2007
Leukocyte Effects of C5a-Receptor Blockade During Simulated Extracorporeal Circulation
Rinder CS, Smith MJ, Rinder HM, Cortright DN, Brodbeck RM, Krause JE, Smith BR. Leukocyte Effects of C5a-Receptor Blockade During Simulated Extracorporeal Circulation. The Annals Of Thoracic Surgery 2007, 83: 146-152. PMID: 17184649, DOI: 10.1016/j.athoracsur.2006.08.019.Peer-Reviewed Original ResearchConceptsC5a receptor blockadeC5a receptor antagonistReceptor antagonistExtracorporeal circulationReceptor blockadeCD11b upregulationElastase releasePlatelet P-selectin expressionComplement C5a anaphylatoxinNeutrophil CD11b upregulationSimulated Extracorporeal CirculationFresh heparinized whole bloodNeutrophil elastase releasePlasma interleukin-8P-selectin expressionInterleukin-8 releaseConjugate formationHeparinized whole bloodCardiopulmonary bypassInflammatory responseLeukocyte adhesive receptorsExtracorporeal circuitInterleukin-8Neutrophil chemotaxisDownregulatory effect
2004
Effects of ε-Aminocaproic Acid and Aprotinin on Leukocyte–Platelet Adhesion in Patients Undergoing Cardiac Surgery
Greilich PE, Brouse CF, Rinder CS, Smith BR, Sandoval BA, Rinder HM, Eberhart RC, Jessen ME. Effects of ε-Aminocaproic Acid and Aprotinin on Leukocyte–Platelet Adhesion in Patients Undergoing Cardiac Surgery. Anesthesiology 2004, 100: 225-233. PMID: 14739793, DOI: 10.1097/00000542-200402000-00008.Peer-Reviewed Original ResearchConceptsEpsilon-aminocaproic acidCardiopulmonary bypassLeukocyte-platelet adhesionPlatelet activationPlatelet CD62PCardiac surgeryPlasmin activityAdministration of aprotininDouble-blind fashionMonocyte-platelet conjugatesActivation of leukocytesD-dimer formationConjugate formationAbility of aprotininMonocyte CD11bSaline groupCD11b expressionLeukocyte activationΕ-aminocaproic acidPatientsUseful markerClinical settingAprotininLeukocytesSurgery
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
1997
Interactions of platelets and endothelial cells with erythrocytes and leukocytes in thrombotic thrombocytopenic purpura.
Smith BR, Rinder HM. Interactions of platelets and endothelial cells with erythrocytes and leukocytes in thrombotic thrombocytopenic purpura. Seminars In Hematology 1997, 34: 90-7. PMID: 9109210.Peer-Reviewed Original ResearchConceptsPhysiological pathwaysFunctional interactionTTP/HUSThrombotic thrombocytopenic purpuraCoagulation system activationVascular biologyMicroangiopathic hemolysisThrombocytopenic purpuraClinical hallmarkInteraction of plateletsSystem activationEndothelial cellsPlatelet aggregationSuch interactionsBiologyInteractionPathwayHallmarkPurpura
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
In vitro characteristics of white cell‐reduced single‐unit platelet concentrates stored in syringes
Pisciotto PT, Snyder EL, Snyder JA, Frattaroli S, Hopfer SM, Rinder HM, Smith BR. In vitro characteristics of white cell‐reduced single‐unit platelet concentrates stored in syringes. Transfusion 1994, 34: 407-411. PMID: 8191565, DOI: 10.1046/j.1537-2995.1994.34594249052.x.Peer-Reviewed Original ResearchConceptsWBC filtrationP-selectin positivityPremature infantsDrug Administration requirementsPlatelet functionPlatelet activationPlatelet lossStudy designWhite cellsAdverse effectsPlatelet concentratesLactate productionTransfusionDegrees CVitro characteristicsAdministration requirementsSingle unitPlatelet propertiesLog10 reductionHoursSyringesConsumption of glucoseInfantsWBCPlatelet-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
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 Research