UMLS:C0011854 - FACTA Search

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

A 71-year-old man with type I diabetes mellitus was admitted to the hospital for the treatment of osteomyelitis of the left great toe secondary to methicillin-resistant Staphylococcus aureus. The patient was enrolled in an investigational protocol and was treated with teicoplanin 1200 mg/day. Following 40 days of treatment, the patient developed both markedly elevated serum creatinine and blood urea nitrogen. Urine analysis also showed the presence of protein. The eosinophils were markedly elevated in the blood. The patient was subsequently diagnosed with a probable drug-induced acute interstitial nephritis. Treatment with furosemide and hemodialysis over the next two weeks failed to produce improvement in renal function. The patient was referred for long-term dialysis. The data presented in this report suggest the possible relationship of teicoplanin and the development of renal failure in this patient. Periodic monitoring of renal function and follow-up are probably warranted in patients receiving long-term teicoplanin therapy.
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PMID:Teicoplanin nephrotoxicity: first case report. 153 25

We measured net uptake and release of amino acids in the brain of 7 nondiabetic and six diabetic subjects. Duration of insulin-dependent diabetes (IDDM) was 19.4 +/- 2.1 years. Arteriojugular vein measurements were performed before and after 120 minutes of insulin infusion and ensuing Biostator-regulated normoglycemia. Cerebral blood flow was measured during normoglycemia by 11-CH3-F and positron emission tomography. During hyperglycemia in the IDDM subjects, arterial concentrations of valine and leucine were higher, and those of glutamic acid and arginine lower, than in nondiabetic subjects. Insulin infusion lowered levels of most amino acids in both groups. Insulin treatment did not significantly affect the uptake or release of amino acids. Significant net uptake of branched-chain amino acids was noted in both groups, as well as uptake of lysine and phenylalanine in the IDDM subjects. The sum of measured differences was not different from zero in either group. Nitrogen balance depended on impressive release of glutamine from the brain (-963 +/- 147 and -960 +/- 303 nmol/100 g/min), which amounted to 73% and 69% of net release in nondiabetic and IDDM subjects, respectively. We conclude that balance between uptake and release of amino acids is similar in nondiabetic and in long-term IDDM subjects.
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PMID:Brain uptake and release of amino acids in nondiabetic and insulin-dependent diabetic subjects: important role of glutamine release for nitrogen balance. 153 41

Insulin-dependent diabetes mellitus is known to be associated with impaired ability of insulin to enhance tissue glucose uptake. However, no information is available whether or not this insulin resistance extends to insulin-mediated potassium (K+) uptake. Insulin-mediated decrease in serum potassium (K+) and in blood urea nitrogen (BUN) concentration was evaluated in 20 adolescents with IDDM and 10 matched controls during a 3-h hyperinsulinemic (1.7 mU/kg/min)-euglycemic clamp study. Insulin-mediated glucose disposal rate was lower in IDDM compared with controls (37.4 +/- 3.2 vs 63.8 +/- 5.4 mumol/kg/min, P less than 0.001). The decline in serum K+ concentration following hyperinsulinemia was significantly smaller in adolescents with IDDM than controls (0.29 +/- 0.06 vs 0.67 +/- 0.08 meq/liter, P = 0.002). Similarly the decline in BUN concentration was smaller in IDDM compared with control subjects (2.10 +/- 0.40 vs 3.70 +/- 0.56 mg/dl, P = 0.03), suggestive of decreased suppressibility of proteolysis. The changes in serum K+ and BUN concentrations were correlated (r = 0.64, P = 0.02) in controls but not in diabetics. Similarly, the decrement in serum K+ concentration showed a positive correlation with the rate of insulin-mediated glucose disposal (r = 0.68, P = 0.02) in controls but not in diabetics. The correlation of glucose disposal rate with the decline in BUN concentration did not reach a level of significance (r = 0.43, P = 0.1). These results indicate that adolescents with IDDM are resistant to the ability of insulin to stimulate in vivo K+ uptake and to suppress proteolysis.
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PMID:Impaired insulin mediated potassium uptake in adolescents with IDDM. 179 13

The clinical course of 24 patients with insulin-requiring diabetes mellitus who had received total parenteral nutrition (TPN) was retrospectively analyzed. Routine nutritional assessment disclosed significant depression of anthropometric indices and secretory protein levels in patients with chronic renal failure complicating juvenile onset diabetes mellitus (JODM). Biochemical complications including hypo- or hyperglycemia were significantly more frequent (p less than 0.001) in JODM than in maturity-onset diabetes and found to a lesser degree in patients with renal failure. The catheter infection rate was substantially higher (17%) than usually encountered in TPN therapy. Positive nitrogen balance was achieved in the majority of patients with an average 84% and 92% of estimated protein and caloric requirements being provided. Close monitoring and a protocol of infusion plus supplemental subcutaneous regular insulin was useful in providing adequate TPN safely to these high-risk patients.
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PMID:Total parenteral nutrition in patients with insulin-requiring diabetes mellitus. 308 5

Insulin antibodies, as measured by plasma radiolabeled insulin-binding capacity, were determined in 124 newly diagnosed insulin-dependent diabetic (IDDM) children before and after 1, 3, and 5 days of insulin therapy. Controls were 35 nondiabetic children with plasma insulin binding capacity of 1.0 +/- 0.7%. The patients were divided into three groups according to their plasma insulin-binding capacity. Group 1 (N = 79) had binding within two standard deviations (SD) of the control mean, group 2 (N = 20) had insulin binding 2-6 SD above controls, and group 3 (N = 25) showed insulin-binding capacity of more than 6 SD above the control mean. After exogenous insulin therapy, plasma 125I-insulin-binding capacity dropped significantly in both groups 2 and 3, concurrent with significant increases in plasma insulin levels. The three groups differed from each other in that patients in group 3 were significantly younger than in the other groups and clinically seemed to be more severely dehydrated, as reflected in their higher levels of serum urea nitrogen, plasma glucose, potassium, and elevated pulse rate. The three groups did not differ in respect to sex, HLA-DR antigens, Coxsackie-B antibody titers, islet cell cytoplasmic antibodies, immunoglobulin level, and C-peptide levels. Only two of 446 siblings of IDDM children showed elevated insulin binding, one of whom developed IDDM 6 wk later. The presence of an insulin-binding substance probably representing insulin antibodies in some cases of newly diagnosed IDDM suggests that autoimmunity in this disorder is not limited to the B-cell membrane and cytoplasm and lends further support to the heterogeneity of IDDM.
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PMID:Correlates of insulin antibodies in newly diagnosed children with insulin-dependent diabetes before insulin therapy. 389 1

The renal excretion of 3-methylhistidine was measured in healthy human volunteers under different diets. The excretion of 3-methylhistidine and total nitrogen was increased in 8 surgical patients. These findings are referred to an increased proteolysis mainly in the skeletal muscle. In four insulin-dependent diabetic patients (IDDM) the excretion of 3-methylhistidine into urine was increased only when referred to body weight. The interpretation of the 3-methylhistidine/creatinin ratio is discussed. In diabetic patients the total nitrogen excretion seems to be a better parameter for protein turnover than 3-methylhistidine. The data suggest that 3-methylhistidine excretion into urine is a suitable parameter for the determination of muscle protein turnover.
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PMID:[3-Methylhistidine as a parameter for the determination of muscle proteolysis in the post-stress syndrome and in diabetes mellitus]. 643 16

The effect of diabetes in pregnancy on leucine turnover and oxidation was examined in 12 insulin-dependent diabetic (IDDM) subjects and 12 gestationally diabetic (GDM) subjects during the third trimester of pregnancy. The data were compared with those in normal pregnant women studied during the same time period and reported previously. Eight of the IDDM subjects were on continuous subcutaneous insulin infusion (insulin pump), and four were on conventional twice-daily insulin treatment. Of the GDM group, seven were on insulin therapy and five were on dietary management. Leucine kinetics were quantified using [1-13C]leucine tracer in combination with respiratory calorimetry and measurement of lean body mass using the H2[18O] dilution method. In addition, glucose kinetics were measured in insulin-treated subjects using [6,6(2)H2]glucose tracer. Despite rigorous metabolic control, fasting plasma glucose (IDDM 5.5 +/- 1.9 mmol/L [P < .05], GDM 4.7 +/- 1.3 [P < .01], controls 3.6 +/- .6, mean +/- SD) and hemoglobin A1 ([HbA1] IDDM 7.9 +/- 1.9%, GDM 7.5% +/- 2.1%) levels were higher in diabetic subjects. Although total insulin levels were higher in insulin-treated diabetic subjects, free-insulin concentrations were similar in all groups. Rates of excretion of urinary urea nitrogen and respiratory quotients were also similar. The rate of glucose turnover was lower in insulin-treated subjects compared with normals. Leucine flux, a measure of the rate of protein breakdown, and leucine oxidation were higher in IDDM and insulin-treated GDM subjects. The rate of leucine oxidation was increased in conventionally managed IDDM and insulin-treated GDM subjects.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Leucine kinetics during a brief fast in diabetes in pregnancy. 813 88

In IDDM, the gluconeogenic turnover of amino acids is increased even if glycemia is well controlled and may be restored to normal by means of prehepatic insulin substitution. Therefore, the present study was designed 1) to investigate the influence of route of insulin administration (portal versus peripheral) on the urea production rate, which is considered to measure amino acid catabolism, and 2) to elucidate the impact of different food-protein intake. Paired studies were conducted in chronic insulin-dependent diabetic dogs maintained normoglycemic. Diabetic animals and nondiabetic controls were fed either a high-protein diet (46% of energy intake provided by proteins; study 1) or a low-protein carbohydrate-supplemented diet (20% of energy intake provided by protein; study 2) for 2 days, and flux rates of glucose and urea were measured using isotope dilution techniques. In both studies, the diabetic animals were maintained normoglycemic by glucose-controlled insulin infusion delivered either systemically or portally. In study 1 versus study 2, the animals showed lower alpha-amino nitrogen levels and concentrations of gluconeogenic amino acids, predominantly alanine. There were no significant differences in plasma glucose and glucose turnover between the experimental groups on either systemic or portal insulin infusion versus controls; however, peripheral insulin levels were higher for diabetic animals maintained with systemic versus portal insulin delivery (P < 0.05). No significant differences in glucagon, lactate, pyruvate, nonesterified fatty acids, or beta-hydroxybutyrate were observed. Urea production was significantly higher in study 1 compared with study 2: 7.48 +/- 0.83 vs. 5.97 +/- 0.59 micromol / kg / min (normal dogs); 12.97 +/- 1.86 vs. 5.54 +/- 0.60 micromol / kg / min (diabetic dogs on portal insulin); 16.11 +/- 2.59 vs. 6.82 +/- 0.70 micromol / kg / min (diabetic dogs on systemic insulin infusion); P < 0.05 for all. The diabetic dogs maintained normoglycemic with systemic insulin infusions had significantly higher rates of urea synthesis than those with portal insulin infusion (P < 0.05). It is concluded that in IDDM, even if normoglycemia is managed, there is significantly increased amino acid catabolism with posthepatic systemic insulin treatment. This increased catabolic rate is more pronounced during high-protein nourishment.
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PMID:Increased urea synthesis in insulin-dependent diabetic dogs maintained normoglycemic: effect of portal insulin administration and food protein content. 862 Oct 20

Peroxynitrite (ONOO-) is a highly reactive oxidant species produced by the reaction of the free radicals superoxide (O(2).-) and nitric oxide (NO.). Here we report a marked increase in nitrotyrosine (NT), a marker of peroxynitrite, in islet cells from NOD mice developing spontaneous autoimmune diabetes. By using specific antibodies and immunohistochemical methods, we found that NT-positive cells were significantly more frequent in islets from acutely diabetic NOD mice (22 +/- 6%) than in islets from normoglycemic NOD mice (7 +/- 1%) and control BALB/c mice (2 +/- 1%). The NT+ cells in islets were identified to be macrophages and also beta-cells. Most of the beta-cells in islets from acutely diabetic NOD mice were NT+ (73 +/- 8%), whereas significantly fewer beta-cells were NT+ in islets from normoglycemic NOD mice (18 +/- 4%) and BALB/c mice (5 +/- 1%). Also, the percentage of beta-cells in islets from NOD mice (normoglycemic and diabetic) correlated inversely with the frequency of NT+ beta-cells. This study demonstrates for the first time that peroxynitrite, a reaction product of superoxide and nitric oxide, is formed in pancreatic islet beta-cells of NOD mice developing autoimmune diabetes. This suggests that both oxygen and nitrogen free radicals contribute to beta-cell destruction in IDDM via peroxynitrite formation in the islet beta-cells.
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PMID:Development of autoimmune diabetes in NOD mice is associated with the formation of peroxynitrite in pancreatic islet beta-cells. 913 63

Fructan is a general term used for any carbohydrate in which one or more fructosyl-fructose link constitutes the majority of osidic bonds. This review focuses on the fate of inulin-type fructans (namely native chicory inulin, oligofructose produced by the partial enzymatic hydrolysis of chicory inulin, and synthetic fructans produced by enzymatic synthesis from sucrose) in the gastrointestinal tract, as well as on their systemic physiological effects on mineral absorption, carbohydrate and lipid metabolism, hormone balance, and nitrogen homeostasis. The scientific evidence for the functional claims of inulin-type fructans is discussed, as well as their potential application in risk reduction of disease, namely constipation, infectious diarrhea, cancer, osteoporosis, atherosclerotic cardiovascular disease, obesity, and non-insulin dependent diabetes.
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PMID:Dietary fructans. 970 21

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