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Query: UMLS:C0011849 (diabetes)
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The incidence of diabetes mellitus is steadily increasing in the United States. Currently the United States spends approximately $100 billion in healthcare costs annually for the management of diabetes. Most of the costs are attributed to hospitalizations and treatment of diabetes complications. Preventing these complications with tight glycemic control is the key to reducing morbidity, mortality, and healthcare costs secondary to diabetes mellitus. Recently, the American College of Endocrinology also stressed earlier screening for diabetes and endorsed lowering the goal percent of hemoglobin glycosylation to 6.5%. These strategies help identify patients with diabetes at an earlier stage and in turn prevent more complications. Better control of diabetes is now feasible with the recent approval of 8 new antidiabetic products. Pioglitazone and rosiglitazone are agents with a novel mechanism of action. Metformin XR, insulin aspart, and miglitol are agents that are similar to previously marketed products, but have different pharmacokinetic or pharmacodynamic properties. Metformin/glyburide is the first combination product for the treatment of diabetes. Nateglinide represents the first agent in a new class of antidiabetic agents and insulin glargine is a novel insulin preparation. All of the agents have unique characteristics that may render them useful in specific patient populations.
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PMID:Therapeutic options for the management of type 2 diabetes mellitus. 1243 15

A 56-year-old woman with diabetic triopathy, rheumatoid arthritis and chronic renal failure was admitted for severe hypoglycemic coma. Arthralgia had been deteriorating for 6 months. Therefore, 5 mg of prednisolone was administered. Postprandial blood glucose (PPG), however, elevated from 260 to 290 mg/dl, although fasting blood glucose (FBG) levels ranged from 80 to 110 mg/dl. Three months after, 270 mg of nateglinide was given in addition to acarbose. After 2 days, hypoglycemia occurred at 02:00 h. Nateglinide was then decreased to 180 mg (before breakfast and lunch). After 5 days, hypoglycemia re-occurred at 01:00 h. Nateglinide was subsequently decreased to 90 mg before breakfast. The PPG levels ranged from 130 to 150 mg/dl. Hypoglycemia did not occur during the next 2 months. On admission, FBG; 59 mg/dl, fasting immunoreactive insulin; 34 microU/ml, indicated hyperinsulinemic hypoglycemia. We administered 20 g of glucose intravenously, however, hypoglycemia recurred 4 times and 20 g of glucose was then administered. Although the plasma nateglinide level decreased, the nateglinide metabolite, N-[trans-4-(1-hydroxy-1methylethyl)-cyclohexanecarbonyl]-D-phenylalanine levels still had not decreased 29 h after nateglinide administration. Therefore, chronic renal failure appeared to alter the pharmacokinetic parameters of the nateglinide metabolite, which had accumulated by chronic renal failure. The nateglinide metabolite caused severe hypoglycemia in this case.
Diabetes Res Clin Pract 2003 Mar
PMID:Hypoglycemia due to nateglinide administration in diabetic patient with chronic renal failure. 1259 15

Treatment of hyperglycemia in patients with diabetes mellitus and renal insufficiency is complicated by altered pharmacokinetics of hypoglycemic agents. This study evaluated the pharmacokinetic profile and safety of nateglinide, an amino acid derivative that improves early phase insulin secretion and reduces mealtime glucose excursions. This open-label, single-dose, two-center study included patients (mean age = 57 +/- 10 years) with type 1 or 2 diabetes with impaired renal function (IRF) (n = 10) or with renal failure undergoing hemodialysis (n = 10). Both groups were compared with age-, sex-, height-, and weight-matched healthy controls (n = 20). All participants received a single 120-mg dose of nateglinide immediately before breakfast. Pharmacokinetic and safety evaluations were undertaken up to 48 hours postdose. All 40 subjects completed the study. Plasma nateglinide concentrations increased rapidly in patients undergoing dialysis and matched healthy subjects (tmax = 0.95 vs. 0.78 h, respectively) and was comparable with patients with IRF and matched healthy subjects (tmax = 0.80 vs. 0.65 h, respectively). There were no statistically significant differences for Cmax or AUC0-t between the groups. Nateglinide was eliminated rapidly in all groups (t1/2 = 1.9-2.8 h). There was no correlation between the level of renal function and systemic exposure. There was a low extent of renal excretion of nateglinide in healthy subjects (11%) and diabetic patients with IRF (3%). Nateglinide was well tolerated. These data suggest that nateglinide is suitable for use in diabetic patients with IRF or with renal failure undergoing dialysis. Given the comparable absorption and elimination profiles of nateglinide in renally impaired and healthy subjects, no dose adjustment appears necessary in the renally impaired.
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PMID:Pharmacokinetics of nateglinide in renally impaired diabetic patients. 1261 69

Several epidemiological studies have shown an association between postprandial hyperglycemia and mortality from cardiovascular disease. Postprandial hyperglycemia is frequently associated with visceral obesity which plays a key role in metabolic abnormalities such as dyslipidemia and hypertension. Inhibitors of alpha-glucosidase and nateglinide have beneficial effects on the metabolic syndrome associated with visceral obesity. Voglibose in combination with diet therapy reduces visceral fat deposition and ameliorates insulin resistance. Acarbose slightly reduces blood pressure of hypertensive diabetic patients. Nateglinide, a rapidly acting insulin secretagogue, lowers postprandial glucose levels without significant body weight gain. These drugs may protect pancreatic beta-cells from postprandial glucose toxicity and prevent the progression of diabetes.
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PMID:[Pharmacological treatment of postprandial hyperglycemia in hypertensive patients with type 2 diabetes mellitus]. 1287 88

The development and progress of antidiabetic drugs (e.g., insulin preparations and hypoglycemic drugs) are retrospectively investigated in Japan. Their influences on the treatment of diabetes mellitus (DM) and its epidemiological aspects are also discussed. 1) Insulin preparations: Insulin was introduced for DM therapy in 1925, two or three years after its discovery in Canada. The preparations were raw extracts of bovine or porcine pancreas. These did not prevail widely in Japan because of the low incidence of DM before World Wan II. After the war, a shortage of mammalian materials compelled the use of fish pancreatic tissues such as bonito and/or tuna for insulin production. Insulin infection, so-called regular insulin, was first promoted in the 6th "Pharmacopoeia Japonica" (JP6) in 1951 and has been maintained to the present edition (JP14, 2001). Although depot-type insulin preparations were developed in the USA and Europe during the war, the introduction of those preparations to Japan was delayed until 1951, when Protamine zinc insulin appeared. Globin zinc insulin and Isophane insulin were introduced for clinical use in 1952 and 1955, respectively. These were also adopted for JP7 (1961). Biphasic-type insulin, which has a rapid onset and long duration of activity, appeared in 1965. Purified preparations from bovine or porcine sources have been available since 1980, which might be a strong reason for the decrease in insulin allergy. Insulin from animal origin has been supplied for almost 60 years since its discovery. Amino acid sequences of insulins from various species of animals were determined by the pioneering studies of Sanger and his associates. Human insulin, which differs from porcine insulin by only one amino acid, was produced by Novo researchers in 1982 using a semi-synthetic method. Then the Lilly group soon succeeded in obtaining human insulin by recombinant DNA technology in the same year. Both products were introduced to Japan in 1985, and the recombinant products prevailed throughout the 1990s. Human insulin analogues (i.e., Insulin lispro and Insulin aspart) appeared in 2001. These are applied for after-meal glycosmia owing to their ultrarapid onset of activity. Self-injection by DM patients was legalized in 1981. To make the infection technique sure and easy, cartridge (pen-type) and disposable kit-type needles were devised in the 1990s. 2) Oral hypoglycemic drugs: Instead of the exclusive parenteral usage of insulins, there was also demand for oral dosage forms. The first of the sulfonyrlurea (SU) group, BZ-55, was used for DM clinically in 1955 in Germany. But it was soon withdrawn because of its antibacterial action. This led to the development of various SU groups. Tolbutamide (1956), chlorpropamide (1959), acetohexamide (1964) and tolazamide (1961) were introduced to Japan as first-generation SUs. Then glyclopyramide (Kyorin, 1965), glybenclamide (1971), gliclazide (1984) and glimepiride (1999) appeared as the second-generation SUs. These were used orally for Type 2 diabetes. Biguanide (BG) group, phenformin HC1 (1959), metformin HC1 (1961) and buformin HC1 (1961) had also been in use by oral treatment of Type 2 diabetes. SU appears to act by increasing the sensitivity of b-cells, which secrete insulin. BG probably exerts by increasing glucose transport across the membranes of target organs. 3) New types of antidiabetic drugs: a-Glucosidase inhibitors (i.e., acarbose: Bayer, 1993; and voglibose: Takeda, 1994) act on hyperglycemia after meals by decreasing glucose absorption. Thiazolidinedione compounds, such as troglitazone (Sankyo, 1995) and pioglitazone HC1 (Takeda, 1994) act by increasing the insulin sensitivity of the target tissues. These are useful for Type 2 DM patients when SUs are ineffective. Nevertheless, troglitazone was discontinued in 2000 due to severe liver damage. Nateglinide (Ajinomoto Co., 1999), which is a D-phenylalanine derivative acting similar to SUs, is useful orally for after-meal hyperglycemia of Type 2 diabetes. Epalrestat (Ono Yakuhin Co., 1992) is effective for diabetic neuropathy by reducing the formation of sorbitol. These anti-DM drugs were recently studied and developed in Japan. 4) The Japan Diabetes Society proposed a guideline on diagnostic criteria and treatment of diabetes mellitus (DM) in 1999 and revised it in 2002. DM is classified as insulin-dependent DM (Type l) and non-insulin dependent DM (Type 2). Type 1, juvenile onset DM, requires insulin therapy to prevent ketosis and to sustain life. Treatment of type 2, adult onset DM, is recommended as a step-by-step method, starting with dietary-exercise therapy, followed by oral hypoglycemic drugs and then insulin therapy. DM patients with complications should have a therapy devised to match their circumstances. 5) Epidemiological aspects: The mortality rate of DM compared to the time of drug appearance was traced from 1920 to 2000. The curve goes down slowly in the time frame of World War II, but rises from 1950 to 1970. The elevation could not be suppressed by the appearance of SUs, BGs or improved insulin preparations. The curve runs flat from 1980 to 1990, which might be related to the use of purified insulin or human insulin therapy. The mortality rate of DM indicates that death by hyperglycemic coma and other deaths resulting from complications are excluded. The survey of the principal cause of death by DM during the period of 1981-1990 indicates that the death rate due to hyperglycemic coma is only 1.7% of the total deaths caused by DM. The effect of drug therapy on all of the death resulting from DM is not detected. Hospital visitation and admission rates of the DM patients have been recorded since 1952 in Japan. This curve is rising continuously, and none of the antidiabetic drugs has been able to suppress it. These data show that the antidiabetic drugs relieve DM symptoms through their effective hypoglycemic actions, but that they cannot suppress the mortality rate of DM. It is possible that none of the drugs currently available can suppress the increasing tendency of DM patients.
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PMID:[A 50-year history of new drugs in Japan-the development and progress of anti-diabetic drugs and the epidemiological aspects of diabetes mellitus]. 1457 54

Type 2 diabetes is a heterogeneous disorder characterized by defects in the early phase of insulin secretion after meals and in insulin resistance at its early stage. A new insulin secretagogue, nateglinide, has been shown to elicit an acute insulin release and to reduce postprandial hyperglycemia. We have treated 30 patients with type 2 diabetes using nateglinide and performed a standard meal test at breakfast, both before and after the treatment. Insulin resistance and beta-cell function was assessed by the HOMA model. Nateglinide, at 1 and 2 h after the test meal, significantly stimulated postprandial insulin secretion by 62.0 and 41.0% and improved blood glucose values by 17.3 and 21.9%, respectively, after the treatment. Fasting blood glucose (FBG) and glycohemoglobin was significantly reduced by 9.8 and 10.3%, respectively. The reduction was significantly larger in postprandial glucose than in FBG (P<0.0005). A significant correlation was found in the HOMA-insulin resistant (IR) index and in the changes of fasting IRI. When the patients were divided into three groups, forming a markedly insulin resistant (MIR) group, an IR group and a non-insulin resistant (NIR) group, HOMA-IR levels improved significantly, from 7.0 +/- 4.3 to 4.5 +/- 2.8 (P=0.026) in the MIR group and showed a tendency toward improvement in the IR group, from 2.9 +/- 0.7 to 2.3 +/- 1.1 (P=0.062), but failed to exhibit such a positive response in the NIR group, changing from 1.2 +/- 0.2 to 1.9 +/- 0.9 (P=0.21). HOMA-beta, on the other hand, improved significantly in the NIR group only, from 16.4 +/- 7.8 to 26.9 +/- 9.9 (P=0.017), but not in the IR nor MIR groups (M +/- S.D.). In conclusion, nateglinide improved the excessive excursion of postprandial glucose by the augmentation of early insulin secretion after a meal and differentially affected fasting insulin levels and HOMA-IR indexes, depending on the degree of insulin resistance.
Diabetes Res Clin Pract 2003 Nov
PMID:Improvement of insulin resistance by a new insulin secretagogue, nateglinide--analysis based on the homeostasis model. 1458 Nov 45

In patients with Type 2 diabetes, the appropriate intensity of glucose control is determined by age, life expectancy, and the presence of concomitant disease. Geriatric patients are especially susceptible to hypoglycaemia and therefore particular care should be taken in this group characterized by polypharmacy, renal or hepatic dysfunction, cardiovascular multimorbidity and malnutrition. As hypoglycaemia is a significant cause of morbidity and mortality, treatment regimens for diabetes should minimize the occurrence of hypoglycaemic episodes and be tailored to the patient's individual needs. The pharmacological options for treating Type 2 diabetes have increased considerably and the risk of hypoglycaemia of the currently available drugs varies considerably. Metformin, thiazolidinediones, and acarbose, oral antidiabetic drugs that decrease insulin resistance or postprandial glucose absorption, are associated with a low risk of hypoglycaemia. These drugs can also be used effectively in various combination regimens; however, by improving insulin sensitivity, combinations of metformin and thiolidinediones with sulphonylureas or meglitinides may considerably increase the risk of hypoglycaemia. On account of its complex pharmacoprofile glibenclamide is a problematic substance carrying a high risk of hypoglycaemia. There are limited preliminary data indicating that, under routine conditions, glimepiride may be associated with a lower risk of hypoglycaemia than glibenclamide and is no more likely to cause hypoglycaemia than other shorter-acting agents such as gliclazide and glipizide. Nateglinide and repaglinide as short-acting insulin secretagogues may be associated with a reduced risk of hypoglycaemia compared with glibenclamide, in particular when dosed flexibly. Repaglinide might be beneficial in individuals with renal impairment.
Exp Clin Endocrinol Diabetes 2003 Oct
PMID:Risk of hypoglycaemia with oral antidiabetic agents in patients with Type 2 diabetes. 1461 47

Nateglinide, a new insulinotropic agent, specifically targets prandial glycemic excursions. Recently, innovative technologies have become available that provide the possibility to measure 72-h blood glucose values continuously. The aim of this study was to evaluate the effects of nateglinide on 24-h blood glucose profiles in diabetic patients. Eighteen patients with type 2 diabetes mellitus--seven on diet only and 11 on metformin monotherapy--participated in the study. Mean age was 60 years, mean diabetes' duration was 7.4 years, and mean hemoglobin A1c was 8.4%. They underwent a 72-h glucose monitoring using a continuous glucose monitoring system (CGMS, Medtronic MiniMed, Northridge, CA) under their usual diabetes therapy and a standardized breakfast. After this period, therapy with nateglinide, 120 mg three times a day before meals, was initiated. Three days later patients again underwent 72-h glucose monitoring. Mean blood glucose values and mean fasting blood glucose values decreased significantly, from 172 mg/dL before to 131 mg/dL (P< 0.0004) and from 172 mg/dL before to 126 mg/dL (P< 0.0005), respectively, with nateglinide therapy. Postprandial hyperglycemia, expressed as mean blood glucose over a time period of 2 h after a meal, declined significantly after all three daily meals. The number of blood glucose values above 140 mg/dL decreased from 207 without to 98 during nateglinide therapy. Nateglinide was not associated with hypoglycemia or other adverse events. We found in this study, using CGMS, that nateglinide has a glucose-lowering potency that not only affects postprandial hyperglycemia, but also overnight and fasting blood glucose values.
Diabetes Technol Ther 2004 Feb
PMID:Evaluation of a new insulinotropic agent by using an innovative technology: efficacy and safety of nateglinide determined by continuous glucose monitoring. 1500 Jul 67

Burgeoning obesity is increasing the prevalence of type II diabetes mellitus. As a consequence, there will be an even greater burden of cardiovascular disease, end-stage renal disease, blindness, and lower extremity amputations. If diagnosed, impaired glucose tolerance presents an opportunity for intervention that potentially could delay or prevent the development of diabetes. Recent prospective studies document the effectiveness of exercise and weight reduction in preventing diabetes. Metformin is less effective than intense lifestyle interventions. Acarbose, losartan, orlistat, pravastatin, ramipril, and hormone replacement therapy are associated with lower rates of the development of diabetes. The Diabetes Reduction Assessment with Ramipril and Rosiglitazone Medication (DREAM) trial and the Nateglinide and Valsartan in Impaired Glucose Tolerance Outcomes Research (NAVIGATOR) trial were designed to assess not only the prevention of diabetes but also the impact on cardiovascular morbidity and mortality.
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PMID:Preventing type II diabetes mellitus. 1505 49

Acute and chronic effects of the insulinotropic drug nateglinide upon insulin release were examined in the BRIN-BD11 cell line. Nateglinide (10-400 microm) stimulated a concentration-dependent increase (P<0.05-P<0.001) in insulin release at a non-stimulatory (1.1 mm) glucose concentration. The insulinotropic response to 200 microm nateglinide was increased at 30 mm (P<0.01), but not 5.6-16.7 mm glucose concentrations. In depolarized cells, nateglinide (50-200 microm) evoked K(ATP) channel-independent insulin secretion (P<0.05-P<0.001) in the absence and presence of 5.6-30.0 mm glucose (P<0.001). Exposure for 18 h to 100 microm nateglinide abolished the acute insulinotropic effects of 200 microm nateglinide, tolbutamide or glibenclamide, but had no effect upon the insulinotropic effect of 200 microm efaroxan. While 18 h exposure to 100 microm nateglinide did not affect basal insulin release or insulin release in the presence of 16.7 mm glucose, 25 microm forskolin or 10 nm PMA, significant inhibition of the insulinotropic effects of 20 mm leucine and 20 mm arginine were observed. These data show that nateglinide stimulates both K(ATP) channel-dependent and-independent insulin secretion. The maintained insulinotropic effects of this drug with increasing glucose concentrations support the antihyperglycaemic actions of nateglinide in Type II diabetes. Studies of the long-term effects of nateglinide indicate that nateglinide shares signalling pathways with sulphonylureas, but not the imidazoline efaroxan. This may be significant when considering a nateglinide treatment regimen, particularly in patients previously treated with sulphonylurea.
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PMID:Acute and long-term effects of nateglinide on insulin secretory pathways. 1515 41

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