| review article | Q7318358 |
| scholarly article | Q13442814 |
| P2093 | author name string | Ximing Li | |
| Hongliang Cong | |||
| P2860 | cites work | Annexin V for flow cytometric detection of phosphatidylserine expression on B cells undergoing apoptosis | Q28246968 |
| New perspectives in cell adhesion: RGD and integrins | Q28280381 | ||
| Leukocyte rolling and extravasation are severely compromised in P selectin-deficient mice | Q28507847 | ||
| Exposure of phosphatidylserine on the surface of apoptotic lymphocytes triggers specific recognition and removal by macrophages | Q29616355 | ||
| Time scales of membrane fusion revealed by direct imaging of vesicle fusion with high temporal resolution | Q30478132 | ||
| Phosphatidylserine as a determinant of reticuloendothelial recognition of liposome models of the erythrocyte surface | Q33662314 | ||
| Mechanisms of cellular activation by platelet microparticles. | Q33800435 | ||
| Microparticles in cardiovascular diseases. | Q34221054 | ||
| If phosphatidylserine is the death knell, a new phosphatidylserine-specific receptor is the bellringer | Q34356003 | ||
| Platelet surface glycoproteins. Studies on resting and activated platelets and platelet membrane microparticles in normal subjects, and observations in patients during adult respiratory distress syndrome and cardiac surgery | Q34531963 | ||
| Recognition of oxidatively damaged and apoptotic cells by an oxidized low density lipoprotein receptor on mouse peritoneal macrophages: role of membrane phosphatidylserine | Q34614956 | ||
| Increased adherence of sickled and phosphatidylserine-enriched human erythrocytes to cultured human peripheral blood monocytes | Q34630671 | ||
| PADGEM protein: a receptor that mediates the interaction of activated platelets with neutrophils and monocytes | Q35160019 | ||
| Recognition of oxidatively damaged erythrocytes by a macrophage receptor with specificity for oxidized low density lipoprotein | Q35165687 | ||
| Phosphoinositide 3-kinase signalling pathways in tumor progression, invasion and angiogenesis. | Q35773385 | ||
| Shed membrane microparticles from circulating and vascular cells in regulating vascular function | Q36038046 | ||
| Early redistribution of plasma membrane phosphatidylserine is a general feature of apoptosis regardless of the initiating stimulus: inhibition by overexpression of Bcl-2 and Abl | Q36365371 | ||
| Circulating microparticles: a potential prognostic marker for atherosclerotic vascular disease | Q36519690 | ||
| Transcellular activation of platelets and endothelial cells by bioactive lipids in platelet microparticles | Q37366431 | ||
| Modulation of monocyte-endothelial cell interactions by platelet microparticles | Q37387105 | ||
| Molecular mechanisms of platelet activation | Q38264192 | ||
| P-selectin mediates Ca(2+)-dependent adhesion of activated platelets to many different types of leukocytes: detection by flow cytometry | Q38327910 | ||
| The platelet membrane glycoprotein IIb-IIIa complex. | Q39195582 | ||
| Multiple systems for recognition of apoptotic lymphocytes by macrophages. | Q40243538 | ||
| Binding and Phagocytosis of Apoptotic Vascular Smooth Muscle Cells Is Mediated in Part by Exposure of Phosphatidylserine | Q41267214 | ||
| Analogous recognition of phospholipids by insect phagocytes and mammalian macrophages | Q42075319 | ||
| Circulating microparticles from patients with myocardial infarction cause endothelial dysfunction. | Q43808880 | ||
| Platelets stimulate proliferation of bone cells: involvement of platelet-derived growth factor, microparticles and membranes | Q44230248 | ||
| Platelet microparticles induce angiogenesis in vitro | Q44724662 | ||
| Platelet microvesicles adhere to subendothelium and promote adhesion of platelets | Q44897189 | ||
| Decreased membrane phospholipid packing and decreased cell size precede DNA cleavage in mature mouse B cell apoptosis | Q47375225 | ||
| Phosphoinositide 3 kinase is critical for survival, mitogenesis and migration but not for differentiation of endothelial cells | Q47596579 | ||
| Phosphatidylserine vesicles inhibit phagocytosis of erythrocytes with a symmetric transbilayer distribution of phospholipids | Q49309440 | ||
| β2-Integrins and Acquired Glycoprotein IIb/IIIa (GPIIb/IIIa) Receptors Cooperate in NF-κB Activation of Human Neutrophils | Q56982032 | ||
| Expression of coagulant activity in human platelets: Release of membranous vesicles providing platelet factor 1 and platelet factor 3 | Q57977248 | ||
| Platelet-derived microparticles bind to hematopoietic stem/progenitor cells and enhance their engraftment | Q61942738 | ||
| P-Selectin- and CD63-Exposing Platelet Microparticles Reflect Platelet Activation in Peripheral Arterial Disease and Myocardial Infarction | Q62977663 | ||
| Elevated levels of platelet microparticles are associated with disease activity in rheumatoid arthritis | Q62977690 | ||
| Design of liposomes to improve delivery of macrophage-augmenting agents to alveolar macrophages | Q67242279 | ||
| Differences between platelet and microparticle glycoprotein IIb/IIIa | Q67593584 | ||
| Vesiculation of platelets during in vitro aging | Q67681063 | ||
| Different populations of macrophages use either the vitronectin receptor or the phosphatidylserine receptor to recognize and remove apoptotic cells | Q67803170 | ||
| Platelet-derived microparticles express high affinity receptors for factor VIII | Q68254374 | ||
| Collagen-induced exposure of anionic phospholipid in platelets and platelet-derived microparticles | Q68268808 | ||
| Direct detection of activated platelets and platelet-derived microparticles in humans | Q68692200 | ||
| A monoclonal antibody (LYP18) directed against the blood platelet glycoprotein IIb/IIIa complex inhibits human melanoma growth in vivo | Q69663669 | ||
| Internalization of phosphatidylserine by adherent and non-adherent rat mononuclear cells | Q69745300 | ||
| Effects of liposome structure and lipid composition on the activation of the tumoricidal properties of macrophages by liposomes containing muramyl dipeptide | Q70265261 | ||
| Induction of the fibrinogen receptor on human platelets by intracellular mediators | Q70322300 | ||
| Uptake of liposomes and liposome-encapsulated muramyl dipeptide by human peripheral blood monocytes | Q70566136 | ||
| Phagocytosis of sickle erythrocytes: immunologic and oxidative determinants of hemolytic anemia | Q70582202 | ||
| Platelet-derived microparticles associate with fibrin during thrombosis | Q71099905 | ||
| Platelet microparticles bind, activate and aggregate neutrophils in vitro | Q71168749 | ||
| Insertion of fluorescent phosphatidylserine into the plasma membrane of red blood cells. Recognition by autologous macrophages | Q71829753 | ||
| Agglutination of isolated platelet membranes | Q71883067 | ||
| Recognition of phosphatidylserine on the surface of apoptotic spermatogenic cells and subsequent phagocytosis by Sertoli cells of the rat | Q71985230 | ||
| Immunolocalization of beta 1 integrins in platelets and platelet-derived microvesicles | Q72091468 | ||
| The Nature and Significance of Platelet Products in Human Plasma | Q72220665 | ||
| Human neutrophils lose their surface Fc gamma RIII and acquire Annexin V binding sites during apoptosis in vitro | Q72386143 | ||
| Exposure of phosphatidylserine in the outer leaflet of human red blood cells. Relationship to cell density, cell age, and clearance by mononuclear cells | Q72755350 | ||
| Platelet-derived microparticle formation involves glycoprotein IIb-IIIa. Inhibition by RGDS and a Glanzmann's thrombasthenia defect | Q72816630 | ||
| Altered lipid packing identifies apoptotic thymocytes | Q72921496 | ||
| Leukocyte-leukocyte interactions mediated by platelet microparticles under flow | Q73426888 | ||
| Platelet microparticles promote platelet interaction with subendothelial matrix in a glycoprotein IIb/IIIa-dependent mechanism | Q77756614 | ||
| P433 | issue | 2 | |
| P304 | page(s) | 134-139 | |
| P577 | publication date | 2009-01-01 | |
| P1433 | published in | Texas Heart Institute Journal | Q26841976 |
| P1476 | title | Platelet-derived microparticles and the potential of glycoprotein IIb/IIIa antagonists in treating acute coronary syndrome | |
| P478 | volume | 36 |
| Q33738948 | Extracellular vesicles as trans-genomic agents: Emerging roles in disease and evolution. |
| Q43245970 | Fibrinogen facilitates atherosclerotic formation in Sprague-Dawley rats: A rodent model of atherosclerosis |
| Q37986175 | Inflammation in atherosclerosis: a cause or a result of vascular disorders? |
| Q34038374 | Leukocyte- and platelet-derived microvesicle interactions following in vitro and in vivo activation of toll-like receptor 4 by lipopolysaccharide |
| Q64085964 | Megakaryocytic dysfunction in immune thrombocytopenia is linked to autophagy |
| Q34026858 | Membrane vesicles, current state-of-the-art: emerging role of extracellular vesicles |
| Q38823688 | Microparticle of drug and nanoparticle: a biosynthetic route. |
| Q49741768 | Microvesicles in Atherosclerosis and Angiogenesis: From Bench to Bedside and Reverse |
| Q38691783 | Platelets and cancer angiogenesis nexus. |
| Q36931429 | Polymeric curcumin nanoparticle pharmacokinetics and metabolism in bile duct cannulated rats |
| Q47112260 | The Emerging Roles of Microparticles in Diabetic Nephropathy |
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