Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011860 (type 2 diabetes)
 57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As monotherapy, metformin is similar to the sulphonylureas, in improving both fasting and post-prandial plasma glucose levels by approx. 25-30%. Metformin, unlike the sulphonylureas, does not promote insulin secretion and does not cause weight gain and is therefore preferable in obese NIDDM. Metformin is also of benefit as combined therapy with a sulphonylurea, and in older subjects the two drugs may give as good glycaemic control as insulin. Lactic acidosis with metformin is less common than sulphonylurea-induced hypoglycaemia although the mortality risk is similar. However, where both groups of drugs are properly used clinically, serious side-effects are unusual. Metformin may have a potential advantage in the management of NIDDM with hyperinsulinaemia in that it does not increase insulin levels. Where insulin levels have been compared in the same type II patients, metformin can achieve similar glycaemic control as a sulphonylurea (gliclazide) but with significantly lower plasma insulin levels.
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PMID:Management of type 2 diabetes mellitus with special reference to metformin therapy. 193 75

The therapeutic potential of sodium dichloroacetate (DCA) formerly called vitamin B 15, has already been under investigation for the past few years. The predominant property of DCA underlying its therapeutic action is activation of pyruvate dehydrogenase. The potential therapeutic use of DCA in the treatment of lactic acidosis and type II diabetes mellitus related directly to its stimulatory effect on this enzyme. Additional favourable effects of DCA on cardiac performance in states such as ischaemia, where glucose becomes a major energy-yielding substrate, have also been demonstrated. Treatment of lipid disorders might become further indications for the implementation of this substance. DCA inhibits hydroxy-methyl-glutaryl CoA reductase, thus lowering cholesterol and triglyceride levels. Earlier suggestions that DCA produced a major degree of acute toxicity were not confirmed in recent studies using DCA of established purity and homogeneity. These findings and recent evidence suggesting a potentially important role of DCA in the treatment of lactic acidosis are the reason and basis for a review of the established actions of this substance.
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PMID:[Sodium dichloroacetate--a substance with manifold therapeutic potential]. 218 Feb 10

Lactic acidosis is a metabolic disturbance characterized by an increase of the production/clearance ratio of lactate. Lactate is a catabolite of glycolysis when this takes place under anaerobic conditions. Clinically LA is characterized by: signs of acidosis, venous blood lactate greater than 5 mMol/l, arterial pH less than 7.25. LA is classified in type A, due to shock, and type B which, in turn, can be divided according to its pathogenesis in B1 correlated to particular pathologies, B2 due to exogenous substances and B3 caused by congenital metabolic diseases. LA is of particular interest in type II diabetes mellitus treated by phenformin. Current therapeutic directions, although suboptimal, are: to eliminate the causes of lactate hyperproduction by maintaining a sufficient efficiency of the cardio-vascular apparatus, to correct acidosis by using alkalinizing solutions, to remove pharmacologically or by dialysis the excess of lactate.
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PMID:[Lactic acidosis]. 301 83

The hyperglycaemia of NIDDM is associated with insulin resistance due, in part, to reduced insulin receptor binding and more especially postreceptor defects. Metformin is an antihyperglycaemic agent which can be used to ameliorate insulin resistance. It appears to act directly on insulin target cells to enhance insulin action. Although metformin may increase insulin-receptor binding, its main effect appears to be directed at the postreceptor level of insulin action. Accordingly the drug potentiates insulin-suppression of hepatic gluconeogenesis and increases insulin-mediated peripheral glucose uptake and metabolism. It does not stimulate insulin release, does not cause weight gain and does not cause clinical hypoglycaemia. The risk of lactate accumulation should be appreciated in patients with renal insufficiency, liver dysfunction and following acute illness with hypoxia, when therapy should be stopped. Although metformin is often bracketed with phenformin in the context of lactic acidosis, different pharmacodynamics and adherence to prescribing guidelines render such a comparison unwarranted.
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PMID:Treatment--metformin. 307 2

A mixed metabolic alkalosis and metabolic acidosis, resulting in an alkalemic state, occurred in a hyperlipemic patient with previously diagnosed non insulin dependent diabetes. The metabolic alkalosis, due to large loss of gastric HCl, was more severe than the diabetic acidosis and resulted in an alkaline blood pH. Initially the metabolic acidosis was due to ketoacidosis and coexistent lactic acidosis. During the improvement of the alkalemic and hyperglycemic state, lactic acidosis disappeared but a paradoxical rise of plasma NEFA and ketone body concentrations supervened so that the high anion gap metabolic acidosis was virtually unchanged. The rise of plasma NEFA was probably related to the marked removal of plasma triglycerides, by insulin activation of lipoprotein lipase, and consequent saturation of the pathways of fatty acid incorporation into adipose tissue.
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PMID:Metabolic alkalosis in diabetic ketosis: a case report. 643 80

We screened 214 Japanese NIDDM (non-insulin-dependent) diabetic patients with a family history of diabetes for mutations in the mitochondrial tRNA(Leu(UUR)) gene using polymerase chain reaction-restriction fragment length polymorphism and direct sequencing. Six patients were identified as having an A to G transition at position 3243 (3243 mutation), but no patients were detected with a T to C transition at position 3271, in the mitochondrial tRNA(Leu(UUR)) gene. These two mutations were not present in 85 healthy control subjects. It was disclosed that the patients' mothers were also affected by diabetes mellitus in five of the six cases. In these six affected patients, the 3243 mutation shows variable phenotypes, such as the degree of multiple organ involvement, intrafamilial and interfamilial differences in disease characteristics, and the degree of the involvement of MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes) phenotype. Endocrinological examinations revealed that those diabetic patients with the 3243 mutation show not only beta-cell dysfunction, but also a defect in alpha-cell function, which is considered characteristic of diabetes with the 3243 mutation. When compared with 50 selected diabetic control subjects without the 3243 mutation, whose mothers, but not fathers, were found to have diabetes, it was established statistically that those with the 3243 mutation possess the following clinical characteristics; 1) the age of diabetes onset is lower, 2) they have lean body constitutions, and 3) they are more likely to be treated with insulin than control subjects. We suggest that diabetes with the 3243 mutation possesses phenotypes distinct from those in common forms of diabetes.
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PMID:Diabetes mellitus carrying a mutation in the mitochondrial tRNA(Leu(UUR)) gene. 926 98

The sulphonylureas and the biguanides are widely used as adjuncts to dietary measures in the treatment of non-insulin-dependent (type 2) diabetes mellitus (NIDDM). Adverse effect profiles differ markedly between the sulphonylureas and biguanides, reflecting differences in chemical structure and mode of action. Sulphonylureas are generally well tolerated, although pharmacokinetic differences between these agents have important clinical implications. The main adverse effect associated with sulphonylureas is hypoglycaemia. This effect is a predictable consequence of the principal pharmacological effect of these drugs, i.e. sensitisation of the islet beta-cell to glucose, resulting in enhanced endogenous insulin secretion. Sulphonylurea-induced suppression of hepatic glucose production may cause profound and protracted hypoglycaemia, especially in elderly patients, in individuals with intercurrent illnesses and reduced caloric intake, or when taken in combination with other compounds with hypoglycaemic potential, e.g. alcohol (ethanol). Sulphonylureas with a longer duration of action, notably chlorpropamide and glibenclamide (glyburide), are more liable to induce serious hypoglycaemia, particularly when drug elimination is reduced by renal impairment. Other drugs such as salicylates may potentiate the actions of sulphonylureas, thereby increasing the risk of hypoglycaemia. Biguanide therapy is associated with alterations in lactate homeostasis which under certain clinical circumstances may result in fatal lactic acidosis. Phenformin is associated with a markedly greater risk of lactic acidosis than metformin. Phenformin has been withdrawn in many countries for this reason. All biguanides must be avoided in patients with renal impairment, hepatic dysfunction and cardiac failure--conditions where drug accumulation or disordered lactate metabolism may predispose to lactic acidosis. Phenformin should not be given to individuals who exhibit a severe, genetically conferred hepatic defect of hydroxylation which impedes metabolism of this drug. Less seriously, the biguanides are associated with a relatively high incidence of gastrointestinal adverse effects which limit compliance. Acarbose, a competitive inhibitor of intestinal alpha-glucosidases, has recently been introduced. In contrast to the sulphonylureas and biguanides, acarbose has not been associated with life-threatening adverse effects. This reflects the low systemic absorption of the drug and, predictably, its principal unwanted effects are gastrointestinal disturbances resulting from iatrogenic carbohydrate malabsorption.
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PMID:Comparative tolerability profiles of oral antidiabetic agents. 784 43

Non-insulin-dependent diabetes mellitus (NIDDM) has a strong genetic component and maternal factors have recently been implicated in disease inheritance. The mitochondrial myopathies are a group of diseases which often show maternal inheritance as a result of mtDNA defects; some patients have impaired glucose tolerance. Occasional families with maternally inherited diabetes and deafness associated with a deletion or point mutation of mtDNA have been reported. To assess the importance of mitochondrial gene defects in NIDDM, 150 unrelated diabetic subjects from Wales, UK and 68 unrelated patients with diabetes and at least one affected sibling from England, UK were studied. Southern blot analysis did not show any large mtDNA deletions or duplications. One patient had a mutation in the mitochondrial tRNAleu(UUR) gene at bp 3243. This mutation is commonly associated with the syndrome of mitochondrial encephalomyopathy, lactic acidosis and stroke like episodes (MELAS). Study of this patient and his siblings showed a distinct form of late-onset diabetes associated with nerve deafness but no clinical features of the MELAS syndrome. No diabetic subject was shown to have the mtDNA mutation at position 8344 (tRNA(lys)) which has previously been described in the syndrome of mitochondrial encephalomyopathy and red-ragged fibres (MERRF). The role of other mitochondrial gene defects in diabetes and the pathophysiological basis of glucose intolerance in patients with the MELAS mutation requires further elucidation.
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PMID:Mitochondrial gene defects in patients with NIDDM. 926 98

Metformin (dimethylbiguanide) is an antihyperglycaemic drug used to treat non-insulin dependent diabetes mellitus. It acts in the presence of insulin to increase glucose utilization and reduce glucose production, thereby countering insulin resistance. The effects of metformin include increased glucose uptake, oxidation and glycogenesis by muscle, increased glucose metabolism to lactate by the intestine, reduced hepatic gluconeogenesis and possibly a reduced rate of intestinal glucose absorption. Metformin appears to facilitate steps in the postreceptor pathways of insulin action, and may exert effects that are independent of insulin. In muscle, metformin increases translocation into the plasma membrane of certain isoforms of the glucose transporter. The effects of metformin are generally moderate, and do not cause clinical hypoglycaemia or increased weight gain. Metformin has an antihypertriglyceridaemic effect and exerts various potentially useful effects on haemostasis. A risk of lactic acidosis is negligible provided that the contraindications, particularly renal incompetence are respected.
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PMID:Metformin--an update. 811 99

Oral antidiabetic agents continue to play an important role in the treatment of type 2 diabetes. Of decisive importance is the timing of their use, together with a knowledge of their specific properties. Acarbose, which needs to be initiated at a low, slowly increasing dose, is noted for the fact that it has virtually no systemic side effects. Metformin reduces plasma glucose levels without inducing hyperinsulinemia, and carries virtually no risk of lactic acidosis. Glibenclamide can be used either alone to treat type 2 diabetes or in combination with other oral antidiabetics or insulin. Today, intensified insulin therapy represents the optimal standard of insulin replacement. It permits meal-oriented injection of normal insulin and the use of longer-acting insulin overnight. This form of treatment is now facilitated by the possibilities of plasma glucose selfmonitoring and the use of injection aids (pen). Intensified treatment should be initiated at the time type I diabetes is diagnosed. In the case of a particularly instable metabolic situation or neuropathy, it may become necessary to use insulin pumps.
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PMID:[Management of diabetes in general practice--current requirements. 2: Oral antidiabetics and insulin therapy]. 820 Jun 2


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