Platelets derived from fresh and cold‐stored whole blood participate in clot formation in rats with acute traumatic coagulopathy

The in vitro haemostatic functions of fresh whole blood (FWB) are well preserved after cold storage. This study aimed to determine whether platelets derived from FWB and stored whole blood (SWB) contribute to clot formation in tissue injury after transfusion into coagulopathic rats with polytrauma/haemorrhage (T/H). The rats were resuscitated 1 h after trauma with FWB or SWB collected from green fluorescence protein (GFP) transgenic rats. After transfusion, a liver incision was made and the tissue was collected 10 min after injury to identify GFP⁺ platelets by immunohistochemistry. In comparison to FWB, platelet aggregation to adenosine diphosphate and protease‐activated receptor‐4 was reduced by 35% and 20%, and clotting time was shortened by 25% in SWB. After transfusion, SWB led to a significant increase in platelet activation as measured by an elevation of CD62P and phosphatidylserine expression. The platelets from SWB were in a higher activation state, and showed higher clearance rate and formation of platelet‐leucocyte aggregates than those from FWB after transfusion. Platelets from both FWB and SWB were equivalently incorporated into the clot at the incisional site, as determined by co‐localization of CD61 and GFP. This study suggests that SWB contributes to haemostatic function and is an effective alternative resource to treat trauma patients.     

Automated processing of whole blood units: operational value and in vitro quality of final blood components

Background

The Community Transfusion Centre in Madrid currently processes whole blood using a conventional procedure (Compomat, Fresenius) followed by automated processing of buffy coats with the OrbiSac system (CaridianBCT). The Atreus 3C system (CaridianBCT) automates the production of red blood cells, plasma and an interim platelet unit from a whole blood unit. Interim platelet unit are pooled to produce a transfusable platelet unit. In this study the Atreus 3C system was evaluated and compared to the routine method with regards to product quality and operational value.

Materials and methods

Over a 5-week period 810 whole blood units were processed using the Atreus 3C system. The attributes of the automated process were compared to those of the routine method by assessing productivity, space, equipment and staffing requirements. The data obtained were evaluated in order to estimate the impact of implementing the Atreus 3C system in the routine setting of the blood centre. Yield and in vitro quality of the final blood components processed with the two systems were evaluated and compared.

Results

The Atreus 3C system enabled higher throughput while requiring less space and employee time by decreasing the amount of equipment and processing time per unit of whole blood processed. Whole blood units processed on the Atreus 3C system gave a higher platelet yield, a similar amount of red blood cells and a smaller volume of plasma.

Discussion

These results support the conclusion that the Atreus 3C system produces blood components meeting quality requirements while providing a high operational efficiency. Implementation of the Atreus 3C system could result in a large organisational improvement.     

Mild and moderate hypothermia increases platelet aggregation induced by various agonists: a whole blood in vitro study

The mechanisms causing temperature-dependent bleeding, especially in hypothermic patients, warrant clarification. Therefore the aim of this study was to investigate platelet aggregation at the clinically important temperature range of 30–34°C. After obtaining informed consent citrated whole blood was drawn from 12 healthy adult male volunteers, who had not taken any medication in the previous 14 days. After venipuncture blood samples were incubated at 37°C until platelet testing. Platelet aggregation was performed in whole blood using the impedance aggregometer Multiplate® at five different test temperatures between 30°C and 34°C. Aggregation responses at 37°C served as controls. At temperatures of mild and moderate hypothermia (30–34°C), overall platelet aggregation was increased compared to 37°C. Increases were recorded in response to collagen, thrombin receptor activating peptide and ristocetin between 31°C and 34°C and in response to adenosine diphosphate between 30°C and 34°C. Overall platelet aggregation is increased at mild and moderate hypothermia down to 30°C. These results indicate that bleeding complications reported in mildly hypothermic patients are not due to hypothermia-induced platelet inhibition. The pathomechanism of the overall increased platelet aggregation between 30°C and 34°C requires further detailed study.     

Platelet activation and aggregation: the importance of thrombin activity—A laboratory model

This study introduces a new laboratory model of whole blood platelet aggregation stimulated by endogenously generated thrombin, and explores this aspect in haemophilia A in which impaired thrombin generation is a major hallmark. The method was established to measure platelet aggregation initiated by tissue factor evaluated by means of impedance aggregometry. Citrated whole blood from healthy volunteers and haemophilia A patients with the addition of inhibitors of the contact pathway and fibrin polymerization was evaluated. In healthy persons, a second wave of platelet aggregation was found to coincide with the thrombin burst and to be abolished by thrombin inhibitors. In this system, platelet aggregation in severe haemophilia A (n = 10) was found to be significantly decreased as compared with healthy individuals (912 ± 294 vs. 1917 ± 793 AU × min, P = 0.003), most probably due to the weak level of thrombin generation. For the first time, analysis of platelet aggregation as induced by endogenously generated thrombin was demonstrated. The new method makes it possible to explore the influence of the coagulation system on platelet function. In contrast to the general understanding, the data suggest that the impaired thrombin generation in haemophilia may affect platelet activation. Future studies will address whether our results may contribute to understanding differences in bleeding phenotypes and response to haemostatic substitution observed among patients.     

Comparison of methods to evaluate aspirin-mediated platelet inhibition after percutaneous intervention with stent implantation

Urinary 11-dehydro thromboxane B2 (d-TXB2) concentrations in the highest quartile have been associated with an increased risk of adverse outcomes in patients at high risk for atherothrombotic events. However, the determination of d-TXB2 is time consuming and not suitable for daily clinical routine. We therefore sought to determine the test correlating best with d-TXB2 to estimate aspirin-mediated platelet inhibition in 225 patients on dual antiplatelet therapy after percutaneous intervention with stent implantation. We selected light transmission aggregometry, the VerifyNow aspirin assay, the Platelet Function Analyzer-100, multiple electrode platelet aggregometry (MEA) and Impact-R for comparisons with d-TXB2. Cut-off values for high on-treatment residual arachidonic acid-inducible platelet reactivity (HRPR) were defined according to quartiles of each assay. Sensitivities and specificities of the different platelet function tests were based on d-TXB2 results. The results from all assays correlated poorly with d-TXB2. Only MEA showed a weak, but significant correlation with d-TXB2 (r?=?0.14, p?=?0.042). Further, the five platelet function tests showed a poor agreement with d-TXB2 regarding the determination of HRPR. Sensitivities and specificities for HRPR ranged from 17.5 to 44.6%, and from 70.8 to 77.9%, respectively. In conclusion, the evaluated assays did not mirror d-TXB2 results, suggesting that thromboxane inhibition can be circumvented in assays that determine platelet function. Therefore, large trials with clinical outcome data are needed to determine the diagnostic value of the various test systems and to define the gold standard method for assessing residual AA-inducible platelet reactivity.     

Thrombin generation: a comparison of assays using platelet-poor and -rich plasma and whole blood samples from healthy controls and patients with a history of venous thromboembolism

We have developed a whole blood thrombin generation (TG) assay whereby TG is initiated with a low-tissue factor concentration and monitored using a fluorogenic thrombin substrate. Significantly higher values were found in blood samples from 50 patients with a history of venous thromboembolism (VTE) compared with 31 healthy controls (HC), for peak height (P = 0.0034) and endogenous thrombin potential (ETP) (P = 0.0027). Results from 31 VTE patients and the 31 controls in the absence of corn trypsin inhibitor (CTI) showed significantly higher values in the VTE group for peak height (P = 0.0013) and ETP (P = 0.002). In the presence of CTI, significantly higher values were only seen in ETP (P = 0.024). No significant increases in TG were found using platelet poor (PPP) or -rich (PRP) plasma with or without CTI. The whole blood TG assay in the absence or presence of CTI showed a higher proportion (25/50 and 12/31, respectively) of raised peak height and/or ETP values than plasma assays (PPP 9/50 and 5/31 respectively and PRP 13/50 and 6/31, respectively). Our results show the whole blood TG assay is more sensitive for determining the increases in TG in patients with a history of VTE than PPP and PRP TG assays.     

Thrombocytopenia model with minimal manipulation of blood cells allowing whole blood assessment of platelet function

In vitro models of thrombocytopenia are useful research tools. Previously published models have shortcomings altering properties of platelets and other blood components. The aim of the present study was to develop a whole blood method to induce thrombocytopenia with minimal manipulation, and to describe platelet function in induced thrombocytopenia in individuals with healthy platelets. Hirudin anticoagulated blood was obtained from 20 healthy volunteers. One part of the blood was gently centrifuged at 130g for 15 minutes. The platelet-rich plasma was replaced with phosphate-buffered saline to establish thrombocytopenia. Various levels of thrombocytopenia were achieved by combining different volumes of baseline whole blood and thrombocytopenic blood. Platelet counts were measured by flow cytometry (Navios, Beckman Coulter) and routine haematological analyser (Sysmex XE-5000). Platelet function was analysed by impedance aggregometry (Multiplate® Analyzer, Roche) and by flow cytometry (Navios, Beckman Coulter) using collagen, adenosine diphosphate, thrombin receptor activating peptide-6 and ristocetin as agonists. Median baseline platelet count was 227×10⁹/l. The in vitro model yielded median platelet counts at 51×10⁹/l (range 26–93×10⁹/l). We observed minor, yet significant, changes in platelet size and maturity from baseline to modelled thrombocytopenia. In the thrombocytopenic samples, significant and positive linear associations were found between platelet count and platelet aggregation across all agonists (all p-values<0.001). Platelet function assessed by flow cytometry showed minimal alterations in the thrombocytopenic samples. A new whole blood-based model of thrombocytopenia was established and validated. This new model serves as a useful future tool, particularly to explore platelet function in patients with thrombocytopenia.     

The effect of human platelet alloantigen polymorphisms on the in vitro responsiveness to adrenaline and collagen

A number of clinical studies have suggested that carriage of the low frequency allele (b) of the human platelet antigen 1 (HPA-1) system is a risk factor for coronary thrombosis. We have examined the effect of a series of HPA biallelic polymorphisms (systems -1, -2, -3 and -5) on the in vitro platelet aggregation in response to adrenaline and collagen in 30 healthy volunteers. There was a significantly higher prevalence (10 out of 18) of carriers of the HPA-1b polymorphism among subjects showing a > 50% aggregation response to adrenaline ('responders') than the prevalence (1/12) in 'non-responders' (P < 0.05). Platelets heterozygous for the HPA-1b polymorphism showed a significantly higher rate (slope) and greater extent (%) of adrenaline-induced aggregation than platelets not carrying the HPA-1b allele (P < 0.05). A greater extent of collagen-induced aggregation was also demonstrated in HPA-1ab platelets (P < 0.05). Inhibition of adrenaline-induced aggregation following incubation with aspirin was greater (P < 0.01) in HPA-1ab than in HPA-1aa platelets. Collagen-induced aggregation was slower in carriers of the HPA-5b allele than in HPA-5aa subjects (P < 0.05). Polymorphisms of the HPA-2 and HPA-3 systems were not associated with different aggregation responses to either adrenaline or collagen. These results support the clinical observation that polymorphism HPA-1b may predispose to increased platelet thrombogenicity and suggest that the presence of polymorphism HPA-5b might render the platelet less reactive to collagen.     

Characteristics of leucocyte adhesion directly observed in flowing whole blood in vitro

Use of whole blood in adhesion assays allows analysis of the rheological and haematological factors that may influence adhesion, and avoids the need for isolation procedures that may modify the properties of leucocytes. We have adapted an in vitro flow model to allow videomicroscopy of leucocytes fluorescently labelled with rhodamine 6G (20 microg/ml) in anticoagulated whole blood. Blood was perfused at a range of wall shear rates (35-280/s) through a vertical glass capillary with a rectangular cross-section (microslide) that had been coated with P-selectin (10 microg/ml). Nearly all adherent cells were rolling in blood that had been anticoagulated with buffered citrate, but 40-50% became immobilized when heparin or thrombin inhibitor (PPACK) were used. The efficiency of leucocyte adhesion decreased steadily during 1-4 h of blood storage. Smaller fluorescent cells (lymphocytes) adhered less efficiently than larger cells (granulocytes) and rolled faster. Adhesion decreased monotonically with increasing wall shear rate or stress, but the velocity of rolling varied little. Among healthy volunteer donors, adhesion correlated with blood leucocyte count, but did not vary significantly with natural variation in haematocrit, blood viscosity or red cell aggregation. In conclusion, we have characterized adhesion of leucocytes in flowing whole blood, identified key experimental variables and demonstrated that physical environmental factors can markedly influence adhesive behaviour.     

The effects of storage on platelet function in different blood products

Objectives: Reduced platelet (PLT) function during storage has been shown for buffy-coat-derived platelet concentrates (BCP) and apheresis platelet units (AP), while for whole blood (WB) it has not been well studied. The aim of this study was to investigate PLT function in these blood products throughout storage using a novel flow cytometric assay.

Methods: Flow cytometric measurement of agonist-induced platelet aggregation, CD62P expression and PAC-1 binding during storage in BCP, AP (1–9 days at 20°C) and WB (1–21 days at 2–6°C).

Results: PLT-aggregation capacity decreased from day 1 to day 7 for almost all product–agonist combinations (P?=?.004 to P?=?.029) with aggregation capacity of WB being similar to that of AP and BCP. WB aggregation capacity remained relatively unchanged from day 7 to day 21. For all blood products, the fraction of agonist-induced CD62P-expression remained high and the fraction of PAC-1 binding decreased during storage. WB PLTs underwent only small changes in CD62P expression and PAC-1 binding from day 7 to day 21.

Conclusion: This study found PLT aggregation in WB stored at 4°C to be as least as good as for BCP and AP stored at 20°C. WB retained significant PLT-aggregation capacity to day 21.     

Arachidonic acid causes lysis of blood cells and ADP-dependent platelet activation responses in platelet function tests

The use of arachidonic acid (AA) to stimulate platelets is considered as a specific approach to study aspirin treatment efficacy. However, very high concentrations of AA are used, and it has been previously reported that AA can induce cell lysis in other settings. Several clinical studies have reported decreased responses to AA in whole blood tests in the presence of clopidogrel.

Our aim was to investigate whether unspecific effects contribute to AA-induced aggregation and platelet activation in light transmission aggregometry (LTA) in platelet-rich plasma (PRP), and in assays using whole blood, multiple electrode aggregometry (MEA, Multiplate®), and flow cytometry.

We report that cell lysis, especially of red blood cells, does occur at concentrations of AA used in the clinical tests and that ADP is very important for the AA-induced platelet activation responses. In flow cytometry, very limited platelet activation was detected before reaching AA concentrations in the millimolar range, where cell lysis also occurred, making it problematic to develop a reliable flow cytometry assay using AA as reagent.

We conclude that cell lysis and ADP release contribute to AA-induced platelet responses, most markedly in whole blood assays. This finding could potentially explain some differences between studies comparing methods using whole blood and PRP and also how clopidogrel treatment could influence AA-induced aggregation results in previously published studies. Our findings highlight some issues with AA as reagent for platelet activation, which also have an impact on how platelet activation assays using AA should be interpreted.     

Effects of platelet activating factor (PAF) on human citrated whole blood

Effects of PAF on citrated whole blood (C-WB) from 38 healthy donors have been studied by impedance aggregometry and by morphologic examination of blood cells using scanning and transmission electron microscopy. In the aggregometer, the C-WB samples showed distinct differences in PAF sensitivity. C-WB specimens from high responders (= 15 donors) displayed a dose-related response to PAF stimulation but those from low responders (= 23 donors) did not indicate an impedance alteration even after the addition of high PAF doses (greater than or equal to 10(-6) mol/l). Morphologic studies revealed shape-changed platelets and primary aggregates in all C-WB samples, whereas secondary aggregates occurred only in C-WB specimens from high responders. Monocytes and neutrophil PMNs showed typical morphologic alterations which were observed in PAF-stimulated C-WB samples from all donors. Both cell types appeared polarized in shape and exhibited large vacuoles in the cytoplasm after PAF activation. In addition, monocytes came into close contact with shape-changed platelets as well as primary and secondary aggregates, whereas PMNs had no special relationship to single or aggregated platelets. In summary, our study indicates that PAF acts on different cell types in C-WB including platelets, monocytes and PMNs. The sensitivity of platelets against PAF stimulation appears to vary between different donors and in certain cases seems to be limited to the formation of primary aggregates.     

Extended storage of whole blood before the preparation of blood components: in vitro effects on red blood cells in Erythro-Sol environment

Background and Objectives  Routine procedures for extended storage of whole blood (WB) before the preparation of blood components are of interest primarily for logistical reasons. We stored red cell units in either Erythro-Sol 2 (E-Sol 2, test units, 150 ml added) or in saline-adenine-glucose–mannitol (SAG-M) (reference units, 100 ml added) that were prepared after storage of WB at room temperature for 8, 12, 16 or 19 h after blood collection.
Study Design and Methods  Red blood cells were stored for 42 days. We measured pH, glucose, lactate, haemolysis, red blood cell adenosine triphosphate and 2,3-diphosphoglycerate on days 1, 7, 14, 21, 28, 35 and 42.
Results  Haematocrits were significantly lower in E-Sol 2 than in SAG-M due to the higher volume of E-Sol 2 added compared to SAG-M. Significantly reduced levels were found in E-Sol 2 of extracellular pH (throughout storage after 8-h hold and initially after 12-, 16- or 19-h hold), of lactate (initially after 8-h hold and throughout storage after 12-, 16- or 19-h hold), and of haemolysis from day 35 in the 8-h and on day 42 in the 12-h hold group. Sigificantly increased levels of adenosine triphosphate were seen in E-Sol 2 after 8-h hold (from day 14) and after 12-h hold (at days 21, 35 and 42) compared to SAG-M. Significantly higher concentrations of 2,3-diphosphoglycerate were noticed primarily after 8-h hold of WB.
Conclusion  The use of E-Sol 2 as a replacement for SAG-M does not significantly improve in vitro data after extended storage of WB at room temperature before preparation of blood components. However, after 8-h hold in vitro characteristics similar to or better than in fresh blood will be maintained for several weeks in E-Sol 2, a situation that makes E-Sol 2 superior to SAG-M when storage of WB is limited to 8 h. Some improvement was noted after 12-h hold as well.