| scholarly article | Q13442814 |
| P50 | author | Gordon K Smyth | Q37391308 |
| Simon Foote | Q37834965 | ||
| P2093 | author name string | Carolyn de Graaf | |
| Jason E Corbin | |||
| Warren S Alexander | |||
| Karen E Drysdale | |||
| Brendan J McMorran | |||
| Vikki M Marshall | |||
| Meriam Shabbar | |||
| P433 | issue | 5915 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | malaria | Q12156 |
| P304 | page(s) | 797-800 | |
| P577 | publication date | 2009-02-01 | |
| P1433 | published in | Science | Q192864 |
| P1476 | title | Platelets kill intraerythrocytic malarial parasites and mediate survival to infection | |
| P478 | volume | 323 |
| Q34584234 | A method for positive and negative selection of Plasmodium falciparum platelet-mediated clumping parasites and investigation of the role of CD36. |
| Q37416904 | A novel ENU-induced ankyrin-1 mutation impairs parasite invasion and increases erythrocyte clearance during malaria infection in mice. |
| Q34314073 | A novel ENU-mutation in ankyrin-1 disrupts malaria parasite maturation in red blood cells of mice |
| Q33427139 | A novel role for von Willebrand factor in the pathogenesis of experimental cerebral malaria |
| Q34545464 | A programmed cell death pathway in the malaria parasite Plasmodium falciparum has general features of mammalian apoptosis but is mediated by clan CA cysteine proteases. |
| Q36687059 | Activated Neutrophils Are Associated with Pediatric Cerebral Malaria Vasculopathy in Malawian Children |
| Q33884983 | Adhesion of Plasmodium falciparum-infected erythrocytes to human cells: molecular mechanisms and therapeutic implications. |
| Q44229986 | An ATP2B4 polymorphism protects against malaria in pregnancy |
| Q38650691 | Ankyrin-1 Gene Exhibits Allelic Heterogeneity in Conferring Protection Against Malaria. |
| Q33936657 | Anti-inflammatory cytokines predominate in acute human Plasmodium knowlesi infections |
| Q94453583 | Antimalarial drugs impact chemical messenger secretion by blood platelets |
| Q91736653 | Assessment of platelet indices and platelet activation markers in children with Plasmodium falciparum malaria |
| Q33894907 | Association of severe malaria outcomes with platelet-mediated clumping and adhesion to a novel host receptor |
| Q47096645 | Blood platelets and sepsis pathophysiology: A new therapeutic prospect in critical ill patients? |
| Q35086935 | Breed differences in humoral and cellular responses of lambs to experimental infection with the gastrointestinal nematode Teladorsagia circumcincta |
| Q34076283 | Causes of variation in malaria infection dynamics: insights from theory and data |
| Q38314202 | Chronic hepatitis B: role of anti-platelet therapy in inflammation control |
| Q49953603 | Circulating Platelets as Mediators of Immunity, Inflammation, and Thrombosis |
| Q33403517 | Crosstalk between Platelets and the Immune System: Old Systems with New Discoveries |
| Q34682109 | Cytokine network in adults with falciparum Malaria and HIV-1: increased IL-8 and IP-10 levels are associated with disease severity |
| Q28477892 | Declining responsiveness of Plasmodium falciparum infections to artemisinin-based combination treatments on the Kenyan coast |
| Q36631393 | Depletion of Phagocytic Cells during Nonlethal Plasmodium yoelii Infection Causes Severe Malaria Characterized by Acute Renal Failure in Mice |
| Q35993754 | Differences in Whole Blood Gene Expression Associated with Infection Time-Course and Extent of Fetal Mortality in a Reproductive Model of Type 2 Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) Infection |
| Q28730674 | Effect of iron therapy on platelet counts in patients with inflammatory bowel disease-associated anemia |
| Q40162581 | Elimination of Babesia microti Is Dependent on Intraerythrocytic Killing and CD4+ T Cells |
| Q38310270 | Emerging evidence for platelets as immune and inflammatory effector cells |
| Q27016553 | Emerging roles for platelets as immune and inflammatory cells |
| Q36851146 | Evidence of Endothelial Activation in Asymptomatic Plasmodium falciparum Parasitemia and Effect of Blood Group on Levels of von Willebrand Factor in Malaria |
| Q26772866 | Expanding the antimalarial toolkit: Targeting host-parasite interactions |
| Q56376508 | Genetic analysis of cerebral malaria in the mouse model infected with Plasmodium berghei |
| Q28943391 | Genome-wide association study indicates two novel resistance loci for severe malaria |
| Q39144327 | Immune-Mediated Therapies for Liver Cancer. |
| Q38103059 | Immunobiology of Plasmodium in liver and brain |
| Q48027866 | Immunology. Platelets kill the parasite within |
| Q41431397 | In vitro antiplasmodial activity and prophylactic potentials of extract and fractions of Trema orientalis (Linn.) stem bark |
| Q37820689 | Inhibitor and activator: dual functions for SHIP in immunity and cancer |
| Q52308706 | Integrative metabolomics and transcriptomics signatures of clinical tolerance to Plasmodium vivax reveal activation of innate cell immunity and T cell signaling. |
| Q33405551 | Inter-relationships of cardinal features and outcomes of symptomatic pediatric Plasmodium falciparum MALARIA in 1,933 children in Kampala, Uganda |
| Q64098482 | KCC1 Activation protects Mice from the Development of Experimental Cerebral Malaria |
| Q35001472 | Lipopolysaccharide signaling without a nucleus: kinase cascades stimulate platelet shedding of proinflammatory IL-1β-rich microparticles |
| Q92826319 | Modelling pathogen load dynamics to elucidate mechanistic determinants of host-Plasmodium falciparum interactions |
| Q37888528 | Mouse models of diseases of megakaryocyte and platelet homeostasis. |
| Q41680247 | Myocardial Dysfunction: A Primary Cause of Death Due To Severe Malaria in A Plasmodium falciparum-Infected Humanized Mouse Model |
| Q40768743 | New insights into the protective power of platelets in malaria infection |
| Q42382293 | Nucleation of platelets with blood-borne pathogens on Kupffer cells precedes other innate immunity and contributes to bacterial clearance |
| Q35967309 | Our expanding view of platelet functions and its clinical implications |
| Q38306634 | P2 receptors and platelet function |
| Q35213593 | Platelet activation attracts a subpopulation of effector monocytes to sites of Leishmania major infection |
| Q34298556 | Platelet activation by Streptococcus pyogenes leads to entrapment in platelet aggregates, from which bacteria subsequently escape. |
| Q40897514 | Platelet activation suppresses HIV-1 infection of T cells |
| Q37487079 | Platelet alpha-granules: basic biology and clinical correlates |
| Q28281539 | Platelet factor 4 activity against P. falciparum and its translation to nonpeptidic mimics as antimalarials |
| Q34316582 | Platelet factor 4 and Duffy antigen required for platelet killing of Plasmodium falciparum |
| Q33573493 | Platelet factor 4 regulation of monocyte KLF4 in experimental cerebral malaria |
| Q57676574 | Platelet immunobiology: platelets as prey and predator |
| Q40020303 | Platelet induction of the acute-phase response is protective in murine experimental cerebral malaria |
| Q33422357 | Platelet interactions with viruses and parasites |
| Q24612640 | Platelet power: sticky problems for sticky parasites? |
| Q33416808 | Platelet profile is associated with clinical complications in patients with vivax and falciparum malaria in Colombia |
| Q33870639 | Platelet transfusions: trigger, dose, benefits, and risks |
| Q92351178 | Platelet α-granules contribute to organ-specific pathologies in a mouse model of severe malaria |
| Q93342943 | Platelet-Neutrophil Interactions Are Lower in Cord Blood of Premature Newborns |
| Q33438503 | Platelets activate a pathogenic response to blood-stage Plasmodium infection but not a protective immune response |
| Q33440142 | Platelets and infections in the resource-limited countries with a focus on malaria and viral haemorrhagic fevers |
| Q37638322 | Platelets and pathogens |
| Q37857647 | Platelets and the immune continuum |
| Q38543319 | Platelets and their microparticles as key players in pathophysiological responses |
| Q33432917 | Platelets are versatile cells: New discoveries in hemostasis, thrombosis, immune responses, tumor metastasis and beyond |
| Q39442668 | Platelets as autonomous drones for hemostatic and immune surveillance |
| Q38160535 | Platelets as immune cells in infectious diseases. |
| Q34590168 | Platelets as immune mediators: Their role in host defense responses and sepsis |
| Q57676581 | Platelets as immune-sensing cells |
| Q39580141 | Platelets as pathogenetic effectors and killer cells in cerebral malaria. |
| Q36167520 | Platelets harness the immune response to drive liver cancer |
| Q26739670 | Platelets in Pulmonary Immune Responses and Inflammatory Lung Diseases |
| Q39027765 | Platelets in infectious disease. |
| Q36237204 | Platelets in the pathogenesis of acute respiratory distress syndrome |
| Q56358763 | Platelets kill circulating parasites of all major Plasmodium species in human malaria |
| Q37395743 | Platelets: essential components of the immune system |
| Q35101184 | Platelets: versatile effector cells in hemostasis, inflammation, and the immune continuum |
| Q37189977 | Predicting optimal transmission investment in malaria parasites |
| Q93062713 | Regulation of Innate Immune Responses by Platelets |
| Q98290004 | Role of platelet biomarkers in inflammatory response |
| Q49243362 | Severe thrombocytopaenia in patients with vivax malaria compared to falciparum malaria: a systematic review and meta-analysis. |
| Q38013546 | Signal transduction in Plasmodium-Red Blood Cells interactions and in cytoadherence. |
| Q90511412 | Start a fire, kill the bug: The role of platelets in inflammation and infection |
| Q34161839 | Surface antigens of Plasmodium falciparum-infected erythrocytes as immune targets and malaria vaccine candidates |
| Q35100308 | Synchrony in malaria infections: how intensifying within-host competition can be adaptive |
| Q27310640 | Testing in mice the hypothesis that melanin is protective in malaria infections |
| Q41061403 | The Effects of Serotonin in Immune Cells |
| Q90401541 | The Era of Thromboinflammation: Platelets Are Dynamic Sensors and Effector Cells During Infectious Diseases |
| Q64105078 | The Ins and Outs of Cerebral Malaria Pathogenesis: Immunopathology, Extracellular Vesicles, Immunometabolism, and Trained Immunity |
| Q59335689 | The Platelet Response to Tissue Injury |
| Q90375424 | The effect of Toxoplasma gondii on plasma serotonin concentration in sheep |
| Q38666558 | The immunological balance between host and parasite in malaria |
| Q26799240 | The influence of host genetics on erythrocytes and malaria infection: is there therapeutic potential? |
| Q40060019 | The oxylipin and endocannabidome responses in acute phase Plasmodium falciparum malaria in children |
| Q34687796 | The plant-based immunomodulator curcumin as a potential candidate for the development of an adjunctive therapy for cerebral malaria |
| Q38213187 | The role of P2Y₁₂ receptor and activated platelets during inflammation |
| Q33387926 | The role of platelets in the pathogenesis of cerebral malaria |
| Q37994230 | The role of the NTPDase enzyme family in parasites: what do we know, and where to from here? |
| Q33422123 | Thrombocytopenia May Mediate Disease Severity in Plasmodium falciparum Malaria Through Reduced Transforming Growth Factor Beta-1 Regulation of Proinflammatory and Anti-inflammatory Cytokines |
| Q50115928 | Translational Implications of Platelets as Vascular First Responders |
| Q28541891 | Treatment of erythrocytes with the 2-cys peroxiredoxin inhibitor, Conoidin A, prevents the growth of Plasmodium falciparum and enhances parasite sensitivity to chloroquine |
| Q37742181 | Var gene expression and human Plasmodium pathogenesis |
| Q90392500 | α-Toxin Induces Platelet Aggregation and Liver Injury during Staphylococcus aureus Sepsis |
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