profile and compensation of diabetes mellitus (DM). It should be mentioned here that bariatric surgery has been used for the treatment of HLP as early as 1980s. The results of the 25-year follow up within the POSCH study (ideal bypass indicated for HLP), presented in 2010, confirm a decrease in overall as well as cardiovascular mortality in an operated group, even though patients who did not undergo surgery were significantly more frequently treated with statins.
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PMID:[Dyslipidemia and obesity 2011. Similarities and differences]. 2149 5

The examples from the history, as well as the recent view, clearly demonstrate a great change in the perception of hyperlipoprotienemias and dyslipidemias (HLP and DLP) at the end of 20th and at the beginning of 21st century. Our aim is not a complex overview about HLP and DLP. We just want to describe the changing position and importance of these diseases in clinical medicine. We will touch cardiology, angiology, but also diabetology, hepatology and gastroenterology (pancreas). HLP and DLP, which started as a research topic in laboratory became clinically interesting as risk factors of atherosclerosis. They are understood as epidemic occurrence diseases, also in connection with metabolic syndrome. However, some of them, e.g. familial chylomicronemia or homozygous familial hypercholesterolemia fulfill criteria of rare diseases.
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PMID:[Hyperlipoprotienemias and (not only) atherosclerosis: fragments from history and present]. 2921 34