1992
Cardiopulmonary bypass induces leukocyte-platelet adhesion
Rinder C, Bonan J, Rinder H, Mathew J, Hines R, Smith B. Cardiopulmonary bypass induces leukocyte-platelet adhesion. Blood 1992, 79: 1201-1205. DOI: 10.1182/blood.v79.5.1201.bloodjournal7951201.Peer-Reviewed Original ResearchLeukocyte-platelet conjugatesCardiopulmonary bypassMonocyte-platelet conjugatesEnd of CPBStart of CPBActivation of monocytesAlpha-granule releaseGMP-140 expressionGranule membrane protein-140Time courseLeukocyte-platelet adhesionCD11b expressionMonocyte activationSurface CD11bWhole bloodGMP-140Surface expressionProtein 140Increased numberCD11bBypassMonocytesPlateletsPlatelet adhesionConjugatesCardiopulmonary Bypass Induces Leukocyte-Platelet Adhesion
Rinder C, Bonan J, Rinder H, Mathew J, Hines R, Smith B. Cardiopulmonary Bypass Induces Leukocyte-Platelet Adhesion. Blood 1992, 79: 1201-1205. PMID: 1371416, DOI: 10.1182/blood.v79.5.1201.1201.Peer-Reviewed Original ResearchConceptsLeukocyte-platelet conjugatesCardiopulmonary bypassMonocyte-platelet conjugatesEnd of CPBStart of CPBActivation of monocytesAlpha-granule releaseGMP-140 expressionGranule membrane protein-140Time courseLeukocyte-platelet adhesionCD11b expressionMonocyte activationSurface CD11bWhole bloodGMP-140Surface expressionProtein 140Increased numberCD11bBypassMonocytesPlateletsPlatelet adhesionConjugates
1991
Modulation of Platelet Surface Adhesion Receptors during Cardiopulmonary Bypass
Rinder C, Mathew J, Rinder H, Bonan J, Ault K, Smith B. Modulation of Platelet Surface Adhesion Receptors during Cardiopulmonary Bypass. Anesthesiology 1991, 75: 563-570. PMID: 1718190, DOI: 10.1097/00000542-199110000-00004.Peer-Reviewed Original ResearchConceptsIIb/IIIaCardiopulmonary bypassGlycoprotein IIb/IIIaPlatelet activationQualitative platelet defectsGlycoprotein IVGlycoprotein IbAlpha-granule releaseGranule membrane protein-140Surface glycoprotein IbHLA APlatelet functionBaseline valuesVon Willebrand factor receptorBypassThrombospondin receptorGlycoprotein Ib expressionFlow cytometryIb expressionPlatelet defectsSelective decreasePlatelet receptorsFactor receptorReceptorsProtein 140Platelet Activation and Aggregation during Cardiopulmonary Bypass
Rinder C, Bohnert J, Rinder H, Mitchell J, Ault K, Hillman R. Platelet Activation and Aggregation during Cardiopulmonary Bypass. Anesthesiology 1991, 75: 388-393. PMID: 1716077, DOI: 10.1097/00000542-199109000-00002.Peer-Reviewed Original ResearchConceptsCardiopulmonary bypassPlatelet activationPlatelet aggregationExtracorporeal circulationEarly postoperative periodAlpha-granule releaseGMP-140 expressionPlatelet factor 4Granule membrane protein-140Alpha-granule membrane proteinPlatelet surface membranePostoperative periodPlatelet dysfunctionPlasma concentrationsIndividual patientsBypassFlow cytometryPlatelet defectsGranule productsMonoclonal antibodiesProtein 140Factor 4PlateletsPatientsAggregation defectProgressive platelet activation with storage: evidence for shortened survival of activated platelets after transfusion
Rinder H, Murphy M, Mitchell J, Stocks J, Ault K, Hillman R. Progressive platelet activation with storage: evidence for shortened survival of activated platelets after transfusion. Transfusion 1991, 31: 409-414. PMID: 1710840, DOI: 10.1046/j.1537-2995.1991.31591263195.x.Peer-Reviewed Original ResearchConceptsPercentage of plateletsPlatelet activationNormal subjectsProgressive platelet activationThrombocytopenic cancer patientsPlatelet concentrate transfusionAlpha-granule membrane protein-140Significant platelet activationConcentrate transfusionPlatelet incrementCancer patientsPlatelet recoveryThrombocytopenic patientsAutologous plateletsPosttransfusion recoveryFlow cytometryStandard blood bank conditionsGMP-140Protein 140PlateletsTransfusionPlatelet surfacePatientsSuch activationDay of collection