Verapamil and aspirin modulate platelet-mediated vasomotion in arterial segments with intact or disrupted endothelium

Effect of aspirin on acute changes in peripheral arterial stiffness and endothelial function following exertional heat stress in firefighters: The factorial group results of the Enhanced Firefighter Rehab Trial

Peripheral arterial stiffness and endothelial function, which are independent predictors of cardiac events, are abnormal in firefighters. We examined the effects of aspirin on peripheral arterial stiffness and endothelial function in firefighters. Fifty-two firefighters were randomized to receive daily 81 mg aspirin or placebo for 14 days before treadmill exercise in thermal protection clothing, and a single dose of 325 mg aspirin or placebo immediately following exertion. Peripheral arterial augmentation index adjusted for a heart rate of 75 (AI75) and reactive hyperemia index (RHI) were determined immediately before, and 30, 60, and 90 minutes after exertion. Low-dose aspirin was associated with lower AI75 (-15.25±9.25 vs -8.08±10.70, p=0.014) but not RHI. On repeated measures analysis, treatment with low-dose aspirin before, but not single-dose aspirin after exertion, was associated with lower AI75 following exertional heat stress (p=0.018). Low-dose aspirin improved peripheral arterial stiffness and wave reflection but not endothelial function in firefighters.

Clinical review: Traumatic brain injury in patients receiving antiplatelet medication

As the population ages, emergency physicians are confronted with a growing number of trauma patients receiving antithrombotic and antiplatelet medication prior to injury. In cases of traumatic brain injury, pre-injury treatment with anticoagulants has been associated with an increased risk of posttraumatic intracranial haemorrhage. Since high age itself is a well-recognised risk factor in traumatic brain injury, this population is at special risk for increased morbidity and mortality. The effects of antiplatelet medication on coagulation pathways in posttraumatic intracranial haemorrhage are not well understood, but available data suggest that the use of these agents increases the risk of an unfavourable outcome, especially in cases of severe traumatic brain injury. Standard laboratory investigations are insufficient to evaluate platelet activity, but new assays for monitoring platelet activity have been developed. Commonly used interventions to restore platelet activity include platelet transfusion and application of haemostatic drugs. Nevertheless, controlled clinical trials have not been carried out and, therefore, clinical practice guidelines are not available. In addition to the risks of the acute trauma, patients are at risk for cardiac events such as life-threatening stent thrombosis if antiplatelet therapy is withdrawn. In this review article, we summarize the pathophysiologic mechanisms of the most commonly used antiplatelet agents and analyse results of studies on the effects of this treatment on patients with traumatic brain injury. Additionally, we focus on opportunities to counteract antiplatelet effects in those patients as well as on considerations regarding the withdrawal of antiplatelet therapy. In those chronically ill patients, an interdisciplinary approach involving intensivists, neurosurgeons as well as cardiologists is often mandatory.

Overcoming limitations of current antiplatelet drugs: a concerted effort for more profitable strategies of intervention

Platelets play a central role in the pathophysiology of atherothrombosis, an inappropriate platelet activation leading to acute ischemic complications (acute myocardial infarction, ischemic stroke). In view of this, platelets are a major target for pharmacotherapy. Presently, the main classes of antiplatelet agents approved for the use in such complications are aspirin and thienopyridines. Although antiplatelet treatment with these two types of drugs, alone or in combination, leads to a significant reduction of non-fatal myocardial infarction (-32%), non-fatal stroke (-25%), and of cardiovascular death (-17%), a residual risk persists. Newer antiplatelet agents have addressed some, but not all, these limitations. Vis-à-vis their net clinical benefit, the higher potency of some of them is associated with a rise in bleeding complications. Moreover, newer thienopyridines do not show advantages over and above the older ones as to reduction of stroke. A concerted effort that takes into consideration clinical, genetic, and laboratory information is increasingly recognized as a major direction to be pursued in the area. The well-established road signs of clinical epidemiology will provide major information to define newer potentially useful targets for platelet pharmacology.

Do leukocytes contribute to impaired microvascular tissue perfusion after arterial repair?

Impaired capillary perfusion may result in flap failure. Platelet emboli, polymorphonuclear leukocytes (PMNs), and/or vasospasm have been identified as possible causes. This study investigates the role of PMNs in causing impaired capillary perfusion in a free flap model. PMN concentrations were depleted using antineutrophil serum. The cremaster muscles of 20 Sprague-Dawley rats were isolated on a single neurovascular pedicle and after a simulated technically poor arterial anastomosis upstream and reperfusion, capillary perfusion was measured each hour for 6 hours. Even though the number of PMNs was significantly reduced in the animals treated with antineutrophil serum, capillary perfusion was not changed compared with controls. These results demonstrate that depleting circulating PMNs does not protect capillary perfusion in our model. These findings suggest that reduced capillary perfusion downstream from an anastomotic repair is not mediated by the presence of PMNs in the microcirculation.

Intravenous aspirin at reperfusion does not reduce infarct size in the dog with a residual critical stenosis

Platelet-related events being associated with the increment of infarct size at reperfusion in the presence of a residual stenosis, we tested in dogs whether intravenous aspirin (ASA) could limit infarct size. The left anterior descending coronary artery was occluded for 90 min and reperfused for 6 h in the presence of a residual critical stenosis. Controls received saline, and treated groups were given 2, 6, or 12 mg/kg ASA, i.v., 5 min before reperfusion. Infarct size did not differ significantly between groups (control, 43.80+/-6.28%; ASA, 2 mg/kg: 41.07+/-7.78%; ASA, 6 mg/kg: 37.55+/-3.44%; ASA, 12 mg/kg: 29.40+/-5.41%), as well as transmural collateral blood flow and [111In]-platelet accumulation in the infarcted myocardium (2.5-3.6 x 10(5) platelets/g). However, myocardial neutrophil accumulation was significantly reduced (p < 0.05) in groups given 6 (15.0+/-2.6 x 10(6)/g tissue) and 12 mg/kg (18.4 +/-3.8) ASA, but not in the 2-mg/kg group (21.0+/-5.2), as compared with control group (32.0+/-7.2). Ex vivo platelet aggregation to collagen was abolished during reperfusion in all treated groups (p < 0.05). Transcardiac arteriovenous differences in 6-keto-PGF1alpha were reduced significantly 1 h after reperfusion in groups given 6 or 12 mg/kg ASA (94.7+/-13.1 and 71.7+/-19.2 pg/ml, respectively) but not in the 2-mg/kg group (178.3+/-78.2 pg/ml), as compared with control (405.4+/-171.6 pg/ml). ASA-insensitive platelet activation at the site of stenosis or inhibition by ASA of prostacyclin production by jeopardized myocardium may explain the observed lack of benefit of ASA.

Triflavin inhibits platelet-induced vasoconstriction in de-endothelialized aorta

Triflavin, a 7.5-kD cysteine-rich polypeptide purified from Trimeresurus favoviridis snake venom, belongs to a family of Arg-Gly-Asp-(RGD)-containing peptides, termed disintegrins. In this study, aggregating human platelets dose-dependently induced vasoconstriction in de-endothelialized isolated rat thoracic aortas. At 5x10(7) cells per milliliter, platelets induced a peak tension averaging 65 +/- 7.2% of the tension induced by phenylephrine (10 mumol/L). The relative effectiveness of RGD-containing peptides (including venom peptides triflavin and trigramin, small RGD synthetic peptides Gly-Arg-Gly-Asp-Ser [GRGDS], Gly-Arg-Gly-Asp-Phe [GRGDF], and Gly-Arg-Gly-Asp-Ser-Pro-Lys [GRGDSPK]) was examined by testing the inhibitory effect on aggregating platelet-induced vasoconstriction in de-endothelialized aorta. Triflavin (1 mumol/L) significantly inhibited the platelet-induced vasoconstriction, whereas neither trigramin (10 mumol/L) nor small RGD peptides (2 mmol/L) (i.e., GRGDS, GRGDF, and GRGDSPK) showed any significant effect. The release of serotonin and the formation of thromboxane A2 from aggregating platelets were both significantly inhibited by triflavin (2 mumol/L), whereas trigramin and small RGD-containing peptides showed no significant effect. On scanning electron micrographs of de-endothelialized aorta, aggregating platelets adhered to the subendothelium, with loss of their discoid shape, to form irregular spheres with pseudopod extensions. Triflavin (2 mumol/L) markedly reduced the adhesion of platelets to the subendothelium in the same aorta. Furthermore, RGD-containing peptides (including triflavin, trigramin, and small RGD-containing peptides) inhibited the adhesion of 10 micrograms/mL collagen-activated platelets to extracellular matrices (i.e., fibronectin, vitronectin, and von Willebrand factor). It is concluded that the marked ability of triflavin to inhibit aggregating platelet-induced vasoconstriction in de-endothelialized aorta compared with other RGD-containing peptides (including trigramin), may be due at least partly to triflavin's efficiently preventing the activation of platelets subsequent to inhibition of serotonin release and thromboxane A2 formation. However, the different abilities of triflavin compared with other RGD-containing peptides was not related to the ability to inhibit adhesion of platelets to extracellular matrices. Therefore, from the results of this study, it appears that triflavin may be a useful therapeutic agent for the treatment of thromboembolism and its associated angiospasm.

Anti-ischemic intervention as prognosis improvement in patients with coronary artery disease, with special focus on verapamil

Angina pectoris is a significant risk predictor in patients with atherosclerotic heart disease. The major complications are myocardial infarction, heart failure, and arrhythmias. Plaque rupture turns stable angina pectoris into acute coronary syndrome by provoking platelet aggregation and thereby thrombus formation. Verapamil significantly inhibits platelet aggregation and thrombus formation, which may be one of several reasons for the protective effect of verapamil on reinfarction in patients recovering from myocardial infarction. Ischemia may lead to left ventricular dilation and diastolic dysfunction, and thereby heart failure. In postinfarction patients intervention with verapamil significantly reduced the use of diuretics compared with placebo, indicating that anti-ischemic intervention may prevent heart failure. Ventricular arrhythmias are significantly associated with arrhythmic as well as non-arrhythmic death. The lack of preferential association of ventricular arrhythmias with arrhythmic death rather than nonarrhythmic death may imply that arrhythmias are provoked by ischemia. Antiarrhythmic intervention in postinfarction patients significantly increases death and arrhythmic events compared with placebo, especially in patients with residual ischemia. This may be due to a significant slowing of conduction during ischemia in patients treated with antiarrhythmic agents. In animal studies anti-ischemic agents prevent or suppress ventricular arrhythmias during ischemia, whereas traditional antiarrhythmic drugs have no effect or even worsen the arrhythmias, especially during episodes with elevated sympathetic activity. Verapamil significantly reduces plasma norepinephrine levels and the norepinephrine release during ischemia, whereby ventricular arrhythmias may be prevented. Also, supraventricular arrhythmias are significantly associated with myocardial ischemia and are prevented by verapamil. In patients with atherosclerotic heart diseases, angina pectoris is a significant risk predictor, but anti-ischemic intervention should be considered even in patients in whom the major problem is heart failure or arrhythmias.