Lian Zhao

Granulocyte-Colony–Stimulating Factor Mobilizes Bone Marrow Stem Cells in Patients With Subacute Ischemic Stroke: The Stem Cell Trial of Recovery EnhanceMent After Stroke (STEMS) Pilot Randomized, Controlled Trial (ISRCTN 16784092)

Background and Purpose— Loss of motor function is common after stroke and leads to significant chronic disability. Stem cells are capable of self-renewal and of differentiating into multiple cell types, including neurones, glia, and vascular cells. We assessed the safety of granulocyte-colony–stimulating factor (G-CSF) after stroke and its effect on circulating CD34+ stem cells. Methods— We performed a 2-center, dose-escalation, double-blind, randomized, placebo-controlled pilot trial (ISRCTN 16784092) of G-CSF (6 blocks of 1 to 10 &mgr;g/kg SC, 1 or 5 daily doses) in 36 patients with recent ischemic stroke. Circulating CD34+ stem cells were measured by flow cytometry; blood counts and measures of safety and functional outcome were also monitored. All measures were made blinded to treatment. Results— Thirty-six patients, whose mean±SD age was 76±8 years and of whom 50% were male, were recruited. G-CSF (5 days of 10 &mgr;g/kg) increased CD34+ count in a dose-dependent manner, from 2.5 to 37.7 at day 5 (area under curve, P=0.005). A dose-dependent rise in white cell count (P<0.001) was also seen. There was no difference between treatment groups in the number of patients with serious adverse events: G-CSF, 7/24 (29%) versus placebo 3/12 (25%), or in their dependence (modified Rankin Scale, median 4, interquartile range, 3 to 5) at 90 days. Conclusions— G-CSF is effective at mobilizing bone marrow CD34+ stem cells in patients with recent ischemic stroke. Administration is feasible and appears to be safe and well tolerated. The fate of mobilized cells and their effect on functional outcome remain to be determined.

Granulocyte-colony - Stimulating factor mobilizes bone marrow stem cells in patients with subacute ischemic stroke: The Stem cell Trial of recovery EnhanceMent after Stroke (STEMS) pilot randomized, controlled trial (ISRCTN 16784092)

Background and Purpose— Loss of motor function is common after stroke and leads to significant chronic disability. Stem cells are capable of self-renewal and of differentiating into multiple cell types, including neurones, glia, and vascular cells. We assessed the safety of granulocyte-colony–stimulating factor (G-CSF) after stroke and its effect on circulating CD34+ stem cells. Methods— We performed a 2-center, dose-escalation, double-blind, randomized, placebo-controlled pilot trial (ISRCTN 16784092) of G-CSF (6 blocks of 1 to 10 &mgr;g/kg SC, 1 or 5 daily doses) in 36 patients with recent ischemic stroke. Circulating CD34+ stem cells were measured by flow cytometry; blood counts and measures of safety and functional outcome were also monitored. All measures were made blinded to treatment. Results— Thirty-six patients, whose mean±SD age was 76±8 years and of whom 50% were male, were recruited. G-CSF (5 days of 10 &mgr;g/kg) increased CD34+ count in a dose-dependent manner, from 2.5 to 37.7 at day 5 (area under curve, P=0.005). A dose-dependent rise in white cell count (P<0.001) was also seen. There was no difference between treatment groups in the number of patients with serious adverse events: G-CSF, 7/24 (29%) versus placebo 3/12 (25%), or in their dependence (modified Rankin Scale, median 4, interquartile range, 3 to 5) at 90 days. Conclusions— G-CSF is effective at mobilizing bone marrow CD34+ stem cells in patients with recent ischemic stroke. Administration is feasible and appears to be safe and well tolerated. The fate of mobilized cells and their effect on functional outcome remain to be determined.

Cocoa flavanols and platelet and leukocyte function: recent in vitro and ex vivo studies in healthy adults.

There is growing interest in possible beneficial effects of specific dietary components on cardiovascular health. Platelets and leukocytes contribute to arterial thrombosis and to inflammatory processes. Previous studies performed in vitro have demonstrated inhibition of platelet function by (−)-epicatechin and (+)-catechin, flavan-3-ols (flavanols) that are present in several foods including some cocoas. Also, some modest inhibition of platelet function has been observed ex vivo after the consumption of flavanol-containing cocoa products by healthy adults. So far there are no reports of effects of cocoa flavanols on leukocytes. This paper summarizes 2 recent investigations. The first was a study of the effects of cocoa flavanols on platelet and leukocyte function in vitro. The second was a study of the effects of consumption of a flavanol-rich cocoa beverage by healthy adults on platelet and leukocyte function ex vivo. Measurements were made of platelet aggregation, platelet-monocyte conjugate formation (P/M), platelet-neutrophil conjugate formation (P/N), platelet activation (CD62P on monocytes and neutrophils), and leukocyte activation (CD11b on monocytes and neutrophils) in response to collagen and/or arachidonic acid. In the in vitro study several cocoa flavanols and their metabolites were shown to inhibit platelet aggregation, P/M, P/N, and platelet activation. Their effects were similar to those of aspirin and the effects of a cocoa flavanol and aspirin did not seem to be additive. There was also inhibition of monocyte and neutrophil activation by flavanols, but this was not replicated by aspirin. 4′-O-methyl-epicatechin, 1 of the known metabolites of the cocoa flavanol (−)-epicatechin, was consistently effective as an inhibitor of platelet and leukocyte activation. The consumption of a flavanol-rich cocoa beverage also resulted in significant inhibition of platelet aggregation, P/M and P/N, and platelet activation induced by collagen. The inhibitory effects were related to their flavanol content. There was also inhibition of monocyte and neutrophil activation, but here it was concluded that cocoa constituents other than flavanols may contribute to the inhibition that was observed. It can be concluded that cocoa flavanols, their metabolites and possibly other cocoa constituents can modulate the activity of platelets and leukocytes in vitro and ex vivo. The research suggests that the consumption of certain cocoa products may provide a dietary approach to maintaining or improving cardiovascular health.

Effects of combining three different antiplatelet agents on platelets and leukocytes in whole blood in vitro

Antiplatelet drugs have been demonstrated to reduce the incidence of recurrent events in patients with symptomatic vascular disease. However, there is no experimental data indicating the effects of these agents when given together on platelets and leukocytes. We investigated the ability of aspirin (an inhibitor of cyclo‐oxygenase), dipyridamole (an inhibitor of phospodiesterases and adenosine uptake) and AR‐C69931 (a direct acting P2T antagonist with effects similar to those of clopidogrel which can be used in vitro) when used alone or in combination to inhibit platelet and leukocyte function. Measurements of platelet and leukocyte function were performed in blood taken from normal volunteers, and the inhibitory effects of aspirin (100 μmol l−1), dipyridamole (10 μmol l−1) and AR‐C66931 (100 nmol l−1) were determined. Platelet aggregation was induced by stirring blood with and without adenosine diphosphate (ADP) or platelet activating factor (PAF) and measured by platelet counting. Platelet P‐selectin expression, platelet‐leukocyte conjugate formation, and leukocyte activation were determined by flow cytometry. Dipyridamole, AR‐C69931, dipyridamole and AR‐C69931, dipyridamole and aspirin, AR‐C69931 and aspirin, and all three agents together inhibited platelet aggregation induced by stirring, ADP and PAF (P<0.01). However, it was only the combination of all three agents inhibited P‐selectin expression (P<0.01). Similarly, it was the combination of all three antiplatelet agents that most consistently inhibited platelet‐monocyte and platelet‐neutrophil conjugate formation and monocyte and neutrophil activation. Since both platelets and leukocytes are thought to contribute to arterial thrombosis and atherosclerosis, it is possible that combinations of different antiplatelet agents with different mechanisms of action may afford better protection than individual or pairs of agents used on their own.

Effect of aspirin, clopidogrel and dipyridamole on soluble markers of vascular function in normal volunteers and patients with prior ischaemic stroke

Although the mechanisms of action by which aspirin, clopidogrel and dipyridamole inhibit platelets are well characterised, their effects on soluble modulators of thrombosis, inflammation, and endothelial function have yet to assessed systematically. In this investigation aspirin (A), clopidogrel (C), and dipyridamole (D) were administered singly and in combination (A, C, D, AC, AD, CD, ACD) in random order for 2 weeks (without washout) to 11 healthy subjects and 11 patients with previous ischaemic stroke. At the end of each treatment period plasma cyclic guanosine monophosphate (cGMP), monocyte chemoattractant pertide-1 (MCP-1), nitric oxide metabolites (NOx), plasminogen activator inhibitor-1 (PAI-1) and von Willebrand factor (vWf); and serum C-reactive protein (CRP) and platelet derived growth factor (PDGF); were measured blinded to treatment. Dipyridamole reduced plasma vWf levels (%) in both volunteers, −10.0 (4.95), and patients, −10.11 (4.34) (p < 0.05). Dipyridamole also lowered CRP (mg/l) in patients, −0.96 (0.47), but not volunteers. Clopidogrel reduced PAI-1 (ng/ml) in volunteers, −5.30 (2.20) (p < 0.05), and patients, −3.61 (2.75) (non-significant trend). Aspirin lowered PDGF (ng/ml) in volunteers, −3.46 (1.55), but not patients. Triple antiplatelet therapy was superior to dual and mono therapy in reducing vWf levels. In conclusion, antiplatelet agents have non-platelet-related effects on soluble modulators of thrombosis, inflammation, and endothelial function. In particular, dipyridamole reduces plasma vWf and clopidogrel lowers plasma PAI-1 levels. These effects may explain, in part, their roles in preventing atherothrombogenesis.

The GPIIb/IIIa antagonist eptifibatide markedly potentiates platelet-leukocyte interaction and tissue factor expression following platelet activation in whole blood in vitro

Tissue factor (TF) is the most important initiator of intravascular coagulation. Activated platelets are able to adhere to leukocytes and this heterotypic cell-cell interaction results in a CD62P-dependent TF expression on monocytes. GPIIb/IIIa antagonists are inhibitors of the common pathway of platelet aggregation and they are widely used in patients with acute coronary syndromes undergoing coronary interventions. As GPIIb/IIIa antagonists do not prevent platelet activation we investigated the effect a GPIIb/IIIa antagonist, eptifibatide, on the formation of platelet-leukocyte conjugates and leukocyte TF expression. Flow cytometry was used to detect conjugates and TF. When platelets in citrated human blood were stimulated for 30 min with collagen there was a increase in the number of both neutrophils and monocytes with the platelet-specific antigen CD42a, indicating the formation of platelet-neutrophil (P/N) and platelet-monocyte (P/M) conjugates. P/M formation was associated with about a 2.5-fold increase in TF expression on monocytes, whereas P/N formation changed TF expression neutrophils only by about 10%. Eptifibatide enhanced dose-dependently (0.0625-1.5 w g/ml) both collagen-induced P/M formation and monocyte TF expression. Maximum enhancement by about 60 and 120%, respectively, was observed at 0.5 w g/ml eptifibatide. In contrast, eptifibatide had only a minor effect on P/N formation and no effect on neutrophil TF expression. The augmented P/M formation and monocyte TF expression in the presence of a GPIIb/IIIa antagonist may be relevant to the poor antithrombotic efficiency of oral GPIIb/IIIa antagonists as shown in recent large clinical trials.

A Randomised Controlled Trial of Triple Antiplatelet Therapy (Aspirin, Clopidogrel and Dipyridamole) in the Secondary Prevention of Stroke: Safety, Tolerability and Feasibility

Background Aspirin, dipyridamole and clopidogrel are effective in secondary vascular prevention. Combination therapy with three antiplatelet agents might maximise the benefit of antiplatelet treatment in the secondary prevention of ischaemic stroke. Methodology/Principal Findings A randomised, parallel group, observer-blinded phase II trial compared the combination of aspirin, clopidogrel and dipyridamole with aspirin alone. Adult patients with ischaemic stroke or transient ischaemic attack (TIA) within 5 years were included. The primary outcome was tolerability to treatment assessed as the number of patients completing randomised treatment. Recruitment was halted prematurely after publication of the ESPRIT trial (which confirmed that combined aspirin and dipyridamole is more effective than aspirin alone). 17 patients were enrolled: male 12 (71%), mean age 62 (SD 13) years, lacunar stroke syndrome 12 (71%), median stroke/TIA onset to randomisation 8 months. Treatment was discontinued in 4 of 9 (44%) patients receiving triple therapy vs. none of 8 taking aspirin (p = 0.08). One recurrent stroke occurred in a patient in the triple group who was noncompliant of all antiplatelet medications. The number of patients with adverse events and bleeding complications, and their severity, were significantly greater in the triple therapy group (p<0.01). Conclusions/Significance Long term triple antiplatelet therapy was asociated with a significant increase in adverse events and bleeding rates, and their severity, and a trend to increased discontinuations. However, the patients had a low risk of recurrence and future trials should focus on short term therapy in high risk patients characterised by a very recent event or failure of dual antiplatelet therapy. Trial Registration Controlled-Trials.com ISRCTN83673558

P-selectin, tissue factor and CD40 ligand expression on platelet-leucocyte conjugates in the presence of a GPIIb/IIIa antagonist

This study was to investigate the appearance of P-selectin, tissue factor (TF) and CD40 ligand (CD40L) on platelet-leucocyte conjugates in the absence and presence of a GPIIb/IIIa antagonist, MK-852, and the effect of adding EDTA to pre-formed conjugates. The purpose was to find out whether these antigens are displaced from the conjugates along with the platelets, thus providing information on their location. Hirudinized blood was stirred with collagen ((2 μg/mL) in the absence and presence of MK-852 (10 μmol/mL). P-selectin, TF and CD40L were measured on platelet-leucocyte conjugates (CD42a positive monocytes and neutrophils) and on single platelets by flow cytometry. Measurements were also made after subsequent addition of EDTA (4 mmol/L). Platelet-leucocyte conjugate formation was markedly enhanced in the presence of MK-852. P-selectin, TF and CD40L expression on the conjugates was also enhanced. Monocytes bound more platelets and expressed more P-selectin, TF and CD40L than neutrophils. EDTA displaced the majority of platelets from the conjugates and also the P-selectin, TF and CD40L, whereas it did not displaced P-selectin or CD40 ligand from platelets themselves. It is concluded that a GPIIb/IIIa antagonist promotes formation of platelet-leucocyte conjugates, which display P-selectin, TF and CD40L that appears to be associated with the adherent platelets. Platelet-monocyte conjugates are prime candidates for arterial inflammation and thrombosis. Pro-inflammatory and pro-thrombotic effects of CD40L and tissue factor may be an explanation of the negative clinical effects using GPIIb/IIIa antagonists.

Effects of aspirin, clopidogrel and dipyridamole administered singly and in combination on platelet and leucocyte function in normal volunteers and patients with prior ischaemic stroke

The aim of this study was to assess whether triple antiplatelet therapy is superior to dual and mono therapy in attenuating platelet and leucocyte function. Aspirin (A), clopidogrel (C), and dipyridamole (D) were administered singly and in various combinations (A, C, D, AC, AD, CD, ACD), each for two weeks (without washout) to 11 healthy subjects and to 11 patients with previous ischaemic stroke in two randomised multiway crossover trials. At the end of each two-week period platelet aggregation, platelet-leucocyte conjugate formation and leucocyte activation were measured ex vivo blinded to treatment. Platelets were stimulated with collagen; additional measurements were made with adenosine diphosphate (ADP), platelet activating factor (PAF), adrenaline and the combination of, ADP, PAF and adrenaline. Results show that in the presence of collagen, ACD was superior to all antagonists or combinations, except AC, in reducing aggregation, platelet-leucocyte conjugate formation, and monocyte activation (all p<0.05). ACD was also more potent than other treatments, except AC, in inhibiting the aggregation and platelet-monocyte conjugate formation induced by the combination of ADP, PAF and adrenaline. The effects were similar in both volunteers and stroke patients. No serious adverse events or major bleeding events occurred. Triple antiplatelet therapy did not appear to be more effective than combined aspirin and clopidogrel in moderating platelet and leucocyte function. Any additional clinical benefit provided by dipyridamole may be through other mechanisms of action.

The effects of GPIIb-IIIa antagonists and a combination of three other antiplatelet agents on platelet-leukocyte interactions

SUMMARY The effects of the GPIIb-IIIa antagonists abciximab and MK-852 on platelet-leukocyte interactions in vitro were studied and the results compared with those obtained with a combination of aspirin, dipyridamole and AR-C69931 (Asp/Dip/AR-C). Platelet-monocyte (P/M) and platelet—neutrophil (P/N) conjugate formation increased when blood was stirred or a platelet agonist was added. Leukocyte activation also occurred as judged by expression of surface tissue factor antigen and CD11b. Abciximab and MK-852 potentiated P/M, especially when collagen was used. They also increased the amount of tissue factor on the monocytes, but not CD11 b. The Asp/Dip/AR-C did not enhance P/M or tissue factor exposure. Augmented tissue factor expression on monocytes in the presence of a GPIIb-IIIa antagonist may be relevant to the increased mortality associated with trials of such antagonists when given orally in patients with vascular disease. The Asp/Dip/AR-C was superior to abciximab and MK-852 in inhibiting platelet and leukocyte function.