Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Impairment of renal function, severe proteinuria and arterial hypertension are the strongest clinical predictors of an unfavorable outcome in IgA nephropathy (IgAN). Glomerulosclerosis and interstitial fibrosis are the most reliable histologic prognostic markers. Metabolic syndrome and insulin resistance probably affect the clinical course of the disease. Among the known gene polymorphism it seems that there is a link between the ACE gene D allele and the progression of IgAN. Elevated blood pressure should be actively treated. The target blood pressure is 130/80 mmHg or less and the goal should also be to reduce proteinuria. Several large-scale trials are currently testing corticosteroids and other drugs in the treatment of IgAN.
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PMID:Clinical course and treatment of IgA nephropathy. 1178 99

Overfeeding of rodents leads to increased local formation of angiotensin II due to increased secretion of angiotensinogen from adipocytes. Whereas angiotensin II promotes adipocyte growth and preadipocyte recruitment, increased secretion of angiotensinogen from adipocytes also directly contributes to the close relationship between adipose-tissue mass and blood pressure in mice. In contrast, angiotensin II acts as an antiadipogenic substance in human adipose tissue, and the total increase in adipose-tissue mass may be more important in determining human plasma angiotensinogen levels than changes within the single adipocyte. However, as increased local formation of angiotensin II in adipose tissue may be increased especially in obese hypertensive subjects, a contribution of the adipose-tissue renin-angiotensin system to the development of insulin resistance and hypertension is conceivable in humans, but not yet proven. Insulin resistance may be aggravated by the inhibition of preadipocyte recruitment, which results in the redistribution of triglycerides to the liver and skeletal muscle, and blood pressure may be influenced by local formation of angiotensin II in perivascular adipose tissue. Thus, although the mechanisms are still speculative, the beneficial effects of ACE-inhibition and angiotensin-receptor blockade on the development of type 2 diabetes in large clinical trials suggest a pathophysiological role of the adipose-tissue renin-angiotensin system in the metabolic syndrome.
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PMID:The adipose-tissue renin-angiotensin-aldosterone system: role in the metabolic syndrome? 1267 68

BACKGROUND AND THERAPY: The metabolic syndrome comprises a virulent and lethal group of atherosclerotic risk factors, including dyslipidemia, obesity, systemic hypertension and insulin resistance. The prevalence of the metabolic syndrome has continuously grown in industrialized and developing countries during the last decades, and affects tens of millions of people in Germany and Europe. Particularly prominent as a risk factor for the development of insulin resistance is central obesity, which is causally involved in the pathogenesis of insulin resistance in addition to genetic predisposition. The metabolic syndrome can easily be diagnosed in clinical practice (guidelines of the WHO and ATP III panel), and immediate treatment of the metabolic syndrome is mandatory because those patients are at increased risk to develop overt diabetes mellitus, coronary artery disease and stroke. The high risk for cardiovascular diseases is supported by findings that the risk for myocardial infarction in patients with insulin resistance is as high as the risk of patients after their first myocardial infarction. Intentional weight reduction reduces abdominal obesity and beneficially modulates all features of the metabolic syndrome, while the benefits of aerobic exercise training are discussed controversially. Thus, weight reduction causally undoes essential features of the metabolic syndrome, but effects are often not enduring. Therefore, the treatment of cardiovascular risk factors such as hypertension and dislipidemia is essential. Of note, antihypertensive treatment is more effective than tight glucose control to reduce cardiovascular events. Diuretics, ACE-inhibitors and angiotensin II type 1 receptor antagonists are suggested as first line therapeutics. However, at least two antihypertensives are usually necessary to achieve the suggested goals of blood pressure reduction. In conclusion, the prevalence of the metabolic syndrome is continuously growing. Due to its adverse impact on cardiovascular disease, early detection and aggressive treatment is mandatory to ensure longlasting benefits for affected patients.
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PMID:[Arterial hypertension and metabolic syndrome]. 1468 1

With the increased attention being given to cardiovascular risk factor reduction, the opportunity exists to substantially decrease the largest cause of mortality in diabetic patients. The concept that type 2 diabetes and CVD are linked via a common etiologic pathway (metabolic syndrome) has substantial ramifications for the care of individual patients. Many of the metabolic abnormalities that contribute to both glycemic disorders and CVD are interrelated. For example, hyperinsulinemia and insulin resistance coupled with abdominal obesity further worsens HTN and hyperlipidemia. Likewise, the procoagulant state and endothelial dysfunction increase with worsening glycemic control. Specific interventions include tobacco cessation, a food management and physical activity plan, choice of antidiabetic agent (such as metformin), and use of ACE inhibitors for hypertension and microalbuminuria (Table 5). Programs to enhance cardiovascular risk factor reduction as part of the comprehensive evaluation and management of diabetic patients have been described [95,99]. One community-based program provided free screening to diabetic patients with randomization to either annotated result reports provided to the patient and their physician or results provided by a project nurse (either face-to-face or over the phone). Greater improvements in mean glycohemoglobin, cholesterol, and blood pressure were noted with verbal presentation of results [99]. Recent data from the Centers for Disease Control and Prevention Diabetes Cost-effectiveness Group support the idea that interventions to decrease CVD in diabetics are economically beneficial. Intensive management of hypertension, glycemic control, and hyperlipidemia each improved health outcomes. Hypertension control reduced costs. Although intensive treatment of glucose and hyperlipidemia increased costs, the increase was comparable to that of other frequently used health care interventions [100]. Further directions include further exploration of the implications and management of metabolic syndrome as it relates to CVD prevention. Interventions such as exercise, which can impact on all outcomes, require special attention. Efforts by physicians, health systems, and society are necessary to increase physical activity for individuals of all ages. It makes clinical sense that the recommendations for prevention of CVD in diabetics described in this article may also benefit patients with prediabetes (fasting glucose 110-125 mg/dl), but this remains to be definitively shown.
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PMID:Preventing cardiovascular disease in diabetes and glucose intolerance: evidence and implications for care. 1469 2

Centrally acting imidazoline I(1)-receptor agonists such as moxonidine and rilmenidine induce peripheral sympathoinhibition via the stimulation of hypothetical I(1)-receptors in the rostral ventrolateral medulla. Because of a rather weak affinity for alpha(2)-adrenoceptors, the use of these agents is associated with a lower incidence of adverse reactions, such as sedation and dry mouth, compared with classic centrally acting alpha(2)-adrenoceptor agonists (clonidine, guanfacine, methyldopa). The antihypertensive efficacy of moxonidine and rilmenidine is well documented, and they display a favorable hemodynamic profile. Their tolerability is better than that of the aforementioned centrally acting antihypertensive agents. However, long-term outcome data for moxonidine and rilmenidine are not available, and neither is a quantitative evaluation of their adverse effects. There exists some uncertainty with respect to the identity of the imidazoline I(1)-receptor, which has so far not been cloned. Furthermore, it would be desirable to develop highly selective I(1)-receptor agonists as successor drugs to moxonidine and rilmenidine. Although available data indicate that I(1)-receptor agonists are effective in patients with hypertension, comparative data versus agents such as beta-blockers, diuretics, calcium channel antagonists and ACE inhibitors are required to establish their position in the treatment of hypertension. Finally, I(1)-receptor agonists have potential in the treatment of patients with CHF and those with the metabolic syndrome; syndrome X.
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PMID:Centrally acting imidazoline I1-receptor agonists: do they have a place in the management of hypertension? 1472 14

Insulin resistance plays an important role in the pathogenesis of metabolic syndrome and hence an improvement of insulin resistance is important in the treatment of metabolic syndrome. Oral hypoglycemic agents such as thiazolidinediones and biguanides improve glycemic control by reducing insulin resistance. Furthermore, it has been clarified that they also have anti-dyslipidemic, anti-hypertensive and anti-atherosclerotic actions. In addition, such an insulin sensitizing effect has been demonstrated when alpha-glucosidase inhibitors, statins, fibrates and hypotensive agents such as ACE inhibitors, calcium channel blockers and ARBs have been given to patients with insulin resistance. These drugs should be used for each patient on the basis of the underlying diseases, in addition to a lifestyle modification.
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PMID:[Total care for patients with metabolic syndrome]. 1520 58

Moxonidine is a centrally active imidazoline receptor agonist that effectively lowers blood pressure and has been shown to have beneficial effects on lipid and carbohydrate metabolism. We assessed the efficacy of moxonidine in a postmarketing surveillance study (CAMUS) conducted in 772 practices in Germany, documenting 4005 patients with hypertension, who were overweight and/or suffered from metabolic syndrome. Patients were treated with moxonidine (Cynt) for the first time following the baseline visit for 8 weeks. Mean blood pressure decreased from 168/97 to 141/83 mmHg for all patients and from 168/96 to 141/83 mmHg for patients with metabolic syndrome. Blood pressure reduction was particularly pronounced in patients with severe hypertension at baseline. The response rate (DBP< or =90 mmHg or reduction > or =10 mmHg) of antihypertensive treatment with moxonidine was 94.0% for all patients and 93.8% for patients with metabolic syndrome. The recommended targets for antihypertensive treatment of the German Diabetes Society/German Hypertension Society were reached by 30.5% of nondiabetics (goal: <140/90 mmHg) and by 3.6% of diabetics (goal: <130/80 mmHg) observed. After 8 weeks of treatment, patients achieved a mean weight loss of 1.4 kg, which was particularly pronounced in obese patients. The rate of patients receiving antihypertensive combination therapy was 81.1% for those with metabolic syndrome, and 63.3% for all other patients. Patients with metabolic syndrome were preferentially treated with ACE inhibitors and diuretics. We conclude that moxonidine effectively reduces blood pressure in patients with metabolic syndrome while simultaneously reducing body weight in obese patients.
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PMID:Moxonidine in the treatment of overweight and obese patients with the metabolic syndrome: a postmarketing surveillance study. 1526 5

The antihypertensive agents of first choice include ACE-inhibitors, angiotensin receptor blockers, beta blockers, calcium antagonists and diuretic agents. For the selection of medicaments, the individual patient risk profile of decisive importance. In particular a metabolic syndrome, diabetes mellitus, disturbed renal function and/or a disturbed electrolyte household must be considered. For initial treatment monotherapy or a low-dose combination regime is suggested. If the response is inadequate, possible options include increasing the dose, changing the medicament, (sequential monotherapy) or, in the sense of stepped treatment, introduction of further combination drugs. Resistance to therapy should prompt consideration of a number of causes, in particular noncompliance on the part of the patient.
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PMID:[Medical treatment of hypertension--what treatment for what patients?]. 1537 6

There are a total of 17 families of drugs that are used for treating the heterogeneous group of cardiovascular diseases. We propose a comprehensive pharmacogenomic approach in the field of cardiovascular therapy that considers the five following sources of variability: the genetics of pharmacokinetics, the genetics of pharmacodynamics (drug targets), genetics linked to a defined pathology and its corresponding drug therapies, the genetics of physiologic regulation, and environmental-genetic interactions. Examples of the genetics of pharmacokinetics are presented for phase I (cytochromes P450) and phase II (conjugating enzymes) drug-metabolizing enzymes and for phase III drug transporters. The example used to explain the genetics of pharmacodynamics is glycoprotein IIIa and the response to antiplatelet effects of aspirin. Genetics linked to a defined pathology and its corresponding drug therapies is exemplified by ADRB1, ACE, CETP and APOE and drug response in metabolic syndrome. The examples of cytochrome P450s, APOE and ADRB2 in relation to ethnicity, age and gender are presented to describe genetics of physiologic regulation. Finally, environmental-genetic interactions are exemplified by CYP7A1 and the effects of diet on plasma lipid levels, and by APOE and the effects of smoking in cardiovascular disease. We illustrate this five-tiered approach using examples of cardiovascular drugs in relation to genetic polymorphism.
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PMID:Pharmacogenomics and drug response in cardiovascular disorders. 1546 3

To compare effects of antihypertensive and combined therapy on 24-hour blood pressure, biochemical parameters and chronic hyperinsulinemia in patients with metabolic syndrome. 54 patients with metabolic syndrome were observed during 8 weeks. 28 patients (group A) were treated with antihypertensive agents (calcium antagonists, and when required -- ACE inhibitors and diuretics). 26 patients (group B) received the same therapy plus metformin. There were no significant changes in parameters of lipid and carbohydrate metabolism in group A. In group B we found significant decrease in C-peptide (p<0.05) and triglyceride (p<0.1) levels and increase in high density lipoprotein cholesterol levels (p<0.01). The combined antihypertensive and metformin therapy has a significant effect on carbohydrate and lipid metabolism.
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PMID:[Assessment of efficacy of combined therapy with antihypertensive agents and biguanides in patients with metabolic syndrome]. 1547 88


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