Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042373 (vascular disease)
 17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Circulating platelet aggregates formed in vivo were serially measured, and platelet-aggregation thresholds were determined in vitro in 82 patients with acute cerebral ischaemia. The percentage of aggregated platelets was increased in 53 patients with completed stroke (30.9% +/- 2.0) and in 29 patients with transient ischaemic attacks (34.1% +/- 2.3), all studied within 10 days of the acute event. These values were higher (P less than 0.001) than levels of aggregated platelets in 30 patients with non-vascular neurological disease (16.8% +/- 2.3). The percentage of aggregated platelets returned to normal 10 days to 6 wk after acute cerebral ischaemia. Aspirin and dipyridamole did not affect either the increase in or subsequent normalisation of circulating-platelet-aggregate levels in these patients. Platelet-aggregation sensitivity to adenosine diphosphate and adrenaline was also increased in patients with acute cerebral ischaemia, but this abnormally resolved during convalescence. Platelet activation is abnormal in acute cerebral ischaemia but usually returns to normal with or without anti-platelet therapy. This activation of platelets may contribute to the clinical manifestations of occlusive vascular disease.
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PMID:Platelet activation in acute cerebral ischaemia. Serial measurements of platelet function in cerebrovascular disease. 6 34

Platelet aggregation and adhesion are commonly increased in diabetes mellitus. These abnormalities may in part be responsible for the increased incidence of vascular disease in diabetics. We have investigated the effects of diet, diet plus glibenclamide, and diet plus gliclazide on plasma glucose control and platelet function in 10 newly diagnosed maturity-onset diabetics who had not previously been treated. Before treatment, the mean postprandial plasma glucose value was 13,4 +/- 0,8 mmol/l, which fell insignificantly on dietary treatment, to 12,2 +/- 1,0 mmol/l (P greater than 0,05). Both glibenclamide and gliclazide, when added to the diet, significantly lowered mean plasma glucose values to 9,3 +/- 0,8 mmol/l and 7,8 +/- 0,8 mmol/l respectively (P less than 0,05). Platelet aggregation in response to 1 mumol adenosine diphosphate (ADP) was increased in the diet period, whereas aggregation in response to 10 mumol and 100 mumol was normal. This suggests an increased sensitivity of the platelets to ADP in diabetic patients. The addition of both glibenclamide and gliclazide reduced the magnitude of the response to within the normal range. Platelet aggregation in response to 10 mumol adrenaline and 750 micrograms/ml collagen was significantly reduced by glibenclamide (P less than 0,05). We conclude that sulphonylurea therapy appears to reduce the increased platelet aggregation which occurs in diabetics. This may play a role in the prevention of vascular disease.
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PMID:Effects of the sulphonylurea drugs gliclazide and glibenclamide on blood glucose control and platelet function. 12 45

Platelets from diabetic patients show both increased platelet adhesiveness and sensitivity to aggregating agents. Plasma levels of the platelet-active von Willebrand Factor and the closely related factor-VIII antigen are significantly elevated, while factor VIII procoagulant activity is not. This may reflect either intravascular coagulation or disproportionate production or degradation. Plasma factors that enhance ADP-induced platelet aggregation are found in 50% of unselected male diabetics. Activity is clearly demonstrated only when plasma is added immediately prior to adding subthreshold doses of ADP to platelet-rich plasma obtained from control subjects. Systematic investigations of the molecular nature of such factors and their interactions with platelets are in progress. In platelets obtained from diabetic subjects, we have previously found increased sensitivity to the aggregating effects of arachidonic acid, and increased synthesis of immunoreactive prostaglandin E-like material. More recent studies have shown that platelets obtained from diabetic subjects are less sensitive to the antiaggregatory effects of imidazole, a thromboxane synthetase inhibitor. These observations suggest that increased synthesis of the labile aggregating substance thromboxane A2 also occurs in platelets obtained from diabetics. Collectively, these platelet and plasma abnormalities may contribute to accelerated vascular disease of diabetes. Prospective studies using antiplatelet agents are presently underway or in the planning stages in diabetics to explore their potential beneficial effects.
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PMID:Platelet adhesion and aggregation in diabetes mellitus. 12 93

All agree on altered platelet function in vitro (and increasingly in vivo) in diabetics of substantial duration and/or with clinical evidence of angiopathy. However, a platelet abnormality earlier in the disease remains uncertain. Three sets of data from Oxford will be reviewed: (1) Observations of Honour on platelet aggregation at sites of minimal injury within blood vessels of anesthetized rabbits, with greater sensitivity to superfused ADP when hyperglycemia has followed alloxan only days previously. This increased aggregatability (not hyperglycemia determined) is reversed by a few days of insulin treatment or by dipyrimadole (alone or with synergistic acetyl salicylic acid): (2) Beta-thromboglobulin is released from platelets and is increased in venesected blood from diabetics after a standardized procedure (no prostaglandin E1 in anticoagulant) with final radioimmunoassay. Results in diabetics after surgery, etc., will also be presented, and (3) in a prospective study of newly-diagnosed, mostly maturity-onset type diabetics, an increase in plasma fibrinogen (thrombin coagulation of plasma, controlled against normals) was observed during the first 3 yr, largely due to males treated with sulfonylureas; decreases in platelet count and in prothrombin concentration were also statistically significant.
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PMID:Direct animal and indirect human evidence of altered platelet function in diabetics. 16 73

Excessive reactivity of blood platelets may contribute to atherosclerotic vascular disease. Hence drugs which alter platelet function may be protective. Prompted by findings that propranolol therapy normalized hyperactive platelet aggregation in patients with coronary artery disease, we studied propranolol in vitro to assess its action on platelets. At concentrations similar to those achieved in vivo (0.1-1 muM), propranolol raised the thresholds for aggregation of some normal paltelets by adenosine diphosphate (ADP). At higher concentrations (10-50 muM), propranolol abolished the second wave of platelet aggregation induced by ADP and epinephrine, and inhibited aggregation induced by collagen, thrombin, and the ionophore A23187. Propanolol blocked the release of 14C-serotonin from platelets, inhibited platelet adhesion to collagen, and interfered with clot retraction. Propranolol blocked ionophore-induced uptake of 45Ca by platelets. Inhibition appeared unrelated to beta-adrenergic blockage, as d(+) propranolol (which lacks beta-blocking activity) was equipotent with 1(-) propranolol. Moreover, practolol, a beta-blockading drug which is nonlipophilic, did not inhibit platelet function. These studies suggested that propranolol, like local anesthetics, decreased platelet responsiveness by a direct action on the platelet membrane, possibly by interfering with calcium availability. Modulation of platelet function by propranolol may occur at concentrations achieved at usual clinical doses of the drug.
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PMID:Effect of propranolol on platelet function. 31 74

Second-phase platelet aggregation induced by adenosine diphosphate (ADP) and epinephrine was measured in fasting platelet-rich plasma in normals, "prediabetics," and diabetics with or without vascular disease. "Plasma factor" potentiation of ADP-induced second-phase platelet aggregation was also estimated, as were megathrombocyte numbers in the same patient groups. There was an increased sensitivity of second-phase platelet aggregation noted with both aggregating agents in all diabetic groups except for the prediabetics. This activity was paralleled by an increase in plasma factor activity. In vivo evidence of an increased turnover of platelets in frank diabetics was suggested by increased numbers of megathrombocytes. These studies demonstrate that platelets from diabetics are sensitive to aggregating agents and that this sensitivity may be related to plasma factor(s) present in diabetics. In vivo platelet aggregation may be present in diabetics. Longitudinal studies will be necessary to establish the relationship of these findings to the genesis of diabetic vascular disease.
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PMID:Correlation of platelet aggregation, plasma factor activity, and megathrombocytes in diabetic subjects with an without vascular disease. 31 23

An increased sensitivity of platelets to aggregation from ADP and epinephrine is described in diabetics with or without vascular disease. This sensitivity correlates with elevated levels on von Willebrand factor (vWF), which, in turn appears to be influenced by growth hormone. VWF activity correlates with previously described "plasma factor" activity. Platelets from diabetic subjects are more sensitive than platelets from normal subjects to arachidonic acid-induced aggregation. This sensitivity is abolished by aspirin, which is a prostaglandin synthetase (cyclo-oxygenase) inhibitor. Platelets from diabetc subjects synthesize increased amounts of PGE2-like material (iPGE) in response to ADP, epinephrine, collagen, and arachidonic acid. The latter finding suggests that a fundamental mechanism for increased platelet aggregation in diabetes is increased prostaglandin synthetase activity. Therapeutic endeavors that would lower growth hormone levels, vWF activity, and/or prostaglandin synthetase activity may be of benefit in the prophylaxis of diabetic vascular disease. Prospective studies are needed to explore these hypothesis, as are more studies on the precise mechanisms and platelet aggregation in diabetes mellitus.
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PMID:Altered platelet function in diabetes mellitus. 82 64

Hypercholesterolemia and hypertension are two of the major risk factors associated with increased atherosclerotic vascular disease. An abnormal platelet function is one of the mechanisms proposed to participate in atherogenesis. This study was undertaken to find out whether hypercholesterolemia in hypertensive patients can change platelet lipid composition and reactivity. Twenty-nine untreated hypertensive patients were distributed into 3 age, body mass index and blood pressure-matched groups according to their plasma cholesterol levels (normal, borderline or elevated, group NC, BC and HC respectively). Their platelet lipid composition, cytosolic Ca2+ concentration, cyclic AMP content and aggregating response to ADP and collagen were determined. Platelet from group HC patients were characterized by reduced cyclic AMP content (evaluated in the presence and absence of a platelet phosphodiesterase inhibitor) and aggregating responses to ADP and collagen, increased palmitic acid content and decreased arachidonic, eicosapentaenoic and docosatetraenoic and pentaenoic acid content, resulting in a lowered polyunsaturated to saturated fatty acid ratio (P less than 0.001). In contrast, platelet cytosolic Ca2+ concentration, DPH steady-state anisotropy and cholesterol to phospholipid molar ratio were not significantly changed. This indicates that hypercholesterolemia is accompanied in hypertensive patients by marked changes in platelet fatty acid composition, cyclic AMP content and response to aggregating agents. These changes, which clearly differ from those induced by in vitro cholesterol loading, could reflect not only the balance between LDL and HDL stimulation but also an adaptation to hemodynamic perturbations.
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PMID:Biochemical and functional alterations associated with hypercholesterolemia in platelets from hypertensive patients. 132 32

We studied the effect of emotional stress (mental arithmetic for 10 min) in 10 postinfarction patients and in 10 age-matched apparently healthy subjects as controls. Blood samples for platelet function studies and for the determination of epinephrine levels in serum were taken in basal conditions, at the end of mental stress and after 30 min of recovery. Patients were studied twice, in washout of medications and after oral administration of dipyridamole, 200 mg twice a day for 6 consecutive days. Mental stress induced in patients significant increments in different hemodynamic parameters (heart rate, systolic blood pressure and diastolic blood pressure) and in serum epinephrine levels. Concomitantly, the test produced a significant increase in platelet aggregation (induced by 3 microM ADP or 1 microgram/ml collagen), the formation of circulating platelet aggregates and an increase in plasma thromboxane B2 levels. Hemodynamic parameters and platelet function tests returned to baseline values after 30 min. Similar activation of hemodynamic parameters, similar increase in epinephrine levels and lower increase in platelet function by emotional stress were observed in control subjects. Treatment of patients with dipyridamole had no effect on stress-induced increase in hemodynamic parameters and epinephrine levels, but decreased stress-related platelet activation. These data can contribute to a better understanding of the complex relationships between psychosocial factors, the hemostatic system and vascular disease.
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PMID:Effect of mental stress on platelet function in normal subjects and in patients with coronary artery disease. 142 58

To evaluate whether improvement of metabolic control or changes in fatty acid composition of serum lipids may alter thromboxane (TXB2) formation and platelet function we followed up 25 newly diagnosed type 2 diabetics without angiopathy for about 6 months. Improvement of metabolic control was associated with significant decrease in total cholesterol (C), HDL-C, LDL-C, triglycerides (TG) and ratios of total C/HDL-C and LDL-C/HDL-C, respectively. Palmitic acid of TG and phospholipids decreased significantly whereas linoleic acid increased in the two serum lipids. The ADP-induced platelet aggregability and sensitivity were not altered. There was even no effect on TXB2 synthesis capacity of clotting whole blood during 6 months of treatment. Platelet aggregability and TXB2 formation were not correlated to the degree of metabolic control, nor was there any correlation to serum lipids and their fatty acid composition.
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PMID:Improvement of metabolic control and changes of fatty acid composition do not alter platelet aggregability and thromboxane production in type 2 diabetes mellitus. 149 Jun 71


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