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:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin glargine is an extended-action biosynthetic human insulin. It precipitates in the neutral environment of subcutaneous tissue and is thus gradually absorbed into the bloodstream. The addition of small amounts of zinc to the formulation further delays absorption. In small euglycaemic clamp studies, the onset of action of insulin glargine was shown to be later, the duration of action longer and the time-action profile flatter than that of Neutral Protamine Hagedorn (NPH) insulin in patients with type 1 diabetes mellitus and healthy volunteers. Four large clinical trials of up to 28 weeks' duration have shown that a single bedtime dose of insulin glargine, in combination with preprandial short-acting insulin, is as effective or more effective than once or twice daily NPH plus short-acting insulin in improving glycaemic control in patients with type 1 diabetes mellitus. In 3 large comparative trials, insulin glargine decreased glycosylated haemoglobin and/or fasting blood glucose levels to a similar extent to that seen with NPH insulin in patients with insulin-dependent or non-insulin-dependent type 2 diabetes mellitus, either as monotherapy or in combination with oral hypoglycaemic agents. Insulin glargine appears to be well tolerated. A lower incidence of hypoglycaemia, especially at night, was reported in most trials with insulin glargine when compared with NPH insulin.
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PMID:Insulin glargine. 1073 May 48

The pharmacodynamics, pharmacokinetics, clinical efficacy, adverse effects, and dosage and administration of insulin glargine are reviewed. Current treatment regimens for patients with type 1 diabetes mellitus and some with type 2 are designed to provide a basal insulin level with intermittent preprandial insulin coverage. Insulin glargine precipitates after subcutaneous injection, slowing absorption. Insulin glargine is used as a basal insulin and exhibits a flat pharmacokinetic profile, with a duration of action of at least 24 hours. Hypoglycemia is the most commonly reported adverse effect, especially within the first four weeks after a switch to insulin glargine. Insulin glargine should not be mixed with any other insulin product and should be administered with a syringe that has not been used for other insulin products or other medications. Insulin glargine is administered once daily at bedtime. Patients previously receiving twice-daily isophane insulin (NPH) should receive an insulin glargine dosage 20% less than the total daily dose of NPH insulin. Clinical trials did not consistently show improvements in hemoglobin A1c levels when patients with type 1 diabetes mellitus were switched from NPH insulin once or twice daily to insulin glargine. Insulin glargine should be considered for patients who continue to have elevated morning blood glucose levels and problems with nocturnal hypoglycemia despite receiving NPH insulin at bedtime. In patients with type 2 diabetes mellitus, insulin glargine significantly improved glycemic control compared with once-daily NPH insulin, but not when it was compared with combined treatment with once- or twice-daily NPH insulin. Clinical trials assessing progression of retinopathy and nephropathy and comparing insulin glargine therapy with continuous subcutaneous insulin infusion therapy are needed to more clearly determine insulin glargine's role. Insulin glargine is a new long-acting formulation that can provide prolonged basal glucose control in patients with diabetes mellitus.
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PMID:Insulin glargine: a new long-acting insulin product. 1194 2

Insulin glargine (Lantus) is a long-acting, human insulin analogue that has been specifically designed to overcome the deficiencies of traditionally available 'intermediate-acting' insulins that are currently used for basal insulin supplementation. In contrast to NPH insulin, subcutaneous insulin glargine injected once daily provides a relatively constant basal level of circulating insulin with no pronounced peak. In patients with type 1 and type 2 diabetes, once-daily insulin glargine achieves equivalent glycaemic control to NPH insulin given once or twice daily In patients with type 1 diabetes, it is associated with significantly lower fasting blood glucose (FBG) levels, especially in those patients previously on twice-daily NPH insulin. Insulin glargine is well tolerated and elicits less hypoglycaemia, especially nocturnal episodes, than NPH insulin, with similar levels of glycaemic control. This benefit is seen in patients with both type 1 and type 2 diabetes, in particular those previously on a once-daily NPH insulin regimen. Patients with type 1 and type 2 diabetes have also reported higher levels of treatment satisfaction when treated with insulin glargine. Insulin glargine provides the opportunity to achieve target blood glucose levels more effectively and safely compared with NPH insulin, due to the reduced risk of hypoglycaemia, especially nocturnal hypoglycaemia. Insulin treatment needs to be individualised, with the dose of insulin glargine adjusted according to the blood glucose level as part of an aggressive regimen in an attempt to achieve near normoglycaemia without incurring episodes of hypoglycaemia. Insulin glargine should be used in combination with short-acting insulin analogues in patients with type 1 diabetes. In patients where oral hypoglycaemic agents are failing, insulin glargine can be added. The early introduction of insulin in patients with type 2 diabetes is to be encouraged.
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PMID:Insulin glargine (Lantus). 1216 45

The DCCT and UKPDS have established that in type 1 and in type 2 diabetes respectively, long-term near-normoglycaemia protects against the onset and/or progression of microangiopathic complications. Therefore, insulin strategies to maintain long-term near-normoglycaemia are of key importance in the management of diabetes. To successfully achieve near-normoglycaemia, insulin therapy must mimic nature by providing a bolus of insulin at meal ingestion and by replacing basal insulin between meals and overnight Mealtime insulin needs can be best met by subcutaneous (s.c.) injection of a rapid-acting insulin analogue such as insulin lispro or insulin aspart. Rapid-acting insulin analogues are preferred to human regular insulin for three reasons: convenience (meal-time injection, better adaptation of insulin dose to carbohydrate content of the meal); lower blood glucose 2 hours after meals; and less risk for late postprandial hypoglycaemia. However, in type 1 diabetes the benefits of mealtime treatment with rapid-acting insulin analogues become apparent only to the extent that replacement of basal insulin is optimised. The interprandial need for basal insulin can be best met by continuous s.c. insulin infusion (CSII). CSII is very good for basal insulin replacement because it uses a rapid-acting insulin analogue with low variability in s.c. absorption, resulting in a flat and peakless action profile. A second option for basal insulin replacement is s.c. injection of an insulin preparation with retarded action. The two most commonly used are NPH and insulin glargine. NPH exhibits an action profile with a peak 4 to 5 hours after injection and duration of action of 10 to 15 hours. Insulin glargine has a peakless action profile and lasts approximately 24 hours. To optimise replacement of basal insulin with NPH, a few units of NPH must be combined with rapid-acting analogues at meals and also given at bedtime (0.2 U/kg). With insulin glargine, 0.2 to 0.4 U/kg should be injected once or, in some patients, twice daily. Modern insulin strategies for intensive therapy should include use of a rapid-acting insulin analogue at meal-time, and use of CSII to replace basal insulin. Insulin glargine reproduces closely the pharmacokinetics and pharmacodynamics of CSII and should be considered for substitution of basal insulin, especially in type 1 diabetes.
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PMID:Clinical strategies for controlling peaks and valleys: type 1 diabetes. 1216 10

Insulin glargine is a human insulin analogue prepared by recombinant DNA technology. Modification of the human insulin molecule at position A21 and at the C-terminus of the B-chain results in the formation of a stable compound that is soluble at pH 4.0, but forms amorphous microprecipitates in subcutaneous tissue from which small amounts of insulin glargine are gradually released. The plasma concentration versus time profile of insulin glargine is therefore relatively constant in relation to conventional human insulins, with no pronounced peak over 24 hours. This allows once-daily administration as basal therapy. Early randomised trials with insulin glargine generally showed greater reductions in fasting blood or plasma glucose levels and a reduced frequency of nocturnal hypoglycaemia relative to neutral protamine Hagedorn (NPH) insulin in patients with type 1 diabetes mellitus. In addition to this basal therapy, patients continued to use the regular mealtime insulin regimen to which they were accustomed. More recent data with insulin glargine have included evidence of improved glycaemic control, with improvements in satisfaction with treatment over NPH insulin. Furthermore, the time of day at which insulin glargine is injected has no clinically relevant effect on glycaemic control in these patients. There are also data from small, nonblind studies to suggest comparable glycaemic control with insulin glargine and continuous subcutaneous insulin infusion. Results from comparative studies and meta-analyses in individuals with type 2 diabetes show lower incidences of nocturnal hypoglycaemia with insulin glargine than with NPH insulin, with two studies showing a significantly greater improvement in glycosylated haemoglobin levels with insulin glargine than with NPH. Insulin glargine is well tolerated, and is not associated with greater immunogenicity or increases in bodyweight than NPH insulin. Long-term data show maintenance of glycaemic control with insulin glargine for up to 39 months in adults and children with type 1 and adults with type 2 diabetes. In conclusion, insulin glargine is an effective and well tolerated basal insulin therapy when given as a single daily subcutaneous injection to patients with diabetes, with benefits in terms of glycaemic control and reduced frequency of hypoglycaemia over regimens based on conventional basal insulins. Accumulating data and official recommendations show the suitability of insulin glargine for first-line use in selected patients with type 2 diabetes who require insulin treatment, as well as in patients with type 1 disease, and confirm its use in children and adolescents.
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PMID:Insulin glargine: an updated review of its use in the management of diabetes mellitus. 1290 90

Insulin glargine is a once-daily, biosynthetic, human insulin analogue. Some trials show that in patients with type 1 diabetes mellitus, insulin glargine offers an advantage in blood glucose control compared with NPH insulin. There is some evidence of decreased nocturnal and symptomatic hypoglycemia in patients receiving insulin glargine compared with those receiving NPH insulin, but there are no significant differences in the incidence of severe hypoglycemia. Insulin glargine is approved for use in Canada, but it has not yet been marketed.
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PMID:Insulin glargine: a long-acting insulin for diabetes mellitus. 1462 60

Insulin glargine is a recombinant human insulin analog produced by DNA technology using a nonpathogenic strain of Escherichia coli. Two modifications of human insulin result in a stable molecule which is soluble in slightly acidic conditions (pH 4.0) and precipitates in the neutral pH of subcutaneous tissue. Because of these properties, absorption of insulin glargine is delayed and the analog provides a fairly constant, basal insulin supply without peaks in plasma insulin levels for approximately 24 hours, similar to that achieved by a continuous subcutaneous insulin infusion. Insulin glargine is indicated as a once daily subcutaneous injection to provide basal glycemic control in adults and children aged >6 years with type 1 diabetes mellitus and in adults with type 2 diabetes mellitus. Fasting plasma glucose and fasting blood glucose levels generally improved to a greater extent in patients with type 1 diabetes mellitus receiving insulin glargine than patients who administered Neutral Protamine Hagedorn (NPH) insulin. In patients with type 1 or 2 disease, glycosylated hemoglobin levels were slightly reduced and to a similar extent with insulin glargine and NPH insulin. Most clinical trials in patients with type 1 or 2 diabetes mellitus demonstrated a lower incidence of hypoglycemia, especially nocturnal hypoglycemia, with insulin glargine compared with NPH insulin. One of the most common adverse events with insulin glargine treatment was injection site pain which, in some studies, occurred more frequently than in patients receiving NPH insulin. In all cases the symptoms were mild and treatment discontinuation was not required. Otherwise, the drug is well tolerated and does not appear to be immunogenic. In conclusion, insulin glargine once a day provides basal control of glycemia for approximately 24 hours without inducing peaks in plasma insulin levels in patients with type 1 or 2 diabetes mellitus. In long-term, well designed trials insulin glargine once daily improved glycemic control at least as effectively as NPH insulin given once or twice daily. The drug was well tolerated and in most studies the incidence of nocturnal hypoglycemia was significantly less in patients treated with insulin glargine compared with patients receiving NPH insulin. Therefore, insulin glargine is likely to be a useful addition to the armamentarium of insulin therapy by establishing basal glycemic control with once daily administration and a reduced risk of nocturnal hypoglycemia.
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PMID:Spotlight on insulin glargine in type 1 and 2 diabetes mellitus. 1576 21

Insulin glargine is a biosynthetic human insulin analog which has been developed by Aventis Pharma (formerly Hoechst Marion Roussel, HMR), for the treatment of types I and II diabetes. In April 1999, HMR filed insulin glargine for approval in both Europe and the US [322507]. In April 2000, the FDA approved insulin glargine (as Lantus) for the treatment of adult patients with type II diabetes mellitus, who require basal insulin for the control of hyperglycemia, and for adult and pediatric patients with type I diabetes mellitus [363836]. Aventis expects to launch this product during 2000 [361988]. In June 2000, the EMEA approved insulin glargine for the treatment of both type I and II diabetes [370984]. In April 1999, the FDA recommended that HMR should initially submit 6-month efficacy and safety data, instead of the usual 12- month data, to hasten the FDA approval procedure. The rest of the phase III data would be added to the filing at a later date [279466]. Insulin glargine is in phase III trials in Japan as a substitute for basal insulin in the treatment of Type I diabetes [216445]. Two formulations of insulin glargine with zinc have also been tested in phase I trials. HOE-71/GT15 and GT80 contain 15 and 80 mu g/ml of zinc. These formulations appear to have longer duration of action with a reduced peak insulin effect [177507]. This insulin analog has a lower receptor binding affinity compared with human insulin, but shows equal potency in vivo [320724]. Insulin glargine was designated as a medium priority project by HMR, which means the project had been set tight deadlines which if not achieved, would have resulted in discontinuation [221118]. In April 2000, Novo Nordisk filed a complaint in Germany against Aventis claiming that the production and sale of insulin glargine infringes two German patents held by Novo Nordisk [364362]. In July 2000, Credit Lyonnais Securities Europe predicted that insulin glargine was likely to enjoy a strong competitive position for several years in Europe and the US, following launch in these territories during 2000, while it was predicted that a registration dossier would be submitted in Japn in 2002. Sales were predicted to reach Euro 600 million by 2005. In April 1999, ABN Amro predicted annual sales of DM 75 million in 2000, rising to DM 200 million in 2002 [328676].
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PMID:Insulin glargine (Aventis Pharma). 1604 68

Analogues of human insulin have been developed to more closely replicate the physiology of meal-related and basal insulin secretion. Three rapid-acting analogues and two basal analogues are available for clinical use. Insulin aspart and insulin lispro have nearly identical pharmacokinetic and pharmacodynamic profiles and provide better postprandial glucose control and less hypoglycaemia (primarily nocturnal and severe hypoglycaemia in type 1 diabetes mellitus) than regular insulin. Insulin glulisine is a new rapid-acting analogue and has characteristics nearly identical to those of its predecessors. Insulin glargine was the first basal analogue approved for clinical use and has shown better fasting glucose control and less risk of hypoglycaemia than conventional human neutral protamine Hagedorn (NPH) insulin. More recent studies have indicated that insulin glargine may not be truly 'peakless' at higher doses and that the adjustment of dose timing and frequency may have favourable effects on the risk of hypoglycaemia and the duration of the effect. Insulin detemir is a new basal insulin analogue with superiority to NPH insulin similar to that demonstrated by insulin glargine, though its duration of action appears to be shorter. The intraindividual variability in the response to a given dose is lower for insulin detemir than for both NPH insulin and insulin glargine. The clinical significance of this finding is not clear, though it may contribute to the lower rate of hypoglycaemia seen with insulin detemir. A number of 'alternative routes' of insulin administration have been studied, the most promising of which has been the pulmonary route. The time-action profile of inhaled insulins is generally characterized by a rapid onset of action similar to those of rapid-acting analogues and a slightly protracted duration of action similar to that of regular insulin. Inhaled insulin is similar to regular insulin with respect to efficacy and safety, though small reversible changes in pulmonary function have been noted. For technical and practical reasons, other alternative routes have generally not met with clinical success.
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PMID:New insulin analogues and routes of delivery: pharmacodynamic and clinical considerations. 1869 80

It is well known that good metabolic control maintained throughout pregnancy reduces maternal and fetal complications in diabetes. Before conception and throughout pregnancy, insulin therapy needs to be optimized and, in this context, the insulin analogs currently available in the market may help to achieve good metabolic control. We therefore review here what is known about the potential benefits and risks related to the use of these new insulins in pregnancy. Clinical and experimental data on insulin aspart and lispro strongly suggest that they have no adverse maternal or fetal effects during pregnancy in women with pregestational and gestational diabetes, and that their use results in improved glycemic control, fewer hypoglycemic episodes, and improved patient satisfaction. At present there are no published data on the use of glulisine in pregnancy. Insulin glargine during pregnancy is not recommended but, in the last years, larger surveys (retrospective and case-control studies) have been published on this field and, to date, results of about 335 pregnancies with type 1 diabetes are available showing an incidence of congenital malformation similar to that obtained with human insulin. There are no published data concerning the use of detemir in pregnancy but the results of a prospective study are expected in 2010.
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PMID:Insulin analogs and pregnancy: an update. 1957 99


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