Platelet adhesion, release and aggregation in flowing blood: effects of surface properties and platelet function

Platelet adhesion to natural and artificial surfaces and adhesion-induced aggregation were investigated in vitro using an annular perfusion chamber. The surfaces were exposed to anticoagulated blood under identical flow conditions (approximately arterial shear rates). The initial attachment of platelets (contact) appeared less surface specific than spreading and release. Fibrillar collagen was the most powerful inducer of platelet degranulation whereas elastin, microfibrils and epon were virtually inactive. Fibrillar collagen caused release also in the absence of spreading. Surface coverage with platelets did not exceed 25% unless spreading occurred. Perfusion with platelet-free plasma or platelet-poor blood did not remove adhering platelets. However, platelets were translocated from mural thrombi to the surface by such perfusion. In addition, platelets which detached from mural thrombi adhered more readily to elastin or microfibrils than platelets from the circulating blood. The initial attachment of platelets to subendothelium was inhibited in von Willebrand's disease, the Bernard-Soulier syndrome and at high concentrations of dipyridamole; spreading was inhibited in storage pool disease of rats, at low temperature (20 degrees C), with EDTA (3 MM) and Prostaglandin E1 (1 muM); and adhesion-induced aggregation was inhibited in thrombasthenia, storage pool disease and after ingestion of sulfinpyrazone or Aspirin. It is concluded that the initial attachment (contact) of platelets, spreading and surface-induced release of platelet constituents are at least partially indendent phenomena, the latter two being highly surface specific. At flow conditions which cause the disappearance of platelet adhesion appears as an irreversible process.     

Percutaneous nephroscopy in the diagnosis of renal pelvic filling defect: a report of two cases

Diisoeugenol inhibited the platelet aggregation and ATP release of rabbit platelets caused by ADP, arachidonic acid, platelet-activating factor (PAF), collagen and thrombin. Prolongation of the incubation time of platelets with diisoeugenol did not cause further inhibition and the aggregability of platelets could not be restored after washing. In human platelet-rich plasma, diisoeugenol inhibited the biphasic aggregation and ATP release induced by adrenaline and ADP in a concentration-dependent manner. Thromboxane B2 formation caused by arachidonic acid, collagen and thrombin was markedly inhibited by diisoeugenol in a concentration-dependent manner. Diisoeugenol also inhibited the formation of inositol monophosphate caused by collagen, PAF and thrombin. The cAMP level of washed platelets was not changed by diisoeugenol. It is concluded that the antiplatelet effect of diisoeugenol is due to the inhibition of thromboxane formation and phosphoinositides breakdown.     

High dose rate endobronchial brachytherapy: results and complications in 189 patients

No quantitative, simple and non-radioactive method has been described for measuring the platelet content of experimental thrombi. The aim of the present study was to develop a simple method for quantifying platelets in thrombi formed on thrombogenic surfaces in flowing native human blood. To test the relevance of this new method, the effect of unfractionated heparin on arterial thrombus formation was investigated. Tissue factor (TF)- and collagen-coated coverslips were exposed to non-anticoagulated blood at an arterial wall shear rate (2,600 s(-1)) for 1 to 4 min. Platelet deposition was quantified by measuring the P-selectin (PS) and beta-thromboglobulin (betaTG) content of dissolved plasmin-digested thrombi using immunoenzymoassays; fibrin deposition was determined by measuring the D-dimer levels. These results were compared to those established by morphometrical analysis. Morphometric evaluation showed that fibrin deposition was maximum on TF by 1 min perfusion time. Platelets deposited subsequently and reached a maximum at 3 min. On collagen, platelets deposited directly on the collagen fibrils without detectable fibrin deposit. Platelet deposition increased from 1 to 4 min. Platelet deposition quantified by PS was correlated to the values obtained by morphometry (r = 0.72, r = 0.67, p <0.001, on TF and collagen, respectively). As compared to PS, betaTG measurements gave an underestimation of the size of the thrombus platelet number. Unfractionated heparin infused through a mixing device proximal to the perfusion chamber to obtain plasma concentrations of 0.5, 1 and 3 IU/ml, reduced fibrin deposition on TF-coated coverslips in a dose-dependent manner (77% reduction at 3 IU/ml, p <0.01), but had no significant effect on platelet deposition (33% at 3 IU/ml, p >0.05). In contrast, heparin had no effect on fibrin or platelet deposition on collagen-coated coverslips. Thus, a new quantitative and simple method for measuring platelet deposition in flowing blood has been developed and characterized. Utilizing this system, we have demonstrated that unfractionated heparin did not inhibit arterial thrombus formation either on procoagulant or on proaggregant surface.     

Analysis of platelet adhesion to a collagen-coated surface under flow conditions: the involvement of glycoprotein VI in the platelet adhesion

Platelet adhesion to the exposed surface of the extracellular matrix in flowing blood is the first and critical reaction for in vivo thrombus formation. However, the mechanism of this in vivo platelet adhesion has yet to be studied extensively. One of the reasons for this is the lack of a practical assay method for assessing platelet adhesion under flow conditions. We have devised an assay method (the fluorescent adhesion assay) that is based on the technique originally reported by Hubbell and McIntire (Biomaterials 7:354, 1986) with some modifications to make it more amenable for assaying small samples and have developed an analysis method to quantify the extent of platelet adhesion and aggregation from fluorescence images by using a computer-assisted image analysis system. In our assay, platelet adhesion, expressed as the percentage of the area covered by adhered platelets, was found to increase biphasically as a function of time. In the first phase, platelets interacted with the coated collagen, transiently stopping on the surface; we called this reaction the temporary arrest. In the second phase, platelets adhered much more rapidly and permanently on the surface, and this adhesion was dependent on the shear rate; platelets formed aggregates in this phase. We used our assay to analyze the effects of platelet aggregation inhibitors on platelet adhesion. All three examined inhibitors, EDTA (10 mmol/L), antiglycoprotein (GP) IIb/IIIa, and GRGDS peptide (1 mmol/L), inhibited the second phase adhesion in flowing blood. Furthermore, GPVI-deficient platelets also showed defective second-phase adhesion under the same conditions. These results suggested that GPIIb/IIIa activation and GPVI contribute to the reaction inducing the second phase. The second-phase adhesion has been extensively investigated, and the consensus is that this reaction is mainly attributable to the platelet-platelet interaction. In this report, we were able to detect an earlier reaction, the temporary arrest. This temporary arrest would reflect the fast and weak interaction between platelet GPIb/IX and collagen-von Willebrand factor complexes on the collagen-coated surface.     

Platelet-vessel wall interactions in thrombosis and restenosis role of von Willebrand factor

As a consequence of vessel wall injury, subendothelial matrix and collagen fibers are exposed to the flowing blood. Circulating platelets adhere to these structures and initiate arrest of blood flow. Subendothelial von Willebrand Factor (vWF) plays an important role in mediating platelet adhesion to the injured site, at least in the arterial circulation, characterized by sufficiently elevated shear forces to allow a critical conformation change in vWF, enabling an interaction between the vWF domain A1 and the vWF receptor on the platelet, the GPIb/IX complex. In vitro, in the absence of shear forces, non-physiological mediators are required to induce vWF binding to GPIb. Analysis of the mechanism according to which ristocetin induces vWF binding to GPIb revealed that 2 dimers of ristocetin simultaneously bind to vWF and GPIb, thus forming a quaternary complex in which repulsive negative charges are neutralized by the positively charged ristocetin. The interaction of vWF with its vascular receptor, i.e. collagen VI, which was isolated from human placenta and the extracellular matrix from lung fibroblasts, showed that vWF binds to collagen VI entirely via its A1 domain, i.e. via the domain that binds to GPIb. Also, vWF binding to intact extracellular matrices occurs to matrix associated collagen VI via the vWF A1 domain. By using a combination of 2 specific monoclonal anti-vWF antibodies, it was possible to induce conformational changes in WF that exposed the binding sequences in the A1 domain for GPIb. Thus, in the absence of shear forces, specific vWF binding to GPIb could be induced in the absence of any further mediators. This increased vWF binding to GPIb was sufficient to induce vWF dependent platelet aggregation, although as a consequence of Fc binding to the platelet Fc receptor, platelet activation also occurred via this pathway. Thus, general conformational changes in vWF suffice to expose the relevant amino acid sequences in the A1 domain that enable binding to GPIb. The collagen binding protein calin, isolated from the saliva of the medicinal leech, not only blocks platelet binding to collagen but also inhibited vWF binding. Thus this protein was able to inhibit both the vWF independent and vWF dependent platelet adhesion to various collagens, but much less the platelet binding to endothelial extracellular matrices, that contain matrix anchored vWF. In vivo anti-thrombotic studies in the hamster showed that the vWF antagonist aurin tricarboxylc acid was a more potent inhibitor of arterial thrombosis than of venous thrombosis, confirming the in vivo role of vWF during thrombus formation. Following vessel wall damage and thrombus formation, the neointima that formed in the hamster carotid artery developed more rapidly than in other models, and its formation partially responded to reported inhibitors of restenosis. The combination of cardiovascular drugs with complementary modes of action, such as G4120 (inhibitor of platelet GPIIb/IIIa and smooth muscle cell alpha(v) beta(3)) and quinapril (potent vascular ACE inhibitor) prevented neointima formation to about 70%, i.e. better than with any treatment separately.     

Platelet adhesion and spreading on protein-coated surfaces: variations in behavior in washed cells, PRP, and whole blood

Platelet attachment and spreading were monitored on glass and various protein coated glass, under shear with washed platelets, platelet rich plasma (PRP) and whole blood, using fluorescence Optimas imaging system and software. Results showed that the platelet adhesion and spreading were sensitive to the nature of precoated proteins and the type of medium used for introducing platelet suspension for the study. In general, the cell adhesion and spreading were higher with fibrinogen (Fg), fibronectin (Fn), von Willebrand Factor (vWF), and collagen precoated surfaces. In the presence of albumin on the surface, however, platelets could not attach and spread fully when using washed cells. But, the surface attachment and spreading of the cells were higher on albumin substrates on exposure to PRP or whole blood. This may be due to the replacement of precoated albumin by other plasma proteins, like Fg to facilitate the platelet-surface attachment. The composition of this layer determines the extent of platelet activation and the adhesive strength between platelets and polymer surface. These results indicate that multiple adhesion receptors can mediate platelet adhesion and spread to matrix proteins immobilized on surfaces. Further, these studies combined with some of our earlier observations and suggestions propose the need for developing in vitro tests that resemble in vivo conditions.     

Numerical and functional modifications in platelets induced by polyester coated by a hydrophilic polymer

We evaluated the alterations in number, functionality and release reaction of the platelets contained in plasma, filtered through a polyester filter and coated with a hydrophilic polymer. The alterations in number were examined by counting before and after filtration. The morphological modifications were studied by determining the mean platelet volume. The functional alterations were analysed by a platelet aggregation test, induced by ADP and collagen. The presence of products from the release reaction in filtered plasma was studied using radioimmunoassays of beta-thromboglobulin, platelet factor 4 and thromboxane B2. The results obtained showed that the filtration of plasma through the material did not determine a significant platelet adhesion, did not alter the volume or the functionality of the platelets and induced no release reaction.     

Optimal antagonism of GPIIb/IIIa favors platelet adhesion by inhibiting thrombus growth. An ex vivo capillary perfusion chamber study in the guinea pig

To evaluate the involvement of the glycoprotein (GP) IIb/IIIa-dependent process in platelet deposition and thrombus growth on capillaries coated with human type III collagen, the effects of incremental doses of Lamifiban, a potent specific synthetic GPIIb/IIIa antagonist, were studied in ex vivo capillary perfusion chambers using guinea pig blood. In this model, nonanticoagulated blood was perfused for 4.5 minutes at three shear rates: 100, 650, and 1600 s-1. Platelet deposition was quantified by computer-assisted morphometry and expressed as platelet adhesion (percentage of capillary surface covered with spread and contact platelets and platelets implicated in thrombus), mean thrombus height, and total thrombus cross-sectional area. In control untreated guinea pigs, platelet adhesion and thrombus height were 63% and 2.5 microns at 100 s-1, 60.5% and 13.8 microns at 650 s-1, and 45% and 28.1 microns at 1600 s-1, respectively. At 100 s-1, Lamifiban had no effect on platelet deposition at any of the three doses administered to the guinea pigs (0.3, 1, and 3 mg/kg). At 0.3 mg/kg and shear rates of 650 and 1600 s-1, Lamifiban had no effect on platelet adhesion or thrombus size, but at 1 and 3 mg/kg and shear rates of 650 and 1600 s-1, it significantly reduced thrombus size. At 1600 s-1, 1 mg/kg Lamifiban significantly increased platelet adhesion from 45% to 62.5%, whereas at 3 mg/kg it induced a significant overall decrease from 45% to 25% and qualitatively increased the ratio of contact to spread platelets. These data suggest that at high shear rates, GPIIb/IIIa participates in platelet spreading and that there is a balance between platelet involvement in adhesion to the thrombogenic surface and the growth of the already formed thrombus. This indicates that important clinical implications of an optimal therapeutic degree of GPIIb/IIIa antagonism could be expected.     

A potent 5-hydroxytryptamine receptor (5-HT2A) antagonist, DV-7028, delays arterial thrombosis development in rats

In our study, we demonstrated that DV-7028: (3-[2-[4-(4-fluorobenzoyl)piperidin-1-yl]ethyl]-6, 7,8,9-tetrahydro-2H-pyrido [1,2,-a]-1,3,5-triazine-2, 4(3H)-dione maleate)--a selective 5-HT2A receptor antagonist, inhibited thrombus formation in the arterial thrombosis model and was completely ineffective in the prevention of venous thrombosis in the rat. In washed platelets prelabelled with 3H-serotonin, DV-7028 inhibited, in a dose-dependent manner, the collagen-induced secretion of serotonin. However, the uptake of serotonin into platelets was not affected by this substance. Administration of DV-7028 also inhibited platelet aggregation in the whole blood and platelet-rich plasma (PRP) induced by collagen, and diminished serotonin-induced aggregation of rat platelets in the presence of a sensitizing but nonaggregating amount of ADP, whereas it did not modify aggregation in PRP when induced by ADP. DV-7028 caused a concentration-dependent, almost parallel shift to the right of the concentration-response to serotonin for its pressor effect in the rat perfused tail artery. The present data demonstrate that DV-7028 exhibits 5-HT2A receptor antagonistic properties in the rat cardiovascular system, exhibits antithrombotic effect in the model of arterial but not venous thrombosis in rats. These results constitute further evidence of the possible importance of serotonin as a mediator of platelet thrombosis in arteries. Moreover, they can provide a useful tool for the prevention of various thrombotic diseases.     

Initial interactions of platelets and plasma proteins in flowing non-anticoagulated human blood with the artificial surfaces Dacron and PTFE

The purpose of the present study was to investigate and to compare the interactions of platelets and proteins in flowing non-anticoagulated human blood with the biomaterials polyethylene-terephthalate (Dacron) and polytetrafluoroethylene (PTFE, Teflon). The respective biomaterials were positioned in a parallel-plate perfusion chamber, and exposed to flowing blood for 5 min at wall shear rates characteristic for veins (100/s), medium sized (650/s) and moderately stenosed arteries (2,600/s). Blood-material interactions were morphologically quantified as platelet-surface adhesion, thrombus volume and fibrin deposition. Platelet adhesion to Dacron was highest at the lowest shear rate (13%) and decreased with increasing shear (4% at 2600/s). In contrast, platelet adhesion to PTFE was shear rate independent (17-19%), and significantly higher than the adhesion to Dacron at 2600/s (P < 0.05). A hallmark of the platelets adherent to PTFE and Dacron was the large percentage of platelets not spread out on the surface. This indicates that both materials were poor platelet activators, even though immunostaining demonstrated the adsorption of the platelet adhesive proteins von Willebrand factor and fibronectin. Adsorption of fibrinogen was also prevailing on both materials. Virtually no thrombi formed on Dacron, while a few small platelet thrombi were observed on PTFE. Less than 1% of the Dacron and PTFE surfaces were covered by fibrin, irrespective of the shear rate. Thus, Dacron and PTFE interact differently with flowing non-anticoagulated human blood, and Dacron is apparently the least thrombogenic material.     

A fifty percent reduction of platelet surface glycoprotein Ib does not affect platelet adhesion under flow conditions

Glycoprotein (GP) Ib is an adhesion receptor on the platelet surface that binds to von Willebrand Factor (vWF). vWF becomes attached to collagens and other adhesive proteins that become exposed when the vessel wall is damaged. Several investigators have shown that during cardiopulmonary bypass (CPB) surgery and also during platelet activation in vitro by thrombin or thrombin receptor activating peptide (TRAP) GPIb disappears from the platelet surface. Such a disappearance is presumed to lead to a decreased adhesive capacity. In the present study, we show that a 65% decrease in platelet surface expression of GPIb, due to stimulation of platelets in Orgaran anticoagulated whole blood with 15 micromol/L TRAP, had no effect on platelet adhesion to both collagen type III and the extracellular matrix (ECM) of human umbilical vein endothelial cells under flow conditions in a single-pass perfusion system. In contrast to adhesion, ristocetin-induced platelet agglutination was highly dependent on the presence of GPIb. Immunoelectron microscopic studies showed that GPIb almost immediately returned to the platelet surface once platelets had attached to collagen. In a subsequent series of experiments, we showed that when less than 50% of GPIb was blocked by an inhibitory monoclonal antibody against GPIb (6D1), platelet adhesion under flow conditions remained unaffected.     

Paradoxical influence of estrogenic hormones on platelet-endothelial cell interactions

Controversies abound in the literature about the safety and efficacy of tamoxifen and estrogen. We studied the effect of these 2 hormonal agents on factors involved in in vitro thrombogenesis: platelets and endothelial cells. Endothelial cells were derived from human umbilical veins and platelets were obtained from premenopausal and postmenopausal women, women on oral contraceptives, postmenopausal women on hormone replacement therapy, men, and patients with breast cancer who had been taking adjuvant tamoxifen for more than 1 year. The interaction of platelets with endothelial cell matrix was measured in 2 systems: 1) in a flow chamber at low shear rate and, 2) with 51Cr labeled platelets in a "static" culture system. In the static system, platelets from women on tamoxifen exhibited decreased platelet adherence to endothelial cell matrix whether they were grown in tamoxifen or control conditions, when compared to platelets from premenopausal women. When flow (25 sec-1) was added these differences were negated. Neither tamoxifen nor 17 beta estradiol had an effect on endothelial cell proliferation or platelet aggregation. Adhesion of platelets at low shear was not altered when platelet rich plasma was incubated with tamoxifen nor when endothelial cells were grown in tamoxifen. In contrast, incubation of platelets in 17 beta estradiol decreased platelet adhesion at low shear rate, however, there was no effect on platelet adhesion when endothelial cells were grown in 17 beta estradiol. We conclude that in early stages of thrombus formation as measured in vitro, tamoxifen may not have a detrimental effect and estrogen may be protective.     

Detection of platelet adhesion/aggregation to immobilized ligands on microbeads by an aggregometer

Platelet aggregation is believed to follow platelet adhesion to vascular injury sites. We have developed a turbidimetric assay for platelet aggregation following platelet adhesion to immobilized ligands using an aggregometer. The addition of polystyrene beads coated with von Willebrand factor (vWF) or fibrinogen (Fg) to platelet suspensions caused prompt aggregation of beads and platelets, which was detected as an increase in light transmission. Electron microscopic analysis revealed that platelets adhered to the bead surfaces and that additional platelets adhered to already adhering platelets, leading to the formation of platelet aggregates. vWF-coated beads induced larger aggregates than Fg-coated beads. The interaction of vWF-coated beads with platelets was abolished by both GPIb and GPIIb-IIIa blockers, while that of Fg-coated beads was abolished by GPIIb-IIIa blockers. vWF-coated beads induced modest secretion of granules from platelets but no thromboxane B2 synthesis. Fg-coated beads induced neither reaction. However, pleckstrin phosphorylation and protein tyrosine phosphorylation was induced by both types of bead. Platelet aggregation following platelet adhesion to both types of bead was inhibited by ADP scavengers, a protein kinase C inhibitor and a tyrosine kinase inhibitor, but not by aspirin. These findings suggest that vWF- and Fg-coated beads can induce platelet aggregation following platelet adhesion through specific ligand-receptor interactions and intracellular signaling. Our simple assay using these beads may represent a useful test for immobilized ligand-induced platelet adhesion and aggregation.     

Inhibitory effect of piracetam on platelet-rich thrombus formation in an animal model

Intravenous administration of piracetam to hamsters reduced the formation of a platelet-rich venous thrombus induced by a standardised crush injury, in a dose-dependent fashion with an IC50 of 68 +/- 8 mg/kg. 200 mg/kg piracetam also significantly reduced in vivo thrombus formation in rats. However, in vitro aggregation of rat platelets was only inhibited with piracetam-concentrations at least 10-fold higher than plasma concentrations (6.2 +/- 1.1 mM) obtained in the treated animals. No effects were seen on clotting tests. In vitro human platelet aggregation, induced by a variety of agonists, was inhibited by piracetam, with IC50's of 25-60 mM. The broad inhibition spectrum could be explained by the capacity of piracetam to prevent fibrinogen binding to activated human platelets. Ex vivo aggregations and bleeding times were only minimally affected after administration of 400 mg/kg piracetam i.v. to healthy male volunteers, resulting in peak plasma levels of 5.8 +/- 0.3 mM. A possible antiplatelet effect of piracetam could be due to the documented beneficial effect on red blood cell deformability leading to a putative reduction of ADP release by damaged erythrocytes. However similarly high concentrations were needed to prevent stirring-induced "spontaneous" platelet aggregation in human whole blood. It is concluded that the observed antithrombotic action of piracetam cannot satisfactorily be explained by an isolated direct effect on platelets. An additional influence of piracetam on the rheology of the circulating blood and/or on the vessel wall itself must therefore be taken into consideration.     

Hormonal therapy increases arterial compliance in postmenopausal women

Vessel injury and thrombus formation are the cause of most ischemic coronary syndromes and, in this setting, activated platelets stimulate platelet recruitment to the growing thrombus. Recently, a constitutive nitric oxide synthase (NOS) has been identified in human platelets. To further define the capacity of platelets to produce nitric oxide (NO), as well as to study the role of this NO in platelet recruitment, we adapted a NO-selective microelectrode for use in a standard platelet aggregometer, thereby permitting simultaneous measurement of platelet aggregation and NO production. Treatment of platelets with the NO synthase inhibitor -NG-nitroarginine methyl ester (L-NAME), reduced NO production by 92+/-8% in response to 5 microM ADP compared to control but increased aggregation by only 15+/-2%. In contrast, L-NAME had a more pronounced effect on platelet recruitment as evidenced by a 35+/-5% increase in the extent of aggregation, a 33+/-3% decrease in cyclic GMP content, and a 31+/-5% increase in serotonin release from a second recruitable population of platelets added to stimulated platelets at the peak of NO production. To study platelet recruitment accurately, we developed an assay that monitors two platelet populations simultaneously. Nonbiotinylated platelets were incubated with L-NAME or vehicle and activated with ADP. At peak NO production, biotinylated platelets were added. As measured by three-color flow cytometry, there was a 56+/-11% increase in the number of P selectin- positive platelets in the nonbiotinylated population treated with L-NAME as compared to control. When biotinylated platelets were added to the L-NAME-treated nonbiotinylated population, the number of P selectin positive biotinylated plate-lets increased by 180+/-32% as compared to biotinylated platelets added to the control. In summary, stimulated platelets produce NO that modestly inhibits platelet activation but markedly inhibits additional platelet recruitment. These data suggest that platelet-derived NO may regulate platelet recruitment to a growing thrombus.     

Malondialdehyde formation as an indicator of prostaglandin production by human platelets

The formation of malondialdehyde, a metabolite of prostaglandin endoperoxides, has been studied in platelet-rich plasma. Small amounts were produced in response to ADP, epinephrine, or collagen and larger amounts in response to thrombin. Arachidonic acid induced platelets to produce large amounts of malondialdehyde. Malondialdehyde formation by platelets was prevented by aspirin or indomethacin. The measurement of malondialdehyde in platelet-rich plasma may be used as an indicator of platelet prostaglandin synthesis, and is simpler than the measurement of prostaglandins.     

Platelet adhesion to collagen type IV under flow conditions

Collagen type IV is a sheet-forming collagen and a major constituent of the vessel wall. To find out which conditions are important for platelet adhesion to collagen type IV, we performed perfusion studies with anticoagulated blood in parallel plate perfusion chambers. The role of divalent cations was investigated by using plasmas with variable concentrations of Mg2+ and Ca2+ ions. When Mg2+ concentration was decreased from 2.00 mmol/L to 0.25 mmol/L at a fixed Ca2+ concentration of 1.25 mmol/L, platelet coverage on the collagen type IV surface decreased from 22.8% +/- 1.8% (n = 4) to 4.6% +/- 0.6% (n = 4) at a shear rate of 1,600 s-1. Also, platelet aggregate formation on collagen type IV was strongly impaired. A monoclonal antibody against the glycoprotein (Gp) Ib receptor and von Willebrand factor (vWF)-depleted plasma reduced the platelet coverage to collagen type IV to, respectively, 10% and 45% of the control value. Electron microscopy showed that vWF was only present between platelets and between the platelet and the collagen type IV surface, but did not bind elsewhere to collagen type IV. These data indicate that collagen type IV is a reactive collagen for platelets. Differences in physiologic plasma magnesium concentrations may in part explain the differences in platelet reactivity to collagen type IV between individuals, and perhaps contribute to differences in the risk for thrombosis.     

Characterization of platelet hypofunctions in rats under SART stress (repeated cold stress)

Platelet hypoaggregability has been reported in rats exposed to a chronic form of environmental stress induced by long-lasting fluctuation in air temperature, known as SART (specific alternation of rhythm in temperature) stress. This study examines functional characteristics of platelets from stressed rats in more detail. Exposure to stress reduced aggregation and ATP release in platelets stimulated with collagen, as determined using platelet-rich plasma (PRP). The resting levels of ATP but not ADP in platelets from stressed rats were lower than those from unstressed ones. Collagen-induced release and resting level of serotonin also decreased in platelets from stressed rats. In contrast, stress failed to cause hypoaggregability of washed platelets. Circulating platelet aggregates were detected in stressed rats. From these data, SART stress appears to cause intravascular activation of platelets in spite of in vitro hypofunctions. Alteration in plasma milieu may be associated with stress-induced platelet hypofunctions in PRP.     

Inhibitory mechanisms of naloxone on human platelets

1. In the present study, naloxone was tested for its antiplatelet activities in human platelet-rich plasma (PRP). In human PRP, naloxone (0.1-0.5 mmol/L) inhibited aggregation stimulated by a variety of agonists (i.e. collagen, adenosine diphosphate (ADP), U46619 and adrenaline). 2. Naloxone (0.1-0.5 mmol/L) did not significantly affect cyclic adenosine monophosphate and cGMP levels in human washed platelets, whereas naloxone (0.5 mmol/L) significantly inhibited thromboxane B2 formation stimulated by collagen (5 micrograms/mL) in human washed platelets. 3. Naloxone (0.5 mmol/L) significantly inhibited [3H]-inositol monophosphate formation of [3H]-myoinositol-loaded platelets stimulated by collagen and U46619. Moreover, naloxone did not influence the binding of 125I-triflavin to platelet membranes. Triflavin is an Arg-Gly-Asp-containing specific fibrinogen receptor antagonist. 4. Addition of naloxone (0.5 mmol/L) to platelet preparations tagged with diphenylhexatriene (DPH) resulted in a considerable decrease in relative fluorescence intensity. 5. It is suggested that the anti-platelet effects of naloxone may be caused, at least partly, by the induction of conformational changes in the platelet membrane initially, followed by the inhibition of thromboxane A2 formation and phosphoinositide breakdown of platelets stimulated by agonists.