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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelets hyperaggregability and hypersecretion fibronectin (Fn) are known to occur in peripheral vascular disease (PVD) and diabetes mellitus (DM) with microangiopathy. To determine whether an increase in platelet membrane bound Fn constitutes to hyperaggregability of platelets, washed platelets from normal subjects and from patients with peripheral vascular disease and patients with diabetes mellitus were examined for the presence of fibronectin (Fn) by means of fluorescein linked antibody to Fn. Platelets from peripheral vascular disease and diabetes mellitus patients tended to aggregate during preparation and apparently exhibited greater fluorescence in platelet "smears" than was observed in smears from controls. In contrast, when washed platelet "smears" were prepared from platelet preparations containing iloprost, an analogue of prostacyclin, platelet aggregates did not form and the 'excess' of fluorescence disappeared from all the three groups. When platelets were stained for Fn fluorescence in suspensions, no fluorescence was observed on the surface of platelets from peripheral vascular disease and diabetes mellitus patients or controls. On stimulation with thrombin washed platelet suspension showed fluorescence for Fn. Platelet activation leads to Fn appearing on platelet surface but this effect cannot be quantified by optical fluorescence microscopy.
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PMID:A study of platelet fibronectin immunofluorescence in peripheral vascular disease and diabetes mellitus. 248 53

This study examines the incidence and significance of novel plasma derived platelet aggregating activity (PAA) in 190 consecutive patients admitted to the medical wards of a general hospital. Seventy five patients (39%) demonstrated this activity. The incidence was highest in patients with a history of thrombosis (52%) or in those with a heightened thrombotic tendency, for example, patients with diabetes or hypertension. In contrast, platelet aggregating activity was observed in six out of 62 patients (approximately 10%) in whom a current or past medical history of thrombosis could not be elicited and in only two out of 72 healthy volunteers examined (3%). A high frequency of PAA was also noted in a small group of patients with idiopathic thrombocytopenia and patients who had previously received platelet transfusions. In these patients, this activity presumably reflects the presence of antiplatelet antibodies. A good correlation between the presence of plasma derived platelet aggregating activity and the phenomenon of spontaneous platelet aggregation was observed. The platelet aggregating activity was not heparin dependent, but was completely abolished by EDTA (5 mM) and benzamidine (8 mM), or by pretreating the platelets with aspirin. A synergistic response was observed with subaggregatory concentrations of thrombin and adrenalin. Our results suggest that the presence of this platelet aggregating activity may provide a marker for vascular thrombosis. Furthermore we postulate that this plasma derived activity may be partly responsible for platelet hyperactivity previously observed in patients with thromboembolic disorders.
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PMID:Platelet aggregating activity in the plasma of patients with established thrombosis. 250 37

Diabetes mellitus (DM) is associated with an increased incidence of vascular complications. Abnormalities in the hemostatic system contribute at least in part to the development of vascular disease or atherosclerosis. In order to assess the actual degree of activation of the coagulation and fibrinolytic systems in diabetics, plasma levels of thrombin-antithrombin III complex (TAT) and plasmin-alpha 2-plasmin inhibitor complex (PAP) were measured together with tissue-type plasminogen activator (t-PA) and plasminogen activator inhibitor (PAI-1) in 18 patients with DM (three patients with type I DM and 15 with type II DM). Mean plasma levels of TAT (2.5 +/- SD 1.2 ng/mL) and PAP (0.9 +/- 1.2 micrograms/mL) were significantly elevated in diabetics as compared with healthy subjects (1.7 +/- 0.3 ng TAT and 0.2 +/- 0.1 micrograms PAP per mL of plasma; p = 0.009 and 0.02, respectively). Plasma antigen concentration of t-PA but not of PAI-1 was also elevated. No difference was found in the levels of these variables between type I and type II diabetics or between patients with and without retinopathy or nephropathy. These findings indicate that continuous activation of coagulation and fibrinolysis actually occurs in the majority of the patients with DM.
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PMID:Activation of blood coagulation and fibrinolysis in diabetes mellitus: evaluation by plasma levels of thrombin-antithrombin III complex and plasmin-alpha 2-plasmin inhibitor complex. 238 33

Individuals with diabetes mellitus may have increased in vivo platelet activity. Abnormal platelet function could contribute to the increased incidence of vascular disease in diabetes mellitus. The biochemical mechanism(s) for platelet hyperactivation is unknown. We examined the hypothesis that platelet phosphoinositide turnover, a key signal-transducing mechanism involved in platelet activation, was abnormal in diabetic subjects. Platelets were harvested from 16 subjects with insulin-dependent diabetes mellitus (IDDM) and 19 healthy, nondiabetic control subjects of comparable age. Plasma beta-thromboglobulin (beta-TBG), a specific marker of platelet activity in vivo, was increased in IDDM (67.1 +/- 7.3 ng/ml) compared with control (41.0 +/- 6.0 ng/ml) subjects (P less than .005). [32P]orthophosphate (32Pi) incorporation into the individual phosphoinositides and phosphatidic acid (PA) reached isotopic equilibrium by 120 min for IDDM and control subjects. Specific activity (dpm 32P/micrograms phosphorus) of phosphatidylinositol 4-phosphate (PIP) and phosphatidylinositol 4,5-bisphosphate (PIP2) was not different between IDDM and control subjects. Under these conditions, basal 32Pi incorporation into PIP2 and PIP but not phosphatidylinositol (PI) or PA was significantly lower in IDDM subjects. There was significantly decreased [32P]PIP2 and [32P]PIP hydrolysis and decreased [32P]PA formation in IDDM after platelet stimulation with 4 U/ml human thrombin. There were no differences in [32P]PI hydrolysis between the two groups. The mass of PIP2 was reduced (P less than .005) in the platelets from IDDM (0.71 +/- 0.23 nmol/10(9) platelets) compared with control (1.65 +/- 0.53 nmol/10(9) platelets) subjects. Similarly, PIP was lower (P less than .001) in IDDM (0.66 +/- 0.09 nmol/10(9) platelets) than in control (2.92 +/- 0.43 nmol/10(9) platelets) subjects.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1989 Sep
PMID:Decreased platelet phosphoinositide turnover and enhanced platelet activation in IDDM. 254 8

Nonenzymatic glycation of antithrombin III has been reported to cause the reduction of heparin-catalyzed thrombin-inhibiting activity in diabetes. The effect of in vitro nonenzymatic glycation of pure antithrombin III on heparin binding and heparin-potentiated activity under a variety of buffers and pH values was studied to further clarify the physiological significance of this reaction. The extent of glycation, measured by the fructosamine assay and [14C]glucose binding, was enhanced by the presence of phosphate ion (pH 7.45, 8.5 and 9.5) and increased linearly with increasing phosphate ion concentration from 0.01 to 0.2 M phosphate. Conversely, the heparin-catalyzed antithrombin activity decreased from 93.1% of controls for 0.01 M phosphate to 73.5% for 0.2 M phosphate as the extent of glycation increased. The increase in intrinsic fluorescence induced by binding of heparin to antithrombin III was also moderated by glycation of antithrombin III in a dose-dependent manner with a negative correlation coefficient of -0.94. Direct measurement of the heparin binding by affinity chromatography showed a decrease in the heparin-binding fraction which correlated with the degree of glycation and the decrease in heparin-catalyzed activity. These studies suggest that nonenzymatic glycation may be responsible for the reduction in antithrombin III activity observed in some diabetics.
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PMID:Phosphate promotes glycation of antithrombin III which interferes with heparin binding. 259 94

Glycosylation of low-density lipoprotein (LDL) is known to be increased in diabetic patients. Recent studies have demonstrated that glycosylated (glc-) LDL contributes to the acceleration of atherosclerosis in diabetes. In the present study, we evaluated the effect of glc-LDL prepared in vitro on platelet aggregation and thromboxane B2 (TxB2) production in washed human platelets and on 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha) production by cultured bovine aortic endothelial cells. After preincubation of washed platelets with glc-LDL or control LDL, thrombin-induced platelet aggregation and TxB2 production were measured. Control LDL enhanced the platelet aggregation rate and TxB2 production in a time- and dose-dependent manner. Glc-LDL showed significantly greater enhancement of those platelet functions than control LDL. On the other hand, while 6-keto-PGF1 alpha production was stimulated by control LDL in a time- and dose-dependent manner, glc-LDL significantly reduced the stimulatory effect of control LDL on 6-keto-PGF1 alpha production. These results suggest that modification of prostaglandin synthesis in platelets and endothelial cells by glycosylated LDL may lead to platelet hyperaggregation and thrombus formation in diabetes.
Diabetes Res 1989 Dec
PMID:Modification of prostaglandin synthesis in washed human platelets and cultured bovine aortic endothelial cells by glycosylated low density lipoprotein. 263 93

1. Endogenous noradrenaline release from washed platelets incubated under resting conditions and in the presence of thrombin was examined in 14 normal subjects and 10 subjects with type 1 (insulin-dependent) diabetes. 2. Irreversible aggregation of platelets from both normal and diabetic subjects was induced by thrombin (0.3 unit/ml). Platelets from diabetic subjects were more sensitive than platelets from normal subjects, extents of aggregation being 89% and 76%, respectively (P less than 0.002). 3. Stimulation with thrombin (0.3 unit/ml) elicited marked platelet release of noradrenaline to the incubation medium in both normal and diabetic subjects. Supernatant noradrenaline concentrations obtained under thrombin-stimulated conditions did not significantly differ between normal and diabetic subjects. However, under resting conditions noradrenaline levels were significantly greater (+93%, P less than 0.02) for diabetic than normal subjects. 4. Measurement of platelet noradrenaline contents after thrombin stimulation revealed no difference between normal and diabetic subjects. Under resting conditions, however, platelet noradrenaline levels were significantly lower (-46%, P less than 0.02) for diabetic than normal subjects. Thus, in the diabetic subjects increased resting platelet efflux of noradrenaline is mirrored by a decreased platelet noradrenaline content. 5. A consequence of increases in resting catecholamine efflux may be enhanced platelet activity resulting in increased platelet aggregation.
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PMID:Platelet efflux of noradrenaline in patients with type 1 diabetes mellitus. 273 79

Estimations of soluble fibrin monomer complexes (SFMC) in plasma are a convenient index of thrombin activation. Renal venous-arterial differences in plasma SFMC concentrations were determined in 16 randomly chosen diabetic patients by sampling directly and simultaneously from the renal artery and vein according to the method of Seldinger. In all subjects, SFMC concentrations were higher in the renal vein than in the renal artery, indicating that the kidney is an important source of SFMC. Venous-arterial differences were markedly elevated in patients with severe renal and retinal microangiopathy coupled with hypertension. The hypothesis is advanced that elevated plasma SFMC levels lead to abnormal fibrin deposits in lesioned glomeruli and retinal vessels. It is postulated that plasma SFMC may be a useful parameter for the assessment of diabetic vascular complications.
Diabetes Res Clin Pract 1989 Aug 01
PMID:Increased intraglomerular thrombin formation in diabetic microangiopathy. 277 51

Because diabetic vascular disease is accompanied by a state of hypercoagulability, manifested by increased thrombin activity and foci of intravascular coagulation, we investigated whether a specific procoagulant property of the endothelium--production and surface expression of tissue factor--is modified by elevated glucose concentrations. In unperturbed human vascular endothelial cells, tissue factor mRNA and expression of the functional protein were undetectable and were not induced by 10-12 days of exposure to 30 mM glucose. In thrombin-stimulated cultures, tissue-factor expression was related inversely to cellular density, with confluent cultures producing (per 10(5) cells) half the amount of tissue factor measured in sparse cultures. Cells exposed to high glucose and studied when cell number and thymidine incorporation were identical to control cells manifested increased tissue-factor mRNA level and functional protein production in response to thrombin (P = .002). This effect was not attributable to hypertonicity and was not observed after short exposure to high glucose. In contrast, the tissue-factor response to interleukin 1, a modulator of endothelial function in the context of host defense, was decreased in cells cultured in high glucose (P = .04). These findings indicate that exposure to high glucose can alter tissue-factor gene expression in perturbed vascular endothelium. The reciprocal effects of high glucose on the tissue-factor response to thrombin and interleukin 1 points to different pathways of tissue-factor stimulation by the two agents and suggests functional consequences pertinent to the increased thrombin activity and compromised host-defense mechanisms observed in diabetes.
Diabetes 1989 Feb
PMID:Modification of tissue-factor mRNA and protein response to thrombin and interleukin 1 by high glucose in cultured human endothelial cells. 278 75

We compared concentrations of antithrombin III (AT-III) in plasma, as determined by an immunological method and by a functional thrombin inhibition method, in the presence of heparin in 160 blood samples from Type I diabetics. Although the correlation was highly significant (P less than 0.001) between the results obtained by the two methods, our data demonstrated that results by the thrombin inhibition assay, 121 (SD 15)%, expressed as percentages of the results for a normal plasma pool, were significantly (P less than 0.001) higher than by the immunoreactive method, 104 (SD 15)%, indicating an overestimation of functionally active AT-III. Concentrations of functionally active AT-III determined by a factor Xa inhibition assay, 105 (SD 13)%, were in the same range as immunoreactive AT-III. Addition of IgG antiserum to normal pooled plasma quenched only about 90% of the AT-III activity determined by the thrombin inhibition assay, but all of the AT-III activity determined by a factor Xa inhibition assay. These results demonstrate that the factor Xa inhibition assay is more specific for the determination of AT-III than the thrombin inhibition assay. We suggest that the high concentrations of heparin cofactor II, 117 (SD 17)%, might have caused an overestimation of AT III in this group of patients with diabetes Type I, and should not be overlooked in other clinical situations.
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PMID:Increased concentrations of heparin cofactor II in diabetic patients, and possible effects on thrombin inhibition assay of antithrombin III. 291 May 81


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