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Query: UMLS:C0011860 (
type 2 diabetes
)
57,723
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Obesity and
type 2 diabetes
mellitus (
DM2
) are 2 closely related syndromes, with obesity occurring in 70% to 80% of
DM2
patients. Both syndromes are characterized by insulin resistance (IR). However, the metabolic characteristics of lean
DM2
patients are not clearly defined, a fact attributed to the heterogeneity of the diabetes syndrome. Our objective was to study glucose metabolism in lean
DM2
patients, in terms both of the basal and the insulin-stimulated states, and particularly, to investigate whether 2 subpopulations of diabetic patients are identifiable on the basis of degree of IR. Sixteen nonobese (body mass index [BMI] less than 27 kg. m(-2))
DM2
subjects with light to moderate fasting hyperglycemia were studied. Ten healthy subjects were used as a control group, with no family history of
DM2
and matched by age, sex, and BMI in the diabetic group. All participants underwent an intravenous glucose tolerance test with frequent sampling over 180 minutes. Insulin sensitivity (IS) and glucose effectiveness at zero insulin (GEZI) were calculated using Bergman's minimal model. Non-insulin-mediated glucose uptakes (NIMGU) and insulin-mediated glucose uptakes (IMGU) were calculated for the basal (F) and insulin-stimulated states at 11.1 mmol/L of glucose (11.1). The beta-cell function was calculated via the acute insulin response to glucose (AIRg). Clustering techniques were used to identify subpopulations of
DM2
patients on the basis of insulin sensitivity. The group of
DM2
patients was characterized by both IR (IS index, 6.23 +/- 4.68 v 12.75 +/- 7.74 x 10(-5). min(-1). (pmol. L(-1))(-1), P <.01) and insulin secretion abnormalities (AIRg, 336 +/- 456 v 1,912 +/- 1,293 pmol/L. min, P <.0001), but showed similar values for GEZI (0.011 +/- 0.005 v 0.011 +/- 0.007 min(-1), not significant [NS]) in comparison to the control group. For the basal state, no differences were found between the
DM2
patients and control subjects for NIMGU(F) (0.13 +/- 0.07 v 0.08 +/- 0.05 mmol/kg. min, NS) or for IMGU(F) (0.05 +/- 0.04 v 0.05 +/- 0.02 mmol/kg. min, NS). For the insulin-stimulated state, the
DM2
patients showed a reduction of approximately 50% in the IMGU(11.1) value (0.20 +/- 0.17 v 0.38 +/- 0.24 mmol/kg. min, P <.05), but no significant differences were found for NIMGU(11.1) (0.19 +/- 0.09 v 0.20 +/- 0.12 mmol/kg. min, NS) in relation to the control group. Using the clustering technique, it was possible to identify 2 subpopulations of
DM2
patients, a DM-IS group (n = 6) that was insulin sensitive (IS index, 11.70 +/- 2.40 x 10(-5). min(-1). (pmol. L(-1))(-1)) and a DM-IR group (n = 10) that was insulin resistant (IS index, 3.02 +/- 1.60 x 10(-5). min(-1). (pmol. L(-1))(-1)). The DM-IS group was characterized by an absence of IR, diminished GEZI, and a reduction in AIRg; whereas the DM-IR group was characterized by IR and a reduction in AIRg, but normal GEZI. We conclude that (1) as a group,
DM2
patients are characterized by IR and beta-cell dysfunction, but normal NIMGU; (2) two subpopulations of
DM2
patients can be identified on the basis of insulin sensitivity, with the DM-IS group further characterized by diminished GEZI; and finally, (3) deterioration in the pancreatic response to glucose stimulus is a sine qua non condition for a profound alteration in glucose metabolism in
DM2
patients.
...
PMID:Glucose metabolism in lean patients with mild type 2 diabetes mellitus: evidence for insulin-sensitive and insulin-resistant variants. 1214 80
In patients with familial combined hyperlipidemia (FCHL) and
type 2 diabetes
(
DM2
) organ-specific differences in insulin resistance may exist. In FCHL and
DM2
in vivo insulin mediated muscle glucose uptake and inhibition of lipolysis were studied by euglycemic hyperinsulinemic clamp. Insulin mediated glucose uptake was impaired to the same extent in both FCHL and
DM2
. Only FCHL subjects showed no reduction in plasma glycerol concentrations during insulin infusion and incomplete suppression of plasma free fatty acid (FFA) concentrations combined. This finding indicated that insulin-induced suppression of lipolysis, or glycerol/FFA utilization, or both, were impaired in FCHL, in contrast to
DM2
or control subjects. To analyze these possibilities in more detail, control, FCHL, and
DM2
adipocytes were studied in vitro. In contrast to adipocytes from
DM2
or control subjects, no reduction in medium FFA concentration was detected with FCHL adipocytes after incubation with insulin. This finding indicated impaired intracellular FFA utilization, most likely impaired FFA re-esterification. Genetic linkage analysis in 18 Dutch families with FCHL revealed no evidence for involvement of LIPE, the hormone sensitive lipase gene, indicating that genetic variation in adipocyte lipolysis by LIPE is not the key defect in FCHL. In conclusion, FCHL as well as
DM2
subjects exhibited in vivo insulin resistance to glucose disposal, which occurs mainly in muscle. FCHL subjects showed insulin resistant adipose tissue lipid metabolism, in contrast to
DM2
and controls. The different pattern of organ-specific insulin resistance in FCHL versus
DM2
advances our understanding of differences and similarities in phenotypes between these disorders.
...
PMID:Evidence of insulin resistant lipid metabolism in adipose tissue in familial combined hyperlipidemia, but not type 2 diabetes mellitus. 1220 6
This study aimed to investigate the clinical characteristics of sudden death (SD) in
type 2 diabetes
mellitus (
DM2
). Clinical data from 1988 through 1996 in our hospital showed that 130 hospitalized patients with
DM2
died, and 17 of them died of SD (13.08%). These 17 SD patients were pair-matched with 17
DM2
patients who were alive in the same period. The results revealed that the SD group had longer clinical DM duration, more chronic diabetic complications and higher blood pressure. In the direct causes of SD, cardiac SD accounted for 76.47%. The others were non-cardiac factors, including cerebral hemorrhage, hyperkalemia from diabetic nephropathy with renal failure and respiratory tract obstruction from lung infection. The triggering causes included eating, defecting, lung infection, strenuous attempt, hypoglycemia and surgical operation. To reduce the rate of SD in
DM2
, it is necessary and vital to treat the
DM2
itself, and to take positive steps to prevent the onset of SD in high risk patients.
...
PMID:[A clinical study of sudden death in patients with type 2 diabetes mellitus]. 1221 1
Hepatic insulin resistance and increased endogenous glucose production (EGP) are associated with increased plasma free fatty acids (FFA). However, the contribution of FFA composition to the regulation of EGP is not known. Six obese nondiabetic subjects and 6 patients with
type 2 diabetes
mellitus (
DM2
) were studied after an overnight and a 3-day fast. Plasma insulin concentrations after an overnight fast were similar in the
DM2
and nondiabetic patients (88.8 +/- 26.4 v 57.6 +/- 12.6 pmol/L, not significant [NS]) despite increased plasma glucose (9.9 +/- 1.8 v 5.1 +/- 0.1 mmol/L, P <.01) and EGP (510.3 +/- 77.7 v 298.3 +/- 18.3 micromol x m(-2) x min(-1), P <.05) in the patients with
DM2
. Absolute rates of gluconeogenesis using the heavy water method were also increased in the patients with
DM2
(346.8 +/- 74.9 v 198.8 +/- 16.4 micromol x m(-2). min(-1), P <.05). No differences were observed in plasma polyunsaturated fatty acids (PUFA) between the diabetic and nondiabetic subjects. However, total saturated fatty acid (SFA) concentrations (350 +/- 37.4 v 230.9 +/- 33.3 micromol/L, P <.02) were significantly increased in the diabetic subjects. Rates of EGP were correlated with total plasma FFA concentration (r =.71, P <.01) and the concentration of SFA (r =.71, P <.01), but not monounsaturated fatty acids or PUFA. Rates of gluconeogenesis were also correlated with plasma FFA (r =.64, P <.05) and SFA (r =.67, P <.05). We observed no relationship between EGP and either total FFA or fatty acid composition after a 3-day fast. We conclude that increases in EGP are associated with concentrations of plasma SFA after an overnight fast.
...
PMID:The role of plasma fatty acid composition in endogenous glucose production in patients with type 2 diabetes mellitus. 1240
Type 2 diabetes mellitus
(
DM2
) is characterized metabolically by defects in both insulin secretion and insulin action, resulting in hyperglycemia. Histopathologically,
DM2
is characterized by depositions of protein in the pancreatic islets. This 'islet amyloid' is present in >90% of patients with
DM2
, as well as in monkeys and cats with
DM2
. The pathogenesis of
DM2
is heterogeneous and multifactorial, although insulin resistance seems to be the predominant initiating factor for development of the disease. In the longer term, an insulin secretion defect is also revealed (referred to as 'beta-cell failure'), resulting in clinically manifest diabetes. Recent data, particularly from transgenic mouse studies, indicate that islet amyloidosis is a diabetogenic factor, which is both consequence (of insulin resistance) and cause (of beta-cell failure) of
DM2
. Available transgenic mouse models with islet amyloid formation in vivo will provide the opportunity to assess the effectiveness of novel anti-amyloidogenic therapies, for which promising results are emerging.
...
PMID:Role of islet amyloid in type 2 diabetes mellitus: consequence or cause? 1243 14
The purpose of this study was to investigate the changes of serum free fatty acids (FFA) in fasting state and absorptive state and the relationship between FFA changes and insulin resistance in the patients with
type 2 diabetes
(
DM2
). 75 g of glucose were given to 60 patients with
DM2
. Fasting serum FFA, serum insulin levels and the same parameters 2 h after glucose load were measured by calorimetric and RIA methods. Fasting and 2 h after oral glucose tolerance test (OGTT) plasma glucose(PG) levels were also assessed by using glucose oxidase method. The results showed the levels of serum FFA, PG and insulin of fasting and after glucose load in the patients were significantly increased and their insulin-sensitive (ISI) was remarkably decreased as compared with those in 30 normal controls, P < 0.05. Multiple stepwise regression analysis showed that the FFA level of 2 h after OGTT was negatively correlated with ISI, P = 0.0304. The results suggest that in patients with
DM2
, the levels of fasting and absorptive FFA are significantly elevated, which is negatively correlated with the decline of ISI, implying the association of abnormal fasting and absorptive FFA and insulin resistance in patients with
type 2 diabetes
.
...
PMID:[Relationship between the changes of serum free fatty acids and insulin resistance in type 2 diabetics]. 1251 47
It is unknown whether glucose screening for
Type 2 diabetes mellitus
(
DM2
) reduces the risk of diabetic complications. We conducted a case-control study using 303 cases with
DM2
and at least one symptomatic microvascular diabetic complication, matched 1:1 to control subjects. All subjects' blood glucose tests for the decade before the first clinical suspicion of
DM2
were categorized as screening or not based on the presence of symptoms suggestive of
DM2
. Approximately 90% of case subjects and control subjects had been screened for diabetes. After adjusting for multiple covariates in a logistic regression model, the odds ratio of developing a complication associated with screening was 0.87 (95% confidence interval 0.38-1.98), suggesting that screening may be associated with a modest reduction in the risk of certain diabetic complications. However, the confidence limits were wide and consistent with no true benefit. Further studies are needed to establish whether the small reduction we observed is genuine.
...
PMID:Glucose screening and the risk of complications in Type 2 diabetes mellitus. 1258 73
Two substrates of insulin-degrading enzyme (IDE), amyloid beta-protein (Abeta) and insulin, are critically important in the pathogenesis of Alzheimer's disease (AD) and
type 2 diabetes
mellitus (
DM2
), respectively. We previously identified IDE as a principal regulator of Abeta levels in neuronal and microglial cells. A small chromosomal region containing a mutant IDE allele has been associated with hyperinsulinemia and glucose intolerance in a rat model of
DM2
. Human genetic studies have implicated the IDE region of chromosome 10 in both AD and
DM2
. To establish whether IDE hypofunction decreases Abeta and insulin degradation in vivo and chronically increases their levels, we characterized mice with homozygous deletions of the IDE gene (IDE --). IDE deficiency resulted in a >50% decrease in Abeta degradation in both brain membrane fractions and primary neuronal cultures and a similar deficit in insulin degradation in liver. The IDE -- mice showed increased cerebral accumulation of endogenous Abeta, a hallmark of AD, and had hyperinsulinemia and glucose intolerance, hallmarks of
DM2
. Moreover, the mice had elevated levels of the intracellular signaling domain of the beta-amyloid precursor protein, which was recently found to be degraded by IDE in vitro. Together with emerging genetic evidence, our in vivo findings suggest that IDE hypofunction may underlie or contribute to some forms of AD and
DM2
and provide a mechanism for the recently recognized association among hyperinsulinemia, diabetes, and AD.
...
PMID:Insulin-degrading enzyme regulates the levels of insulin, amyloid beta-protein, and the beta-amyloid precursor protein intracellular domain in vivo. 1263 21
Abdominal obesity has been linked to the development of insulin resistance and
Type 2 diabetes mellitus
(
DM2
). By surgical removal of visceral fat (VF) in a variety of rodent models, we prevented insulin resistance and glucose intolerance, establishing a cause-effect relationship between VF and the metabolic syndrome. To characterize the biological differences between visceral and peripheral fat depots, we obtained perirenal visceral (VF) and subcutaneous (SC) fat from 5 young rats. We extracted mRNA from the fat tissue and performed gene array hybridization using Affymetrix technology with a platform containing 9 000 genes. Out of the 1 660 genes that were expressed in fat tissue, 297 (17.9 %) genes show a two-fold or higher difference in their expression between the two tissues. We present the 20 genes whose expression is higher in VF fat (by 3 - 7 fold) and the 20 genes whose expression is higher in SC fat (by 3 - 150 fold), many of which are predominantly involved in glucose homeostasis, insulin action, and lipid metabolism. We confirmed the findings of gene array expression and quantified the changes in expression in VF of genes involved in insulin resistance (PPARgamma leptin) and its syndrome (angiotensinogen and plasminogen activating inhibitor-1, PAI-1) by real-time PCR (qRT-PCR) technology. Finally, we demonstrated increased expression of resistin in VF by around 12-fold and adiponectin by around 4-fold, peptides that were not part of the gene expression platform. These results indicate that visceral fat and subcutaneous fat are biologically distinct.
...
PMID:Differential gene expression between visceral and subcutaneous fat depots. 1266 Aug 71
Although a number of assessments disagree, the preponderance of the evidence indicates that the major therapeutic action of metformin in
type 2 diabetes
(
DM2
) is on the liver, and glucose production (EGP) in particular. At the level of this organ, the actions of metformin can be characterized as pleiotropic. The major questions addressed here are therefore: (i) the methodological aspects of the determination of glucose fluxes: when glucose production is not found to be elevated in
type 2 diabetes
, it is not surprising that little action of metformin on this flux is found. The issues of populations examined, experimental protocols, and quantitative methods of flux determination are important in answering this question. Early morning EGP is increased and constitutes a valid target for metformin. (ii) the multiple targets of metformin: metformin acts at a number of sites and interacts with metabolites and hormones. Some of these actions may be expressed at different doses. Although their net effect is therapeutic, not all are oriented towards lowering hyperglycemia, perhaps explaining the more modest effect of this drug than could be anticipated from individual actions. Sites of metformin action can therefore be considered as a compilation of valid therapeutic targets in
DM2
. Gluconeogenesis, glycogenolysis and glycogen synthesis can be altered by metformin, although in vivo, this also depends on the methodology. Component processes from substrate supply and liver uptake, through a number of glucogenic enzymes, as well as glycogen synthase and phosphorylase have all been shown to be affected. (iii) unifying concepts: reported actions of metformin on the mitochondrial respiratory chain, free fatty acid metabolism, AMP-activated protein kinase, and on membrane proteins directly may all explain subsets of actions that are seen, providing more integrated targets for consideration in the therapy of
DM2
.
...
PMID:Metformin and its liver targets in the treatment of type 2 diabetes. 1276 87
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