2006
Transcerebral Platelet Activation After Aortic Cross-Clamp Release is Linked to Neurocognitive Decline
Mathew JP, Rinder HM, Smith BR, Newman MF, Rinder CS. Transcerebral Platelet Activation After Aortic Cross-Clamp Release is Linked to Neurocognitive Decline. The Annals Of Thoracic Surgery 2006, 81: 1644-1649. PMID: 16631650, DOI: 10.1016/j.athoracsur.2005.12.070.Peer-Reviewed Original ResearchConceptsCross-clamp removalAortic cross-clamp removalCardiopulmonary bypassPlatelet activationNeurocognitive injuryCognitive deficitsNeurocognitive declineElective coronary artery bypass graft surgeryCoronary artery bypass graft surgeryAortic cross-clamp releaseArtery bypass graft surgeryBypass graft surgeryCross-clamp releaseSubset of patientsVenous blood samplesJugular venous blood samplesJugular venous bloodCPB patientsGraft surgeryCardiac surgeryPatient subsetsInjury scoreAortic archVenous bloodCognitive injury
2003
Increased leukocyte-platelet adhesion in patients with graft occlusion after peripheral vascular surgery
Esposito CJ, Popescu WM, Rinder HM, Schwartz JJ, Smith BR, Rinder CS. Increased leukocyte-platelet adhesion in patients with graft occlusion after peripheral vascular surgery. Thrombosis And Haemostasis 2003, 90: 1128-1134. PMID: 14652647, DOI: 10.1160/th03-04-0226.Peer-Reviewed Original ResearchConceptsPeripheral vascular diseasePeripheral vascular surgeryGraft occlusionLeukocyte-platelet adhesionOcclusion groupPlatelet turnoverVascular surgeryPMN activationPeripheral vascular surgery patientsLower extremity peripheral vascular diseaseEtiology of thrombosisVascular surgery patientsLate graft occlusionEarly postoperative periodSurface CD11b expressionProgression of atherosclerosisGraft lossPVD patientsGraft patientsPostoperative dayPostoperative periodSurgery patientsAcute thrombosisGraft patencyVascular disease
2002
Platelet PlA2 Polymorphism and Platelet Activation Are Associated with Increased Troponin I Release after Cardiopulmonary Bypass
Rinder CS, Mathew JP, Rinder HM, Howe J, Fontes M, Crouch J, Pfau S, Patel P, Smith BR. Platelet PlA2 Polymorphism and Platelet Activation Are Associated with Increased Troponin I Release after Cardiopulmonary Bypass. Anesthesiology 2002, 97: 1118-1122. PMID: 12411794, DOI: 10.1097/00000542-200211000-00013.Peer-Reviewed Original ResearchConceptsTroponin I concentrationsPlatelet glycoprotein IIIaCardiopulmonary bypassPlA2 polymorphismPlA2 alleleI concentrationsMyocardial injuryGlycoprotein IIIaPlatelet activationElective coronary artery bypassHigher troponin I concentrationsPostoperative troponin I concentrationsTroponin IPerioperative myocardial injuryCoronary artery bypassProthrombotic risk factorsCardiopulmonary bypass surgerySevere myocardial injuryArtery bypassBypass surgeryPlatelet polymorphismsRisk factorsCardiovascular settingsPlA2 genotypeBypass
1999
Selective blockade of membrane attack complex formation during simulated extracorporeal circulation inhibits platelet but not leukocyte activation
Rinder CS, Rinder HM, Smith MJ, Tracey JB, Fitch J, Li L, Rollins SA, Smith BR. Selective blockade of membrane attack complex formation during simulated extracorporeal circulation inhibits platelet but not leukocyte activation. Journal Of Thoracic And Cardiovascular Surgery 1999, 118: 460-466. PMID: 10469960, DOI: 10.1016/s0022-5223(99)70183-2.Peer-Reviewed Original ResearchMeSH KeywordsAntibodies, MonoclonalBlood PlateletsComplement ActivationComplement C3aComplement C8Complement Membrane Attack ComplexEnzyme-Linked Immunosorbent AssayExtracorporeal CirculationFlow CytometryHumansLeukocyte CountLeukocyte ElastaseMacrophage-1 AntigenNeutrophil ActivationNeutrophilsP-SelectinPlatelet ActivationPlatelet CountReference ValuesConceptsNeutrophil activationExtracorporeal circuitExtracorporeal circulationLeukocyte activationMembrane attack complexPlatelet activationC5b-9C5b-9 generationAttack complexC5b-9 formationMembrane attack complex formationPlatelet CD62PControl circulationCardiopulmonary bypassLate complement componentsPlatelet countMonocyte countInhibits plateletSelective blockadeLoss of monocytesExtracorporeal modelSC5b-9Complement activationComplement componentsCellular activation
1998
Differences in Platelet α-granule Release between Normals and Immune Thrombocytopenic Patients and between Young and Old Platelets
Rinder HM, Tracey JB, Recht M, DeCastro L, Rinder CS, McHugh C, Smith BR. Differences in Platelet α-granule Release between Normals and Immune Thrombocytopenic Patients and between Young and Old Platelets. Thrombosis And Haemostasis 1998, 80: 457-462. PMID: 9759627, DOI: 10.1055/s-0037-1615229.Peer-Reviewed Original ResearchConceptsImmune thrombocytopenic purpuraThrombin receptor agonist peptideAlpha-granule releaseITP patientsOld plateletsThrombocytopenic patientsImmune thrombocytopenic patientsPlatelet α-granule releaseΑ-granule releaseNormal human controlsMaintenance of hemostasisControl RPSerious bleedingThrombocytopenic purpuraMegakaryocytic hypoplasiaPatient groupReticulated plateletsNormal controlsPatientsPlatelet responseAgonist peptideYoung plateletsPlateletsHemostatic activityCD62P
1995
Blockade of C5a and C5b-9 generation inhibits leukocyte and platelet activation during extracorporeal circulation.
Rinder CS, Rinder HM, Smith BR, Fitch JC, Smith MJ, Tracey JB, Matis LA, Squinto SP, Rollins SA. Blockade of C5a and C5b-9 generation inhibits leukocyte and platelet activation during extracorporeal circulation. Journal Of Clinical Investigation 1995, 96: 1564-1572. PMID: 7657827, PMCID: PMC185782, DOI: 10.1172/jci118195.Peer-Reviewed Original ResearchConceptsCardiopulmonary bypassExtracorporeal circulationSerum complement hemolytic activityComplement activationComplement componentsP-selectin-positive plateletsC5 complement componentNeutrophil CD11b upregulationSystemic inflammatory responseBlockade of C5aComplement hemolytic activityC5b-9 generationNeutrophil activationCD11b upregulationControl MAbInflammatory responseTherapeutic interventionsPlatelet activationCellular activationC5b-9BypassC5aC3a generationConjugate formationPlatelets
1994
Platelet alpha-granule release in cocaine users.
Rinder HM, Ault KA, Jatlow PI, Kosten TR, Smith BR. Platelet alpha-granule release in cocaine users. Circulation 1994, 90: 1162-1167. PMID: 7522132, DOI: 10.1161/01.cir.90.3.1162.Peer-Reviewed Original ResearchConceptsAlpha-granule releasePlatelet alpha-granule releaseCocaine useCocaine usersBaseline levelsHigher mean baseline levelsLong-term cocaine usePeak plasma cocaine levelsPlatelet P-selectin expressionMean baseline levelPlasma cocaine levelsP-selectin expressionPlatelet-rich thrombiPlacebo infusionFlow cytometric methodArterial occlusionBlinded infusionHigh basal levelsAcute increaseAtherosclerotic lesionsPlatelet activationCocaine levelsMean percentPlatelet agonistsBasal levelsPlatelet-leukocyte activation and modulation of adhesion receptors in pediatric patients with congenital heart disease undergoing cardiopulmonary bypass
Rinder C, Gaal D, Student L, Smith B. Platelet-leukocyte activation and modulation of adhesion receptors in pediatric patients with congenital heart disease undergoing cardiopulmonary bypass. Journal Of Thoracic And Cardiovascular Surgery 1994, 107: 280-288. PMID: 8283897, DOI: 10.1016/s0022-5223(94)70482-1.Peer-Reviewed Original ResearchConceptsCongenital heart diseasePlatelet-leukocyte conjugatesNoncyanotic congenital heart diseaseCardiopulmonary bypassHeart diseasePediatric patientsNoncyanotic patientsLeukocyte activationPlatelet glycoprotein IbNeutrophil-platelet conjugatesPlatelet–leukocyte activationTermination of bypassCyanotic heart diseaseEnd of bypassMonocyte-platelet conjugatesGlycoprotein IbNoncyanotic heart diseaseActivation of plateletsInflammatory complicationsPulmonary dysfunctionCyanotic patientsPlatelet adhesion receptorsCD11b expressionClinical riskBaseline values
1993
Activation in stored platelet concentrates: correlation between membrane expression of P‐selectin, glycoprotein IIb/IIIa, and beta‐ thromboglobulin release
Rinder HM, Snyder EL, Bonan JL, Napychank PA, Malkus H, Smith BR. Activation in stored platelet concentrates: correlation between membrane expression of P‐selectin, glycoprotein IIb/IIIa, and beta‐ thromboglobulin release. Transfusion 1993, 33: 25-29. PMID: 7678708, DOI: 10.1046/j.1537-2995.1993.33193142305.x.Peer-Reviewed Original Research
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. 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
Dynamics of leukocyte-platelet adhesion in whole blood.
Rinder H, Bonan J, Rinder C, Ault K, Smith B. Dynamics of leukocyte-platelet adhesion in whole blood. Blood 1991, 78: 1730-7. PMID: 1717069, DOI: 10.1182/blood.v78.7.1730.bloodjournal7871730.Peer-Reviewed Original ResearchActivated and unactivated platelet adhesion to monocytes and neutrophils.
Rinder H, Bonan J, Rinder C, Ault K, Smith B. Activated and unactivated platelet adhesion to monocytes and neutrophils. Blood 1991, 78: 1760-9. PMID: 1717070, DOI: 10.1182/blood.v78.7.1760.bloodjournal7871760.Peer-Reviewed Original ResearchModulation 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 140