Effects of aggregating agents and of blood cells on the aggregation of whole blood by impedance technique

In this study the effects of different aggregating agents on platelet rich plasma (PRP) and whole blood (WB) aggregation, as determined by the optical and the impedance method, are evaluated. While the response of PRP to PAF, epinephrine and sodium arachidonate was comparable using the two methods, significantly greater amounts of collagen and ADP were required to obtain 50% aggregation of PRP. In addition, when the response of WB to the aggregation induced by different agents was compared to that of PRP (impedance method), no difference between WB and PRP was detected, with exception for ADP and sodium arachidonate induced aggregation. In vitro data on the aggregation of PRP induced by collagen and ADP in the presence of different concentrations of red cells and of white cells, suggest that WC and RC may affect PRP aggregation only in selected experimental conditions.     

Increased in vitro platelet aggregation in hypertriglyceridemias

Platelet aggregation induced by ADP and collagen was monitored in 25 patients with increased serum levels of triglycerides (7 HLPs type IIb, 14 type IV, 4 type V patients) and compared with a group of 10 normolipidaemic control persons. Platelet aggregation was studied simultaneously in platelet rich plasma (PRP) by both turbidometric and impedance technique and also in whole blood (WB) by the impedance method. Whereas platelet aggregation testing by turbidometry was limited by the optical density of the plasma samples in hypertriglyceridemia, the aggregation process could easily be registered in PRP and WB using the impedance method. Threshold aggregatory concentrations with both agonists were significantly lower for all three groups of HLP.     

Detection of small inhibitory effects of acetylsalicylic acid (ASA) by platelet impedance aggregometry in whole blood

Our investigations have demonstrated on 10 volunteers receiving either 500 mg or 100 mg acetylsalicylic acid (ASA) that a low collagen concentration (1 microgram/ml) can best detect the aggregation defect caused by ASA. With the impedance aggregometry the mean inhibition reaches 82% and 52% with 500 mg and 100 mg ASA, respectively. Collagen at higher concentration (3 micrograms/ml) as well as ADP 10 and 25 mumol/l are less sensitive, less than 25% inhibition was recorded. These results suggest that a 1 microgram/ml concentration of collagen is adequate for the control of the ASA effect up to 6 days after intake of 100 mg. Furthermore, the von Willebrand factor (vWF) dependent platelet aggregation induced by 0.6 and 1.0 mg/ml ristocetin was clearly diminished after ASA. Therefore, a ristocetin screening test in whole blood for vWF disorder is possibly distorted when the test is performed within 6 days from ASA administration.     

Sex-related differences in platelet aggregation in native whole blood

To clarify discrepant reports about sex-related differences platelet aggregation (PA) was tested by a new impedance method in native whole blood (NWB) and compared to the results of citrated whole blood (CWB) and the turbidometric method (TM). In NWB collagen or ADP-induced PA was stronger in women than men similar to the TM indicating that this is not or not only caused by citrate. With collagen this difference persisted after ingestion of 125 mg acetylsalicylic acid (ASA) which might in part explain the greater therapeutic benefit of ASA for men. The results exclude haematocrit or platelet count as a cause of the differences of PA between women and men. Sodium arachidonate (NaAA)-induced PA was inhibited by 125 mg ASA in all tested methods; since inhibition of ADP-induced PA was not observed in NWB or CWB and the impedance methods failed to show a second wave of ADP-induced PA the significance of the second wave appears doubtful. The impedance method of NWB was found to be more sensitive to collagen, ADP or NaAA than the impedance method of CWB and to collagen or NaAA more sensitive than the TM. The impedance methods in NWB or CWB are not suited to test epinephrine-induced PA.     

Differential effects of oral administrations to human volunteers of acetylsalicylic acid, sodium salicylate and indomethacin on 12-hydroxyeicosatetraenoic acid formation by stimulated platelets

The effects of single oral administrations of acetylsalicylic acid (ASA, 500 mg), indomethacin (Indo, 50 mg) and sodium salicylate (NaSal, 400 mg) on platelet aggregation and on the thromboxane B2 (TXB2) and 12-hydroxyeicosatetraenoic acid (12-HETE) synthesis by platelet rich plasma (PRP) stimulated with collagen were evaluated. While both ASA and Indo significantly inhibited TXB2 synthesis and platelet aggregation, significant reduction of 12-HETE formation at 2 and 6 h after the administration of the drug, was detected only in subjects who ingested ASA. NaSal did not affect any of the tested parameters. The comparison of the effect of ASA (200 mg) on 12-HETE synthesis in washed platelets and PRP shows that the drug is able to affect this parameter only in PRP. To obtain a constant inhibition of 12-HETE synthesis in PRP over a 24 h period, a repeated ASA treatment schedule was assessed (ASA 200 mg every 6 h for 5 times). TXB2 synthesis in PRP was almost completely suppressed at 2 h after the first ASA administration and inhibition remained constant up to 48 h after the last ASA intake. As far as 12-HETE synthesis by stimulated PRP is concerned, a significant reduction of this parameter was detected at 4 h after the first drug administration and the levels remained almost constant following the repeated administrations during a 24 h period. These data indicate that ASA, but not Indo and NaSal, significantly affect not only TXB2 synthesis but also 12-HETE formation in PRP. The lack of the effect of ASA administration on 12-HETE, found when studies were carried out in washed platelets, indicates that the drug requires the presence of plasma factors for its activity on the formation of 12-lipoxygenase products by platelets.     

Dose- and time-dependent antiplatelet effects of aspirin

Aspirin is widely used, but dosages in different clinical situations and the possible importance of "aspirin resistance" are debated. We performed an open cross-over study comparing no treatment (baseline) with three aspirin dosage regimens--37.5 mg/day for 10 days, 320 mg/day for 7 days, and, finally, a single 640 mg dose (cumulative dose 960 mg)--in 15 healthy male volunteers. Platelet aggregability was assessed in whole blood (WB) and platelet rich plasma (PRP). The urinary excretions of stable thromboxane (TxM) and prostacyclin (PGI-M) metabolites, and bleeding time were also measured. Platelet COX inhibition was nearly complete already at 37.5 mg aspirin daily, as evidenced by >98% suppression of serum thromboxane B2 and almost abolished arachidonic acid (AA) induced aggregation in PRP 2-6 h after dosing. Bleeding time was similarly prolonged by all dosages of aspirin. Once daily dosing was associated with considerable recovery of AA induced platelet aggregation in WB after 24 hours, even after 960 mg aspirin. Collagen induced aggregation in WB with normal extracellular calcium levels (hirudin anticoagulated) was inhibited <40% at all dosages. TxM excretion was incompletely suppressed, and increased <24 hours after the cumulative 960 mg dose. Aspirin treatment reduced PGI-M already at the lowest dosage (by approximately 25%), but PGI-M excretion and platelet aggregability were not correlated. Antiplatelet effects of aspirin are limited in WB with normal calcium levels. Since recovery of COX-dependent platelet aggregation occurred within 24 hours, once daily dosing of aspirin might be insufficient in patients with increased platelet turnover.     

Why single daily dose of aspirin may not prevent platelet aggregation

The effect of different doses of aspirin on the synergistic activity of sodium arachidonate plus platelet activating factor (paf) ADP or collagen in platelet aggregation was studied in human volunteers. Aggregation studies in platelet rich plasma (PRP) showed that aspirinated platelets, unresponsive to arachidonate, when stirred with threshold concentrations of paf, ADP or collagen, reacted differently according to the dose of aspirin and the time elapsed since ingestion. After a single or daily 50 mg dose for 7-10 days independent of elapsed time until blood withdrawal, a complete synergistic activity was obtained. In PRP samples obtained 24 hours after the last aspirin intake, a complete synergistic aggregation was achieved after a single dose or after 7-10 days of 500 mg aspirin ingestion; synergistic effect did not appear when blood was drawn 2.5 hours after intake. The thromboxane B2 concentrations were very low in all samples after PRP stimulation with sodium arachidonate or paf or both. As rationale is that platelet activation in vivo occurs in response to several stimuli, the therapeutic implications of our results is that aspirin may not prevent the agonist potentiation effect when low dose or daily high dose (500mg) are administrated. This may explain the erratic results of most aspirin trials in which this drug was used to suppress platelet function.     

Collagen-induced platelet aggregation:--evidence against the essential role of platelet adenosine diphosphate

The hypothesis that platelet ADP is responsible for collagen-induced aggregation has been re-examined. It was found that the concentration of ADP obtaining in human PRP at the onset of aggregation was not sufficient to account for that aggregation. Furthermore, the time-course of collagen-induced release in human PRP was the same as that in sheep PRP where ADP does not cause release. These findings are not consistent with claims that ADP alone perpetuates a collagen-initiated release-aggregation-release sequence. The effects of high doses of collagen, which released 4-5 microM ADP, were not inhibited by 500 microM adenosine, a concentration that greatly reduced the effect of 300 microM ADP. Collagen caused aggregation in ADP-refractory PRP and in platelet suspensions unresponsive to 1 mM ADP. Thus human platelets can aggregate in response to collagen under circumstances in which they cannot respond to ADP. Apyrase inhibited aggregation and ATP release in platelet suspensions but not in human PRP. Evidence is presented that the means currently used to examine the role of ADP in aggregation require investigation.     

Benefit/risk profile of combined antiplatelet therapy with ticlopidine and aspirin

Ticlopidine (T) and aspirin (ASA) are two antiplatelet drugs both capable of prolonging bleeding time (BT), with a different mechanism of action. A synergism in BT prolongation has been reported and is currently considered an argument for not recommending their combination. However, a profound suppression of platelet function might be a desirable counterpart of a marked prolongation of BT, with a possible use in selected clinical situations. We therefore studied ex vivo platelet function (aggregation by ADP 0.5-1-2.5 microM; adrenaline 0.75-2.5 microM; collagen 1.5-150 micrograms/ml; arachidonic acid 1 mM; PAF 1 microM; adrenaline 0.17 microM + ADP 0.62 microM; serum thromboxane [( TX]B2 generation) and BT (Mielke) in 6 patients with stable coronary artery disease receiving such combination. Patients underwent sequential laboratory evaluations at baseline, after 7 days of T 250 mg b.i.d., before and after the intravenous administration of ASA 500 mg, respectively, and, finally, after a minimum of 7 days of sole ASA oral administration (50 mg/day). The experimental design, therefore, allowed a comparison of T and ASA effects (2nd and 4th evaluation), and an assessment of the combination effect (3rd evaluation). Platelet aggregation in response to all doses of ADP was depressed more by T than by ASA. Conversely, responses to adrenaline, and arachidonate were affected more by ASA than by T. For all other agents, differences were not significant. T + ASA combination was more effective (p less than 0.05) than either treatment alone in depressing responses to high-dose collagen (% over control, mean +/- SEM: T: 95 +/- 3; ASA: 96 +/- 5; T + ASA: 89 +/- 4).(ABSTRACT TRUNCATED AT 250 WORDS)     

Enhanced antiplatelet effects of clopidogrel plus acetylsalicylic acid compared with acetylsalicylic acid alone or combined with extended-release dipyridamole in healthy volunteers

BACKGROUND: Previous studies have shown the potential benefit of using antiplatelet agents with complementary modes of action. METHODS: Using a crossover design, the ex vivo antiplatelet effects of 10 days' treatment with clopidogrel 75 mg + acetylsalicylic acid (ASA) 75 mg daily, ASA 75 mg/day, or extended-release dipyridamole 200 mg/low-dose ASA 25 mg twice daily were compared, using various platelet agonists. RESULTS: Clopidogrel + ASA was significantly more effective than dipyridamole + ASA in inhibiting collagen-induced platelet aggregation in whole blood (mean 44.9 +/- 5.6% inhibition vs. 16.5 +/- 6.7%; p = 0.0009). Clopidogrel + ASA was significantly more effective than ASA or dipyridamole + ASA in inhibiting ADP-induced platelet aggregation in whole blood (p < or = 0.0001) and platelet-rich plasma (PRP) (p < or = 0.0001), and in inhibiting collagen-induced aggregation in PRP (p < or = 0.0001). ASA alone and clopidogrel + ASA were significantly more effective than dipyridamole + ASA in inhibiting arachidonic acid-induced platelet aggregation in whole blood (p < or = 0.0001). CONCLUSIONS: Based on ex vivo platelet aggregometry, clopidogrel + ASA is a more potent antiplatelet regimen than either ASA alone or the marketed combination of dipyridamole + ASA. However, the clinical significance of this finding remains to be confirmed.     

The antiplatelet effect of daily low dose enteric-coated aspirin in man: A time course of onset and recovery

We have studied the onset and recovery of inhibition of platelet function by low dose aspirin. Enteric-coated aspirin 50mg daily was administered to five human volunteers for five weeks and then 100mg daily was given for a further five weeks. We studied platelet aggregation and thromboxane formation in response to a range of stimuli: ADP, adrenaline, arachidonate and collagen, and also measured thromboxane formation after coagulation of whole blood (serum thromboxane). The onset of inhibition of platelet aggregation was progressive over several days for each of the four platelet stimuli, and was synchronous with the inhibition of thromboxane formation. Maximum inhibition occurred by day three for the weak stimuli ADP and adrenaline, by day five for the stronger stimuli arachidonate and collagen, but did not occur until day eight for serum thromboxane. Further inhibitory effects on both aggregation and thromboxane generation were observed after 100mg daily. Two weeks after the cessation of aspirin the responses to collagen and arachidonate and serum thromboxane had returned to normal. Platelet aggregation in response to the weaker stimuli, ADP and adrenaline, still showed detectable inhibition two weeks after cessation of aspirin, but had returned to normal by four weeks. These experiments provided no evidence for an effect of aspirin on platelets separate to its effect on cyclooxygenase. The onset and recovery of inhibition of platelet function by low dose aspirin was dependent on the strength of the stimulus studied.     

Platelet aggregation following exposure of phospholipase-treated platelet rich plasma to hydrogen peroxide

Hydrogen peroxide at micromolar concentrations (250–500 μM) can induce platelet aggregation of phospholipase-treated PRP. This effect, which occurs independently of the release of ADP, is blocked by aspirin, furosemide, catalase and 2-mercaptoethanol. PRP preincubated with H₂O₂ for 2–5 min. does not respond to Phl-H₂O₂ or collagen. This inhibitory effect is abolished with longer preincubations. In the presence of ADP or epinephrine, H₂O₂ enhances aggregation, if added to PRP with the inducers, and decreases the platelet response to the inducers, if preincubated with PRP for 2 min. The data suggest that micromolar concentrations of H₂O₂, which could be generated at sites of platelet plug formation by granulocytes, could influence the processes of hemostasis and thrombosis.     

Ticlopidine selectively inhibits human platelet responses to adenosine diphosphate.

Platelet aggregation and fibrinogen binding were studied in 15 individuals before and 7 days after the oral administration of ticlopidine (250 mg b.i.d.). Ticlopidine significantly inhibited platelet aggregation induced by adenosine diphosphate (ADP), the endoperoxide analogue U46619, collagen or low concentrations of thrombin, but did not inhibit platelet aggregation induced by epinephrine or high concentrations of thrombin. Ticlopidine inhibited 125I-fibrinogen binding induced by ADP, U46619 or thrombin (1 U/ml). The ADP scavengers apyrase or CP/CPK, added in vitro to platelet suspensions obtained before ticlopidine, caused the same pattern of aggregation and 125I-fibrinogen binding inhibition as did ticlopidine. Ticlopidine did not inhibit further platelet aggregation and 125I-fibrinogen binding induced in the presence of ADP scavengers. After ticlopidine administration, thrombin or U46619, but not ADP, increased the binding rate of the anti-GPII b/III a monoclonal antibody 7E3 to platelets. Ticlopidine inhibited clot retraction induced by reptilase plus ADP, but not that induced by thrombin or by reptilase plus epinephrine, and prevented the inhibitory effect of ADP, but not that of epinephrine, on the PGE1-induced increase in platelet cyclic AMP. The number of high- and low-affinity binding sites for 3H-ADP on formalin-fixed platelets and their Kd were not modified by ticlopidine. These findings indicate that ticlopidine selectively inhibits platelet responses to ADP.     

Effect of increasing doses of aspirin on platelet aggregation among stroke patients

BACKGROUND AND PURPOSE: Aspirin has been shown to reduce the risk of myocardial infarction and stroke. Some investigators believe that low-dose aspirin inhibits platelet aggregation to the same degree as high-dose aspirin. Our study aimed to assess the effect of increasing doses of aspirin on the degree of platelet aggregation induced by collagen and adenosine diphosphate (ADP) among stroke patients. METHODS: Sixteen poststroke patients were prescribed aspirin at daily doses of 40, 80, 160, 325, 650, and 1,300 mg, each dose to be taken for 14 days (total duration 12 weeks). Platelet aggregation studies using 2 microgram/ml collagen and 2 microM ADP were performed on platelet-rich plasma at baseline and on the 14th day of each dose. RESULTS: Platelet aggregation studies using 2 microgram/ml collagen at the start of treatment and at the 14th day of each dose revealed dose-dependent inhibition by aspirin starting at 40 mg/day, but was optimal at 80- 160 mg/day. ADP-induced platelet aggregation inhibition appears to be dose dependent up to 1,300 mg/day. CONCLUSION: Inhibition of collagen-induced platelet aggregation by aspirin appears to be optimal at 80-160 mg/day, while ADP-induced platelet aggregation inhibition by aspirin appears to be dose dependent up to 1,300 mg/day in our poststroke patients, albeit to a less remarkable degree at higher doses.     

The association of platelet and red cell count with platelet impedance changes in whole blood and light-scattering changes in platelet rich plasma: evidence from the Caerphilly Collaborative Heart Disease Study

This epidemiological study was undertaken to explore possible relationships among various haematological indices, prevalent ischaemic heart disease and platelet "function" as measured by two rather different methods. ADP-induced platelet impedance changes in whole blood were strongly associated with prevalent ischaemic heart disease in a general population of 49-66 year men at increased risk. Adenosine diphosphate (ADP) induced platelet aggregation in platelet rich plasma (PRP) at a constant platelet count and also the whole blood platelet count and red cell (RBC) count were strongly and independently related to ADP-induced platelet impedance changes. Both platelet count and platelet aggregation in PRP assessed by changes in optical density were directly related to increasing platelet "sensitivity" as measured by impedance changes in whole blood but RBC count was inversely related. Positive independent relationships between platelet impedance changes and plasma viscosity and fibrinogen were markedly attenuated when platelet count was taken into account, but this finding does not discount a role for these factors in platelet aggregation. No relationship was noted between white blood cell (WBC) count and platelet impedance changes; however, a significant inverse relationship was noted with platelet aggregation in PRP. These findings indicate that laboratory-based experimental findings can be observed in population based studies, and that these haematological factors may be important indicators of ischaemic disease in the population.     

Synergistic effects of platelet-activating factor and other platelet agonists in human platelet aggregation and release: The role of adp and products of the cyclooxygenase pathway

The synergistic effects of platelet-activating factor (PAF) with ADP, collagen, thrombin, A23187, adrenaline, sodium arachidonate and ristocetin in human platelet aggregation and ß-thromboglobulin (ß-TG) release were investigated in citrated platelet-rich plasma (PRP). Synergism in both aggregation and release was present with all agonists except ristocetin.Upon oral intake of aspirin (ASA) the PAF-induced irreversible aggregation as well as the synergistic irreversible aggregation became reversible. Both prior to and after ASA ingestion ADP removal by creatine phosphate/creatine phosphokinase (CP/CPK) resulted in a reduced, reversible platelet aggregation induced by PAF alone or in combination with the other agonists. The ADP-removal and ASA-ingestion also strongly inhibited the ß-TG release. The synergistic aggregation and release were also inhibited by ASA and indomethacin in vitro as well as by the competitive ADP-inhibitor ATP.It is concluded that not only the activation of human platelets by low doses of PAF itself, but also the synergism of PAF and other platelet agonists is highly dependent upon ADP and products of the cyclooxygenase pathway.     

Effects of oral diltiazem on platelet function: alone and in combination with "low dose" aspirin

The effects of 3 days of oral diltiazem, "low dose" aspirin (40 mg/day), and their combination on platelet function was studied in 5 normal subjects. Both drugs inhibited platelet aggregation and ATP release induced by collagen, epinephrine and threshold concentrations of ADP. Aspirin and diltiazem decreased thromboxane A2 generation during ADP induced aggregation by 94 percent and 53 percent respectively, however both agents inhibited aggregation similarly, which suggests that diltiazem's anti-platelet effect was due to mechanisms other than inhibition of thromboxane metabolism alone. Combination therapy resulted in a partially additive inhibitory effect on ADP induced aggregation and thromboxane A2 generation. Two subjects had bleeding times over 15 minutes after receiving combination therapy.     

Dipyridamole inhibits platelet aggregation in whole blood

Dipyridamole possesses antithrombotic properties in the animal and in man but it does not inhibit platelet aggregation in plasma. We evaluated the effect of dipyridamole ex vivo and in vitro on platelet aggregation induced by collagen and adenosine-5'-diphosphate (ADP) in human whole blood with an impedance aggregometer. Two hundred mg dipyridamole induced a significant inhibition of both ADP- and collagen-induced aggregation in human blood samples taken 2 hr after oral drug intake. Administration of the drug for four days, 400 mg/day, further increased the antiplatelet effect. A significant negative correlation was found between collagen-induced platelet aggregation in whole blood and dipyridamole levels in plasma (p less than 0.001). A statistically significant inhibition of both collagen (p less than 0.0025) and ADP-induced (p less than 0.005) platelet aggregation was also obtained by incubating whole blood in vitro for 2 min at 37 degrees C with dipyridamole (3.9 microM). No such effects were seen in platelet-rich plasma, even after enrichment with leukocytes. Low-dose adenosine enhanced in vitro inhibition in whole blood. Our results demonstrate that dipyridamole impedes platelet aggregation in whole blood by an interaction with red blood cells, probably involving adenosine.     

The in vitro effect of ticlopidine on fibrinogen and factor VIII binding to human platelets

The mode of action of the antiplatelet agent ticlopidine is not yet fully understood. Its multiple effects on platelet function include prolongation of the bleeding time, reduction in primary and secondary waves of ADP-induced aggregation and inhibition of collagen and thrombin-induced aggregation. We have studied the in vitro effects of ticlopidine on fibrinogen binding induced by ADP and adrenaline as well as factor VIII/vWF binding induced by ristocetin. 125I-fibrinogen binding was measured in suspensions of freshly-washed normal platelets stimulated by 10 microM ADP or 10 microM adrenaline. The binding of 125I-factor VIII/vWF in the presence of 1 mg/ml ristocetin was measured in both washed and paraformaldehyde-fixed platelets. Ticlopidine at final concentrations of 200, 100, 50 and 25 microM inhibited both ADP and adrenaline-induced fibrinogen binding in a dose-dependent manner. The mean % inhibition of ADP-induced fibrinogen binding was 82, 73, 42 and 32 respectively. The mean % inhibition of adrenaline-induced fibrinogen binding was 86, 82, 60 and 35 respectively. In contrast, the factor VIII/vWF binding was unaffected by ticlopidine at all concentrations except at 200 microM using fresh platelets where a slight inhibition (19%) was observed. These results suggest that ticlopidine either inhibits platelet activation and consequently fibrinogen binding, or inhibits the binding directly, presumably by having an effect on the specific configuration of the platelet membrane required for normal fibrinogen binding.     

Thromboxane receptor blockade versus cyclooxigenase inhibition: antiplatelet effects in patients

In a randomized pilot study we compared the antiplatelet effects of aspirin and BM 13.177 in two groups of 7 patients each undergoing PTCA. As compared with the pretreatment values template bleeding time was prolonged and collagen induced aggregation was inhibited in PRP and WB in all patients. In the course of angiography and PTCA a rise in platelet factor 4 and beta thromboglobulin was observed in both groups, followed by a decrease below the baseline levels. Thromboxane B2 in plasma and serum decreased in the aspirin group but remained unchanged during BM 13.177 treatment. In PRP and WB aggregation induced by U 46 619 was inhibited after ingestion of BM 13.177 but not following ASA. After three months a control coronary angiography was done. There was no difference in regard to the degree of restenosis between both groups. Medication was well tolerated, compliance was good and no side effects were noted.