UMLS:C0011849 - FACTA Search

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

Arteriosclerotic involvement of the PFA is correlated with diabetes mellitus. While patients without diabetes have disease limited to the PFA orifice and the circumflex vessels of the PFA, patients with diabetes are prone to extensive PFA involvement. Severity of atherosclerosis involving the CFA and SFA was not found to be specifically related to diabetes.
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PMID:Diabetes mellitus and atherosclerotic involvement of the profunda femoris artery. 650 41

This is a report of the implantation and first 100-day operation using a remote-controlled programmable insulin infusion device in an insulin-dependent diabetic. To prevent insulin aggregation, a special surface-active polymer developed by Hoechst AG, Frankfurt, was used as an additive. Implantation was completed on April 8, 1981, and good metabolic control was reached immediately and has continued to date (July 1981), with this unit providing the only source of insulin. There have been no hypoglycemic attacks. Patient acceptance is very good. The Siemens unit, PFA 01 (external) and DFA 01 (implanted) has proved reliable and precise.
Diabetes 1981 Dec
PMID:Long-term continuous intraperitoneal insulin infusion with an implanted remote-controlled insulin infusion device. 730 87

Aspirin (acetylsalicylic acid, ASA), which is recommended for primary and secondary prevention in diabetes mellitus (DM), has been shown to have a lower antiplatelet activity in diabetic patients. We conducted a crossover designed observational study to evaluate whether there is an association between the parameters relevant to metabolic control of diabetes and platelet sensitivity to aspirin in type 2 diabetic patients. Platelets' ability to adhere and aggregate was monitored with the use of platelet function analyser (PFA-100 collagen/epinephrine closure time, CT(CEPI) or collagen/ADP closure time, CT(CADP)), classical turbidimetric aggregometry and whole blood electrical aggregometry (WBEA), using collagen (WBEA(coll)), ADP (WBEA(ADP)) and arachidonic acid (WBEA(AA)) as platelet agonists, in 48 control healthy volunteers (mean age+/-S.D., 49+/-9 years) and 31 type 2 DM patients (50+/-9 years; HbA(1c) 9.4+/-1.6%). In majority of control subjects (69%) and minority of diabetic patients (29%, p=0.0006), the use of 150 mg aspirin daily for 1 week significantly reduced platelet adhesiveness and reactivity (by 14.1% in diabetes vs. 78.6% in control, p(np)=0.0035, as expressed by the relative changes in CT(CEPI)). Aspirin reduced WBEA(coll) and WBEA(AA) to a lesser extent in diabetic patients (by 2.1% vs. 8.3% in controls, p(np)=0.0397, and by 97.3+/-12.8% vs. 100% in controls, p(np)=0.0383, respectively), which corresponded to ASA-mediated decreased aggregation in platelet-rich plasma (PRP, r(S)=0.45 and r(S)=0.78 for collagen- or arachidonate-agonized platelets, p<0.01 or lower). The maximal inhibition of platelet aggregation was lower and IC(50) higher in diabetic compared to control subjects, both in the presence of arachidonic acid (71% vs. 39%, p(np)0.0001; 0.5 microg/ml vs. 1.3 microg/ml, p<0.0001) and collagen (52% vs. 35%, p<0.0004; 1.6 microg/ml vs. 2.1 microg/ml, p<0.01). The reduced response of platelets from diabetic subjects to aspirin was associated with a higher level of HbA(1c), lower concentration of HDL-cholesterol and a higher total cholesterol concentration. Overall, there is evidence that reduced platelets response to aspirin may occur more often in diabetic patients. Poor metabolic control may play a role in the reduced platelet sensitivity to aspirin in DM patients. Thus, our findings strongly support the requirements for an excellent near-normal metabolic control and may suggest a need for alternative ASA dosing schedules in DM patients.
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PMID:Reduced sensitivity of platelets from type 2 diabetic patients to acetylsalicylic acid (aspirin)-its relation to metabolic control. 1511 64

Reduced effectiveness of the most common antiplatelet drug, acetylsalicylic acid (ASA, aspirin), in diabetes mellitus has been associated with a lowered platelet sensitivity to ASA and related to glycemic control in diabetic patients. Our objectives were (a) to monitor the chemical background of how chronic hyperglycemia affects platelet response to ASA in diabetes and (b) to study a chemical competition between the amount of bound acetyl residues and the extent of protein glycation in blood platelets. Using whole-blood impedance aggregometry and platelet function analyzer (PFA-100) we observed a reduced platelet response to ASA in diabetic patients (14% vs. 79% for PFA-100 collagen-epinephrine occlusion time) and an association between the index of glycemic control and platelet refractoriness to ASA (r(S) = -0.378). Impaired platelet response to ASA was related to enhanced platelet protein glycation (3.6+/-0.4 in diabetes vs. 2.3+/-0.4 micromol fructosamine/microg protein in control) and reduced incorporation of acetyl residue into proteins of platelets from diabetic patients (47.4+/-2.0 in control vs. 33.1+/-0.7 micromol acetyl/microg protein in diabetic subjects). Incubation of blood platelets with increasing concentrations of glucose and ASA under in vitro conditions led to excessive modification in protein amino groups: glucose and ASA competed with each other in the course of nonenzymatic modifications, glycosylation, or acetylation, and their contributions to the occupancy of protein amino groups (R2 = 0.22 for glucose, R2 = 0.43 for ASA) were dependent upon the concentrations of glucose and ASA. Overall the effects of high glucose and high ASA on the overall occupancy of protein free amino groups are not additive. While at higher concentrations ASA overcomes the effects of hyperglycemia and retards glycation, high glucose makes acetylation less efficient, and therefore the resultant chemical modification becomes greatly reduced. In conclusion, diminished susceptibility of various platelet proteins and receptors on blood platelet membranes to acetylation and high ambient glucose might underlie the apparently differentiated sensitivity of blood platelets to ASA and determine platelet "insensitivity to aspirin" in diabetic patients.
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PMID:Increased protein glycation in diabetes mellitus is associated with decreased aspirin-mediated protein acetylation and reduced sensitivity of blood platelets to aspirin. 1572 65

Aspirin resistance has been recognised to occur in patients with cardiovascular disease and is associated with poor clinical prognosis. The purpose of the present study was to evaluate the prevalence of aspirin resistance in 172 patients with diabetes mellitus type 2 (DM-2). Platelet function of 172 consecutive patients with type 2 diabetes on chronic aspirin therapy was evaluated. The effect of aspirin was assessed using the platelet function analyser (PFA-100) system, reporting platelet-dependent thrombus formation as the time required to close a small aperture in a biologically active membrane. Resistance to aspirin was defined as a normal collagen/epinephrine-induced closure time (82-165 s). Aspirin responders were defined when closure time was > or =300 s. Thirty-seven (21.5%) of the type 2 diabetic patients were found to be resistant to chronic aspirin therapy, 29 (16.9%) were semi-responders and 106 (61.6%) were responders. Univariate analysis revealed that aspirin non-responders were significantly younger (p<0.05) compared to aspirin responders. A significant number of type 2 diabetic patients are resistant to aspirin therapy. Aspirin resistance can be evaluated by point-of-care testing and should be recognised in diabetic patients that are treated for primary or secondary prevention.
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PMID:Prevalence of aspirin resistance in patients with type 2 diabetes. 1594 44

Increased platelet inhibition is achieved when clopidogrel is added to aspirin (acetylsalicylic acid [ASA]). A broad variability in platelet inhibition profiles during the early phases of treatment has been demonstrated and may be attributed to ASA resistance. However, the influence of ASA sensitivity on platelet function profiles of patients on long-term dual antiplatelet therapy has yet to be explored. A total of 135 patients who had previously undergone percutaneous coronary intervention on long-term (>1 month) ASA and clopidogrel therapy was included. The PFA-100 system was used to define ASA resistance. Platelet aggregation, after adenosine diphosphate (6 and 20 micromol/L) and collagen (6 microg/ml) stimuli, and platelet activation (glycoprotein IIb/IIIa activation and P-selectin expression), after adenosine diphosphate (2 micromol/L) and thrombin receptor-activating peptide (50 micromol/L) stimuli, were assessed by light transmittance aggregometry and flow cytometry, respectively. Patient variability in response to treatment was defined by the coefficient of variability. ASA resistance was found in 60 of 135 patients (44%). Patients with diabetes were more frequently ASA resistant. Collagen/epinephrine- and collagen/adenosine diphosphate-coated cartridges on the PFA-100 had shorter closure times in the ASA-resistant population compared with ASA-sensitive patients. Platelet aggregation and activation were significantly higher in ASA-resistant patients. A broad variability (coefficient of variation >0.25) in patient response to treatment was observed in ASA-resistant and -sensitive patients. In conclusion, ASA resistance is associated with increased platelet reactivity in patients on long-term dual antiplatelet treatment.
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PMID:Influence of aspirin resistance on platelet function profiles in patients on long-term aspirin and clopidogrel after percutaneous coronary intervention. 1637 81

The antiplatelet effect of aspirin varies individually. This study evaluated whether the antiplatelet effect of aspirin associates with polymorphisms in the genes coding for cyclo-oxygenase-1 (COX-1) and several platelet glycoprotein (GP) receptors in patients with stable coronary artery disease (CAD). Blood samples were collected from 101 aspirin-treated (mean 100 mg/d) patients. Compliance to treatment was assessed by plasma salicylate measurement. Platelet functions were assessed by two methods: 1) Response to arachidonic acid (AA, 1.5 mmol/L in aggregometry, and 2) PFA-100, evaluating platelet activation under high shear stress in the presence of collagen and epinephrine (CEPI). Aspirin non-response was defined as: 1) slope steeper than 12%/min in AA-aggregations, and 2) by closure time shorter than 170 s in PFA-100. The methods used detected different individuals as being aspirin non-responders. Five and 21 patients, respectively, were non-responders according to AA-induced aggregation and PFA-100. Increased plasma thromboxane B2 levels correlated with poor aspirin-response measured with both AA-induced aggregations and PFA-100 (P = 0.02 and P = 0.003, respectively). Of the non-responders detected by AA, 3 of 5 (60%) carried the rare G allele for the -A842G polymorphism of COX-1 in contrast to 16 of 96 (17%) responders (P = 0.016). Diabetes was associated with poor response. Aspirin non-response detected by PFA-100 associated with C13254T polymorphism of GP VI and female gender (P = 0.012 and P = 0.019, respectively). Although two patients were possibly non-compliant, this did not effect present conclusions. Evaluation of aspirin efficacy by AA-induced aggregation and PFA-100 detected different individuals, with different genotypic profiles, as being aspirin non-responders.
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PMID:Polymorphisms of COX-1 and GPVI associate with the antiplatelet effect of aspirin in coronary artery disease patients. 1649 86

Platelet membrane receptors play a pivotal role in thrombus formation. Expression of platelet membrane receptors are under genetic control and gene sequence variations of receptors pivotal to thrombotic formation have been hypothesized to contribute to different degrees of individual response to aspirin. The aim of the present study was to investigate the impact of functional genetic polymorphisms of platelet membrane receptors on aspirin sensitivity assessed by means of the PFA-100 system in patients with coronary artery disease. Gene sequence variations of three platelet membrane receptors (GPIa/IIa, P2Y12, GPIIb/IIIa) pivotal to thrombus formation were assessed in 76 patients with coronary artery disease on chronic aspirin treatment. Patients with reduced sensitivity to aspirin were defined when closure-times of collagen/epinephrine cartridges < or =193 seconds and coined as PFA-100 non-responders. PFA-100 non-responders were observed in 33% of patients. Patients with diabetes mellitus were more frequently PFA-100 non-responders. Closure times of collagen/ADP coated cartridges were reduced in PFA-100 non-responders. The genotype distribution was similar in PFA-100 responder and non-responder patients for all three genotypes and did not vary in contemporaneous carriers of allelic variants. In conclusion, in vitro determined sensitivity to aspirin assessed using PFA-100 is not associated with gene sequence variations of platelet membrane receptors key to thrombus formation.
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PMID:Lack of association between gene sequence variations of platelet membrane receptors and aspirin responsiveness detected by the PFA-100 system in patients with coronary artery disease. 1712 87

A residual platelet reactivity (RPR) on antiplatelet therapy in patients with ischemic heart disease (IHD) has been reported to be associated with adverse clinical events by some Authors. However, scarce data are present on the clinical parameters associated with this phenomenon. No study, at our knowledge, was designed with the specific aim to examine the relationship between clinical characteristics and RPR. We sought to evaluate the clinical and laboratory characteristics associated with RPR in patients with IHD undergoing coronary revascularization on dual (aspirin plus clopidogrel) antiplatelet therapy. We included in the study 868 patients undergoing a coronary angiography: 386 with acute coronary syndromes undergoing a primary coronary revascularization and 482 IHD patients scheduled to undergo an elective coronary angiography. We measured platelet function by both platelet aggregation with two agonists [0.5 mg/mL arachidonic acid (AA); 2 and 10 microM adenosine 5'-diphosphate (ADP)] and a point-of-care assay (PFA-100) on venous blood samples collected within 24 h from the end of the procedure. In patients with acute coronary syndromes and elective PCI diabetes is independently associated with RPR [group A: OR=2.9 (1.5-5.7) by 10 microM ADP, OR=5.3 (1.1-27.8) by PFA-100; group B: OR=4.0 (1.6-10.0) by 10 microM ADP]; reduced left ventricular systolic function [OR=3.7 (2.2-6.5) by AA-PA, OR=2.7 (1.6-4.6) by PFA-100], chronic use of aspirin [OR=0.2 (0.1-0.4) by AA-PA, OR=0.3 (0.2-0.5) by PFA-100] and loading dose of clopidogrel [OR=0.2 (0.06-0.5) by 10 microM ADP] were independent variables significantly associated with RPR in patients undergoing elective PCI. In addition, inflammatory status was found to be significantly associated with RPR in both groups of patients. These results provide indications for the selection of patients for whom the evaluation of platelet reactivity could be useful.
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PMID:Residual platelet reactivity is associated with clinical and laboratory characteristics in patients with ischemic heart disease undergoing PCI on dual antiplatelet therapy. 1755 59

The objective was to describe the indices of platelet aggregation and activation in a large cohort of diabetic patients with coronary artery disease (CAD). Recently, a number of observations have indicated that patients with diabetes mellitus (DM) exhibit persistent platelet activation, and low response after antiplatelet therapy, although no randomized data exist. We sought to define the baseline platelet biomarkers, and the patterns of response to aspirin and clopidogrel therapy in DM versus non-diabetic patients. Secondary post-hoc analyses were made of platelet activity biomarkers in the dataset which consisted of patients with documented CAD (n = 822), including those with DM (n = 257). Patients with DM exhibited higher baseline platelet activity by adenosine diphosphate (ADP)- (p = 0.0002), and collagen-induced (p = 0.03) aggregometry; Ultegra- (p = 0.0001), and PFA-100 (p = 0.02) analyzers; and expression of platelet/endothelial cell adhesion molecule-1 (PECAM-1) (p = 0.01), glycoprotein (GP) IIb/IIIa antigen (p = 0.001), and activity (p = 0.02), vitronectin receptor (p = 0.03), P selectin (p = 0.02), and intact epitope of PAR-1 thrombin receptor (p = 0.02). Antiplatelet response after clopidogrel in diabetics was impaired when compared with non-diabetics. In conclusion, diabetic patients exhibit high pretreatment platelet activity, and do not respond well to the available antiplatelet regimens when compared with similar patients without DM. The clinical implications of these findings are unknown but are potentially important. Considering worsened outcomes in this high-risk population, clinical trials in DM are urgently needed in order to define the optimal degree of platelet inhibition and suitability for more aggressive antiplatelet regimens.
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PMID:Baseline platelet activity and response after clopidogrel in 257 diabetics among 822 patients with coronary artery disease. 1861 28

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