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Query: UMLS:C0038454 (stroke)
 147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A periodic fall of platelet number characterizes an acquired pathological condition named cyclic thrombocytopenia. We observed a patient in whom the episodes of thrombocytopenia (platelet number less than 50 x 10(9)/l) were followed regularly by thrombocytosis (700-2300 x 10(9) platelets/l). The period of platelet count fluctuation was about 40 d. Morphological examination of bone marrow showed the cyclic disappearance of mature and immature megakaryocytes; bone marrow cultures revealed a periodic severe defect of both multilineage and single-lineage progenitor cell growth. When platelet count was falling, a mild defect of platelet aggregation and ATP release was observed, while platelet function was normal when platelet count was rising. Prednisone, thymopentin, high-dose intravenous gamma-globulin and splenectomy were without effect. After 4 years of cyclic platelet and megakaryocyte fluctuations, stable amegakaryocytic thrombocytopenia developed and the patient died of haemorrhagic stroke.
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PMID:Acquired cyclic thrombocytopenia-thrombocytosis with periodic defect of platelet function. 791 35

Platelet volume is a marker of platelet function and activation. It is readily measured as mean platelet volume (MPV) by clinical haematology analysers using sodium citrate as the anticoagulant. Measurement in EDTA can be unreliable since MPV increases significantly in a time-dependent manner. MPV correlates with platelet function and activation, whether measured as aggregation, thromboxane synthesis, beta-thromboglobulin release, procoagulant function, or adhesion molecule expression. MPV is increased in certain vascular risk factor states, including hypercholesterolaemia and diabetes mellitus, but not essential hypertension. It is increased in acute myocardial infarction, acute ischaemic stroke, pre-eclampsia and renal artery stenosis. Importantly, an elevated MPV predicts a poor outcome following myocardial infarction, restenosis following coronary angioplasty, and the development of pre-eclampsia. Research into the epidemiology of MPV is now required to determine whether thrombomegaly is a risk factor for developing vascular disease. Similarly, the physiological mechanisms which regulate MPV within the megakaryocyte need to be elucidated. Whether MPV ever becomes a routinely requested test remains to be seen but changes in methodology will be required first.
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PMID:Platelet size: measurement, physiology and vascular disease. 873 7

Platelets are anucleate cells with little or no capacity for de novo protein synthesis. Their potential haemostatic reactivity is established at or before thrombopoiesis by their precursor cell, the bone marrow megakaryocyte. In some pathologic conditions, the megakaryocyte-platelet-haemostatic axis (MPHA) becomes perturbed, resulting in the formation of hyperfunctional platelets which may contribute to the development of vascular disease or an acute thrombotic event such as ischaemic stroke or myocardial infarction. Laboratory measurements of platelet function have established that platelet reactivity is accentuated in acute ischaemic stroke, particularly following cortical rather than lacunar infarction. Whether accentuated platelet function is a cause or a consequence of stroke is not yet clear, but it is likely that patients with certain risk factor profiles have some degree of platelet activation preceding the stroke. Further work into the MPHA is required to establish whether enhanced post-stroke platelet reactivity can be referred to the megakaryocyte. The antiplatelet agents tested to date are effective in secondary but not primary prevention of stroke. This probably reflects the diverse pathophysiology of stroke: accentuated platelet function is only likely to be a significant factor in cortical stroke.
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PMID:Platelets and stroke. 1051 96

Platelet function is accentuated in acute ischaemic stroke (IS) and may also be altered in haemorrhagic stroke. Whether these changes are a direct reaction to the stroke or are secondary to changes in megakaryocytes (MKs) is unknown. To determine whether MKs are altered in acute stroke we studied 24 patients (18 with ischaemic stroke, six with haemorrhagic stroke) within 3 days of symptom onset, and 14 matched controls. MK ploidy (DNA content, N), size (forward scatter, FSC, arbitrary units), granularity (side scatter, SSC, arbitrary units) and glycoprotein (GP) IIIa expression (arbitrary units) were assessed by flow cytometry. Platelet size (MPV, fl), platelet count (PC, x109/l), circulating reticulated platelets (%), and cutaneous bleeding time (s) were also measured. MK ploidy 22.5 (2.7) vs. 20.6 (1.7) (2p = 0.014); FSC 629 (51) vs. 594 (41) (2p = 0.025); and SSC 843 (88) vs. 776 (76) (2p = 0.020) were each increased, whereas bleeding time 318 (102) vs. 401 (94) (2p = 0.050) was decreased in patients with acute stroke as compared with controls. Trends to increased MK GP IIIa expression and reticulated platelets were also apparent. In a post hoc analysis, the increase in MK ploidy was most prominent in patients with a prior history of hypertension. Ischaemic stroke was associated with non-significant increases in MK ploidy, size, and granularity. However, MK parameters were different in acute haemorrhagic stroke as compared with controls: MK ploidy 23.0 (1.8) vs. 20.6 (1.7) (2p = 0.018); MK FSC 637 (21) vs. 594 (41) (2p = 0.050); MK SSC 872 (41) vs. 776 (76) (2p = 0.020), changes which could be related to the high prevalence of hypertension (83%) in this group. These results demonstrate that pro-thrombotic changes in the megakaryocyte-platelet-haemostatic axis (MPHA) are present in acute stroke. Although megakaryocyte changes are likely, in part, to be secondary to the stroke, they could also precede the stroke and therefore explain some of the increased platelet function observed in acute stroke.
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PMID:Altered megakaryocyte-platelet-haemostatic axis in patients with acute stroke. 1189 47

Platelets exert a considerable influence on human morbidity and mortality. The rationale for their study in hypertension follows the observation that the major consequences of hypertension are stroke and myocardial infarction. However, the etiology of these consequences in hypertension is, paradoxically, not hemorrhagic (as might be expected from the effects of high blood pressure), but occlusive, with thrombus being the culprit lesion. Mechanisms of platelet activation include high shear force, activation of the renin-angiotensin system, endothelial changes, and the presence of comorbidity, such as atrial fibrillation. The treatment of high blood pressure brings about a reversal of the changes seen in the cell. This could be in part due to the direct effect of the drug on the megakaryocyte and/or the platelets themselves, or it might simply be due to the reduction in blood pressure. Some drugs, such as calcium channel antagonists and angiotensin II receptor blockers, however, might have direct effects on platelet biochemistry other than reducing blood pressure. Finally, antiplatelet drugs are becoming an important part of the management of high-risk hypertensives, which aim to minimize vascular complications.
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PMID:Pharmacological modulation of platelet function in hypertension. 1278 43

The Philadelphia chromosome-negative chronic myeloproliferative disorders (CMPD), polycythemia vera (PV), essential thrombocythemia (ET) and chronic idiopathic myelofibrosis (IMF), have overlapping clinical features but exhibit different natural histories and different therapeutic requirements. Phenotypic mimicry amongst these disorders and between them and nonclonal hematopoietic disorders, lack of clonal diagnostic markers, lack of understanding of their molecular basis and paucity of controlled, prospective therapeutic trials have made the diagnosis and management of PV, ET and IMF difficult. In Section I, Dr. Jerry Spivak introduces current clinical controversies involving the CMPD, in particular the diagnostic challenges. Two new molecular assays may prove useful in the diagnosis and classification of CMPD. In 2000, the overexpression in PV granulocytes of the mRNA for the neutrophil antigen NBI/CD177, a member of the uPAR/Ly6/CD59 family of plasma membrane proteins, was documented. Overexpression of PRV-1 mRNA appeared to be specific for PV since it was not observed in secondary erythrocytosis. At this time, it appears that overexpression of granulocyte PRV-1 in the presence of an elevated red cell mass supports a diagnosis of PV; absence of PRV-1 expression, however, should not be grounds for excluding PV as a diagnostic possibility. Impaired expression of Mpl, the receptor for thrombopoietin, in platelets and megakaryocytes has been first described in PV, but it has also been observed in some patients with ET and IMF. The biologic basis appears to be either alternative splicing of Mpl mRNA or a single nucleotide polymorphism, both of which involve Mpl exon 2 and both of which lead to impaired posttranslational glycosylation and a dominant negative effect on normal Mpl expression. To date, no Mpl DNA structural abnormality or mutation has been identified in PV, ET or IMF. In Section II, Dr. Tiziano Barbui reviews the best clinical evidence for treatment strategy design in PV and ET. Current recommendations for cytoreductive therapy in PV are still largely similar to those at the end of the PVSG era. Phlebotomy to reduce the red cell mass and keep it at a safe level (hematocrit < 45%) remains the cornerstone of treatment. Venesection is an effective and safe therapy and previous concerns about potential side effects, including severe iron deficiency and an increased tendency to thrombosis or myelofibrosis, were erroneous. Many patients require no other therapy for many years. For others, however, poor compliance to phlebotomy or progressive myeloproliferation, as indicated by increasing splenomegaly or very high leukocyte or platelet counts, may call for the introduction of cytoreductive drugs. In ET, the therapeutic trade-off between reducing thrombotic events and increasing the risk of leukemia with the use of cytoreductive drugs should be approached by patient risk stratification. Thrombotic deaths seem very rare in low-risk ET subjects and there are no data indicating that fatalities can be prevented by starting cytoreductive drugs early. Therefore, withholding chemotherapy might be justifiable in young, asymptomatic ET patients with a platelet count below 1500000/mm(3) and with no additional risk factors for thrombosis. If cardiovascular risk factors together with ET are identified (smoking, obesity, hypertension, hyperlipidemia) it is wise to consider platelet-lowering agents on an individual basis. In Section III, Dr. Gianni Tognoni discusses the role of aspirin therapy in PV based on the recently completed European Collaboration on Low-dose Aspirin in Polycythemia Vera (ECLAP) Study, a multi-country, multicenter project aimed at describing the natural history of PV as well as the efficacy of low-dose aspirin. Aspirin treatment lowered the risk of cardiovascular death, non-fatal myocardial infarction, and non-fatal stroke (relative risk 0.41 [95% CI 0.15-1.15], P =.0912). Total and cardiovascular mortality were also reduced by 46% and 59%, respectively. Major bleedings were slightly increased nonsignificnsignificantly by aspirin (relative risk 1.62, 95% CI 0.27-9.71). In Section IV, Dr. Giovanni Barosi reviews our current understanding of the pathophysiology of IMF and, in particular, the contributions of anomalous megakaryocyte proliferation, neoangiogenesis and abnormal CD34(+) stem cell trafficking to disease pathogenesis. The role of newer therapies, such as low-conditioning stem cell transplantation and thalidomide, is discussed in the context of a general treatment strategy for IMF. The results of a Phase II trial of low-dose thalidomide as a single agent in 63 patients with myelofibrosis with meloid metaplasia (MMM) using a dose-escalation design and an overall low dose of the drug (The European Collaboration on MMM) will be presented. Considering only patients who completed 4 weeks of treatment, 31% had a response: this was mostly due to a beneficial effect of thalidomide on patients with transfusion dependent anemia, 39% of whom abolished transfusions, patients with moderate to severe thrombocytopenia, 28% of whom increased their platelet count by more than 50 x 10(9)/L, and patients with the largest splenomegalies, 42% of whom reduced spleen size of more than 2 cm.
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PMID:Chronic myeloproliferative disorders. 1463 83

Platelets are formed and released into the bloodstream by precursor cells called megakaryocytes that reside within the bone marrow. The production of platelets by megakaryocytes requires an intricate series of remodeling events that result in the release of thousands of platelets from a single megakaryocyte. Abnormalities in this process can result in clinically significant disorders. Thrombocytopenia (platelet counts less than 150,000/microl) can lead to inadequate clot formation and increased risk of bleeding, while thrombocythemia (platelet counts greater than 600,000/microl) can heighten the risk for thrombotic events, including stroke, peripheral ischemia, and myocardial infarction. This Review will describe the process of platelet assembly in detail and discuss several disorders that affect platelet production.
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PMID:The biogenesis of platelets from megakaryocyte proplatelets. 1632 79

Platelets are essential for wound healing and inflammatory processes, but can also play a deleterious role by causing heart attack and stroke. Normal platelet activation is dependent on tetraspanins, a superfamily of glycoproteins that function as 'organisers' of cell membranes by recruiting other receptors and signalling proteins into tetraspanin-enriched microdomains. However, our understanding of how tetraspanin microdomains regulate platelets is hindered by the fact that only four of the 33 mammalian tetraspanins have been identified in platelets. This is because of a lack of antibodies to most tetraspanins and difficulties in measuring mRNA, due to low levels in this anucleate cell. To identify potentially platelet-expressed tetraspanins, mRNA was measured in their nucleated progenitor cell, the megakaryocyte, using serial analysis of gene expression and DNA microarrays. Amongst 19 tetraspanins identified in megakaryocytes, Tspan9, a previously uncharacterized tetraspanin, was relatively specific to these cells. Through generating the first Tspan9 antibodies, Tspan9 expression was found to be tightly regulated in platelets. The relative levels of CD9, CD151, Tspan9 and CD63 were 100, 14, 6 and 2 respectively. Since CD9 was expressed at 49000 cell surface copies per platelet, this suggested a copy number of 2800 Tspan9 molecules. Finally, Tspan9 was shown to be a component of tetraspanin microdomains that included the collagen receptor GPVI (glycoprotein VI) and integrin alpha6beta1, but not the von Willebrand receptor GPIbalpha or the integrins alphaIIbbeta3 or alpha2beta1. These findings suggest a role for Tspan9 in regulating platelet function in concert with other platelet tetraspanins and their associated proteins.
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PMID:Identification of Tspan9 as a novel platelet tetraspanin and the collagen receptor GPVI as a component of tetraspanin microdomains. 1879 91

Platelet activation at sites of vascular injury is crucial for hemostasis, but it may also cause myocardial infarction or stroke. Cytoskeletal reorganization is essential for platelet activation and secretion. The small GTPase Cdc42 has been implicated as an important mediator of filopodia formation and exocytosis in various cell types, but its exact function in platelets is not established. Here, we show that the megakaryocyte/platelet-specific loss of Cdc42 leads to mild thrombocytopenia and a small increase in platelet size in mice. Unexpectedly, Cdc42-deficient platelets were able to form normally shaped filopodia and spread fully on fibrinogen upon activation, whereas filopodia formation upon selective induction of GPIb signaling was reduced compared with wild-type platelets. Furthermore, Cdc42-deficient platelets showed enhanced secretion of alpha granules, a higher adenosine diphosphate (ADP)/adenosine triphosphate (ATP) content, increased aggregation at low agonist concentrations, and enhanced aggregate formation on collagen under flow. In vivo, lack of Cdc42 resulted in faster occlusion of ferric chloride-injured arterioles. The life span of Cdc42-deficient platelets was markedly reduced, suggesting increased clearing of the cells under physiologic conditions. These data point to novel multiple functions of Cdc42 in the regulation of platelet activation, granule organization, degranulation, and a specific role in GPIb signaling.
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PMID:Multiple alterations of platelet functions dominated by increased secretion in mice lacking Cdc42 in platelets. 2013 97

Most heart attacks and strokes are caused by blood clots (thrombi) that block the vasculature. Because disease-causing arterial thrombosis depends on blood platelets, platelet inhibitors such as aspirin and clopidogrel effectively decrease the risk of thrombosis; however, they also impair platelet-dependent hemostasis that staunches bleeding from wounds and can therefore produce excessive bleeding. Experimental studies show that a reduction in the number of platelets also inhibits thrombosis, but these treatments also interfere with platelet function. Because normal hemostasis requires that the platelet concentration remain within a physiological range in the circulation, we evaluated whether lowering the number of circulating platelets--but only to a value still within the normal range--by inhibiting platelet formation in the bone marrow inhibits acute thrombogenesis in baboons. We reduced the platelet count with an inhibitor against the megakaryocyte-promoting hormone thrombopoietin and then showed that experimental occlusive thrombogenesis on collagen-coated vascular grafts was reduced, without impairment of primary hemostasis. These results suggest that suppressing platelet production without interfering with the hemostatic function of platelets may offer a safe alternative to current therapies for prevention of stroke and heart attack triggered by blood clotting.
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PMID:Safety and antithrombotic efficacy of moderate platelet count reduction by thrombopoietin inhibition in primates. 2057 69


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