Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stroke and stroke-like episodes are frequent complications in mitochondriopathy, particularly in MELAS syndrome (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke like episodes) which is a disorder of the mitochondrial oxidative metabolism in diverse cell types. To clarify a possible pathological aspect of stroke in these patients, we investigated platelet function before and after physical exercise. Ten patients with mitochondriopathy and stroke and ten healthy sex and age matched controls were investigated in an analyst blinded, prospective cross-sectional trial. Exercise decreased intraplatelet adenosine triphosphate (ATP) concentrations by -22% from baseline in patients with mitochondriopathy (p<0.01 between groups) while exercise increased ATP-levels by 28% healthy controls (p=0.01 vs baseline). Thrombin receptor activating peptide (TRAP) stimulated P-selectin expression increased up to 50% (p<0.05) in healthy subjects following exercise compared to 39% (p>0.05) in patients with mitochondriopathy. Exercise trendwise decreased platelet plug formation under shear stress by 24% in patients as measured by the platelet function analyzer PFA-100(R). Tromboelastography showed firm thrombus formation and delayed lysis in patients following exercise. In conclusion, this trial has shown that ATP depletion during and after exercise probably accounts for a defective oxidative metabolism in platelets of patients with mitochondriopathy and stroke. This might induce decreased platelet function in these patients but fails to explain the increased stroke rate. Therefore other mechanisms seem to be etiologically involved in the pathogenesis of stroke in patients with mitochondriopathy.
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PMID:Platelet function in mitochondriopathy with stroke and stroke-like episodes. 1498 31

In 1974 Wu and Hoak described a method for determining circulating platelet aggregates. This method was modified by Grotemeyer in 1983. The platelet reactivity index (PR) is based on the ratio of platelet aggregates in blood samples obtained in different buffer solutions. Platelet aggregates are resolved, when blood is sampled in EDTA-buffer, but remain fixed when EDTA-formalin-buffer is used. Generally, the PR is preferred, because in vitro manipulations of platelets are not necessary, and the results are estimated automatically. PR values above 1.05 are suspicious for elevated platelet aggregation. PR values above 1.2 indicate pathological changes in platelet aggregation. The PR is inexpensive (4.0 D ) and rapid to perform. PR-values were used successfully to identify non-responders to secondary prophylaxis with acetylsalicylic acid (ASA), i. e. patients suffering from stroke (33%) and after cardiac ischaemia (18%). Furthermore, elevated PR-values correlated significantly with the incidence of arterial thromboembolic complications. The PR correlated well in a own prospective study (drug monitoring) with values received from the retention test Homburg (RT-H) and the platelet function analyser (PFA-100). These data indicate that the values of the PR seems to be highly predictive for the evaluation of the ASA therapy. However, the PR is not suitable for the determination of ASA overdosage.
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PMID:[Platelet reactivity index by Grotemeyer]. 1531 7

Vascular events commonly recur in stroke patients on aspirin, and may reflect incomplete inhibition of platelet function with aspirin therapy. The platelet function analyser (PFA-100) activates platelets by aspirating a blood sample at a moderately high shear rate through a capillary to a biologically active membrane with a central aperture. The membrane is coated with collagen, and either ADP (C-ADP) or epinephrine (C-EPI). The time taken for activated platelets to adhere, aggregate, and occlude the aperture is called the closure time. Previous studies have shown that aspirin prolongs the C-EPI closure time, without prolongation of the C-ADP closure time, in the majority of control subjects. We hypothesised that the PFA-100 would provide a sensitive assay for the detection of early and convalescent phase cerebrovascular disease (CVD) patients who had incomplete inhibition of platelet function with aspirin. We investigated potential cyclooxygenase-dependent and -independent mechanisms that might influence the responsiveness to aspirin using the PFA-100. Patients were studied during the early (< or = 4 weeks, n=57) and convalescent phases ((< or = 3 months, n=46) after ischaemic stroke or TIA. To investigate potential mechanisms that could contribute to aspirin responsiveness on the PFA-100, we measured von Willebrand factor antigen levels, and carried out platelet aggregometry experiments in platelet-rich plasma in response to sodium arachidonate (1 mM) and ADP (5 microM). Sixty percent of patients in the early phase and 43% of patients in the convalescent phase did not have prolonged C-EPI closure times on 75-300 mg of aspirin daily, and were defined as aspirin non-responders. Median C-ADP closure times were significantly shorter in aspirin non-responders than aspirin-responders in both the early and convalescent phases after symptom onset (P=0.008), suggesting platelet hyper-reactivity to collagen or ADP in the aspirin non-responder subgroup. There was a significant inverse relationship between plasma von Willebrand factor antigen levels and C-EPI closure times in both early and convalescent phase CVD patients (P=0.008). Mean von Willebrand factor antigen levels were significantly higher in aspirin non-responders than aspirin responsive patients in the early (P=0.001), but not convalescent phase (P=0.2) after stroke and TIA. None of the patients studied were defined as being aspirin-resistant using sodium arachidonate- or ADP-induced platelet aggregometry. A large proportion of ischaemic CVD patients have incomplete inhibition of platelet function with low to medium dose aspirin using the PFA-100. The results suggest that cyclooxygenase-independent mechanisms, including elevated von Willebrand factor antigen levels, play an important role in mediating aspirin non-responsiveness on the PFA-100.
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PMID:Assessment of the antiplatelet effects of low to medium dose aspirin in the early and late phases after ischaemic stroke and TIA. 1601 77

Most acute coronary syndromes result from a platelet-rich occlusion of the coronary arteries. Antiplatelet drugs are of proven efficacy in preventing myocardial infarction, unstable angina, and stroke. However, not all patients on aspirin (ASA) benefit. We studied the phenomenon of aspirin resistance with a simple and reliable platelet function analyzer--the PFA-100. Studying 31 patients with unstable angina and 105 controls, we found aspirin resistance in 42% of patients, most of whom were shown to be compliant utilizing concomitant salicylate levels.
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PMID:Detection of aspirin resistance by PFA-100: prevalence and aspirin compliance in patients with chronic stable angina. 1614 20

In 1974, Wu and Hoak described a method for determining circulating platelet aggregates. This method was modified by Grotemeyer in 1983. The platelet reactivity index (PR) is based on the ratio of platelet aggregates in blood samples obtained in different buffer solutions. Platelet aggregates are resolved when blood is sampled in EDTA-buffer, but remain fixed when EDTA-formalin-buffer is used. Generally, the PR is preferred, because in vitro manipulations of platelets are not necessary, and the results are calculated. PR values above 1.05 are suspicious for elevated platelet aggregation. PR values above 1.2 indicate pathological changes in platelet aggregation. The PR is inexpensive (4.0 euro dollars) and rapid to perform. PR values were used successfully to identify nonresponders to secondary prophylaxis with acetylsalicylic acid (ASA), that is, patients suffering from stroke (33%) and patients after cardiac ischemia (18%). Furthermore, elevated PR values correlated significantly with the incidence of arterial thromboembolic complications. The PR correlated well in our prospective study with values received from the retention test Homburg (RT-H) and the platelet function analyzer (PFA-100). The data indicate that the values of the PR seem to be highly predictive for the evaluation of the ASA therapy. However, the PR is not feasible for the determination of the ASA overdosage.
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PMID:Use of the platelet reactivity index by Grotemeyer, platelet function analyzer, and retention test Homburg to monitor therapy with antiplatelet drugs. 1614 25

Aspirin resistance may increase the risk of major adverse cardiac events (MACE) more than threefold in patients with stable coronary artery disease (CAD). This study aimed to determine the prevalence of aspirin resistance in patients with stable CAD, the role of aspirin resistance on outcome in the follow-up, and the effect of clopidogrel therapy in MACE prevention in aspirin-resistant individuals. We detected the prevalence of aspirin resistance in 234 patients with stable CAD. Platelet function was determined by PFA-100 with collagen and/or epinephrine and collagen and/or ADP cartridges. The mean follow-up time was 20.6 +/- 6.9 months. The primary endpoints of the study were occurrence of myocardial infarction, unstable angina, stroke and cardiac death. Of patients, 22.2% (n = 52) were aspirin resistant by PFA-100. During follow-up, MACE occurred in eight patients (15.4%) with aspirin resistance and in 20 patients (11.0%) with aspirin-sensitive platelet aggregation (P = 0.269). MACE increased in aspirin-resistant patients after termination of clopidogrel therapy. Eleven patients experienced MACE after cessation of clopidogrel therapy (P < 0.001). The MACE risk in patients with stable CAD having detected aspirin resistance was similar compared with patients having aspirin-sensitive platelet aggregation by PFA-100. The MACE prevalence increased during follow-up, however, just after cessation of clopidogrel therapy.
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PMID:Clinical relevance of aspirin resistance in patients with stable coronary artery disease: a prospective follow-up study (PROSPECTAR). 1728 37

The administration of an adenosine diphosphate (ADP) receptor antagonist, such as clopidogrel, is recommended for recurrent stroke patients under aspirin treatment. However, up to 25% of vascular patients have an inadequate response to clopidogrel treatment, which could be associated with increased reinfarction rates. This study investigated whether the platelet function analyzer (PFA-100) system represents an appropriate tool for monitoring clopidogrel's antiplatelet effects in stroke patients. Sixteen stroke patients on clopidogrel therapy (75 mg/day) were included in a prospective analyst-blinded, cross-sectional study. Platelet function was assayed by collagen/epinephrine (CEPI)- and collagen/ADP (CADP)-induced closure times (CTs) using the PFA-100 system. von Willebrand factor antigen (vWF-Ag) levels were measured by enzyme immunoassay. CEPI-CT and CADP-CT values averaged 160 +/- 15 seconds and 102 +/- 10 seconds, respectively, and were in the normal range. vWF-Ag concentrations averaged 153 +/- 17% and correlated inversely with CTs (r = .71; P < .002 for CEPI-CT, r = .54; P < .04 for CADP-CT). Our data indicate that the current PFA-100 cartridges are not sufficiently sensitive to detect clopidogrel-induced platelet inhibition in stroke patients.
J Stroke Cerebrovasc Dis
PMID:Clopidogrel-induced platelet inhibition cannot be detected by the platelet function analyzer-100 system in stroke patients. 1784 16

Enhanced platelet activity correlates with early markers of myocardial damage in patients with cardiovascular disease. However, the extent to which enhanced platelet function signals subsequent adverse clinical outcomes in patients with cardiovascular disease is unknown. Blood from patients with stable cardiovascular disease receiving aspirin (325 mg/day) as the only antiplatelet therapy was tested for closure time (CT) with the Dade PFA-100 Platelet Function Analyzer system collagen/adenosine diphosphate (ADP) [CADP] cartridge and platelet aggregometry using 10 microM ADP. This study intentionally focused on those patients defined as aspirin sensitive by previously established criteria of arachidonic acid- and ADP-induced platelet aggregometry, and separately by collagen/epinephrine (CEPI) CT using the PFA-100. Follow up averaged 22 months for the adverse clinical events of death, myocardial infarction or cerebrovascular accident. For aspirin sensitivity determined by aggregometry, patients with CADP CT < 90 seconds (125/296 = 42.2%) had a composite endpoint rate of 19.2% (24/125), while those with CADP CT 90 seconds (171/296 = 57.8%) had an endpoint rate of 5.3% (9/171). Patients with CADP CT <90 seconds had a relative risk (RR) of 3.65 (95% CI.: 1.76-7.57) for recurrent events and 6.56 (95% CI.: 1.93-22.35) for death compared to patients with CADP CT 90s. Nearly identical results were obtained when patients were categorized as aspirin sensitive by CEPI CT. Platelet aggregometry with 10 microM ADP yielded no significant RR for the selected outcomes. Platelet function testing using the PFA-100 system appears to identify a subgroup of stable cardiovascular disease patients with increased risk of major adverse events that is associated with hypersensitivity to ADP, regardless of apparently effective aspirin therapy.
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PMID:Hypersensitivity of platelets to adenosine diphosphate in patients with stable cardiovascular disease predicts major adverse events despite antiplatelet therapy. 1785 73

Aspirin protects from cardiovascular events because of its antiaggregant effect. The occurrence of new events in patients who take aspirin has been called clinical aspirin resistance. Many authors believe that aspirin resistance must be detected by biochemical tests, although there is no agreement on which is the best. Nor is there agreement on the term aspirin resistance. Tests used in research laboratories are aggregometry (turbidometric and impedance), tests based on activation-dependent changes in platelet surface, and tests based on activation-dependent release from platelets. Point-of-care tests are PFA-100, IMPACT and VerifyNow, which can detect platelet dysfunction that may be due to aspirin effect, but their use for this purpose is not yet recommended. Aspirin response may be modified by different factors: patient's compliance, dose, smoking, hyperlipidemia, hyperglucemia, acute coronary syndrome, percutaneous revascularization, recent stroke, extracorporeal circulation, heart failure, exercise, circadian rhythm, absorption, concomitant medications, polymorphisms. Patients with aspirin resistance may have an increased risk of cardiovascular events, and possible therapeutic options are to increase the dosage, to replace aspirin with another antiaggregant drug or to add another drug. In conclusion, there are many reasons that explain the variability in individual responsiveness to aspirin. The term resistance is probably not exact in describing this phenomenon.
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PMID:Variability in individual responsiveness to aspirin: clinical implications and treatment. 1822 Jul 26

Dual antiplatelet therapy represents an important advance for patients with established coronary artery disease. It is an important strategy for patients with acute coronary syndromes and those undergoing percutaneous transcatheter coronary interventions. Clopidogrel effectively inhibits ADP-induced platelet activation and aggregation by selectively and irreversibly blocking the P2Y(12) receptor on the platelet membrane. Aspirin works by irreversibly acetylating the cyclooxygenase (COX-1) enzyme, thus suppressing the production of thromboxane A(2) (TxA(2)) and inhibiting platelet activation and aggregation. Variable platelet response and potential resistance to therapy has emerged with aspirin and clopidogrel. The definitions of antiplatelet agents variability in responsiveness and nonresponsiveness are discussed. Clopidogrel and aspirin responsiveness as they are measured in the laboratory by various techniques (platelet aggregometry and point-of-care assays such as platelet function analyzer [PFA-100] and rapid platelet function assay [RPFA]) are evaluated. The mechanisms responsible for variations in responsiveness to antiplatelet agents such as clinical, cellular and genetic factors are defined. Aspirin and clopidogrel resistance are emerging clinical entities with potentially severe consequences such as myocardial infarction, stroke or death. The therapeutic interventions to deal with nonresponsiveness are reported, although specific recommendations are not clearly established. In the future, routine measurement of platelet function in patients with cardiovascular disease may become the standard of care. Personalized antithrombotic treatment strategies may be determined by ex-vivo measurements that identify critical pathways influencing thrombotic risk in the individual patient.
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PMID:Clopidogrel and aspirin in cardiovascular medicine: responders or not--current best available evidence. 1885 44


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