2024
How I treat challenging transfusion cases in sickle cell disease
Chou S, Hendrickson J. How I treat challenging transfusion cases in sickle cell disease. Blood 2024 PMID: 38728382, DOI: 10.1182/blood.2023023648.Peer-Reviewed Original ResearchDelayed hemolytic transfusion reactionSickle cell diseaseRed blood cellsTransfusion of red blood cellsRed blood cell alloantibodiesRed blood cell transfusionCell diseaseHemolytic transfusion reactionsManagement of complicationsAlloimmunized patientsRh alloimmunizationCurative therapyTransfusion guidelinesTransfusion recipientsClinical dilemmaFuture transfusionsTransfusionPatient populationTransfusion casesTransfusion reactionsBlood donorsRH variantsBlood cellsAlloimmunizationMedicine providers
2023
Epidemiological and clinical features, therapeutic strategies and outcomes in patients with hyperhaemolysis: A systematic review
Jacobs J, Stephens L, Allen E, Binns T, Booth G, Hendrickson J, Karafin M, Tormey C, Woo J, Adkins B. Epidemiological and clinical features, therapeutic strategies and outcomes in patients with hyperhaemolysis: A systematic review. British Journal Of Haematology 2023, 201: 1025-1032. PMID: 37074146, DOI: 10.1111/bjh.18825.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsSickle cell diseaseHyperhaemolysis syndromeAnti-globulin testRed blood cellsSupportive transfusionsIndirect anti-globulin testDirect anti-globulin testIntravenous immune globulinHaemolytic transfusion reactionsImmune globulinMedian hemoglobinClinical featuresCommon therapyUnderlying pathophysiologyTransfusion reactionsCell diseaseSevere formTherapeutic strategiesPatientsSystematic reviewBlood cellsTransfusionHyperhaemolysisDaysCorticosteroids
2021
Development of anti-Jk3 associated with silenced Kidd antigen expression and a novel single nucleotide variant of the JK gene
Manrai PA, Siddon AJ, Hager KM, Hendrickson JE, Keller MA, Tormey CA. Development of anti-Jk3 associated with silenced Kidd antigen expression and a novel single nucleotide variant of the JK gene. Immunohematology 2021, 37: 109-112. PMID: 34591379, DOI: 10.21307/immunohematology-2021-015.Peer-Reviewed Original ResearchConceptsHigh-prevalence antigenReagent red blood cellsDirect antiglobulin testBlood samplesBlood group APatient blood samplesImmunohematology reference laboratoryRare alloantibodyRed blood cellsOncologic careAntiglobulin testGroup APolynesian descentBlood cellsNon-conservative amino acid changeSingle nucleotide variantsReference laboratoryAmino acid changesFamilial backgroundExon 8Antigen expressionExon 7Nucleotide variantsAcid changesExon 4Transfusion practices for pediatric oncology and hematopoietic stem cell transplantation patients: Data from the National Heart Lung and Blood Institute Recipient Epidemiology and Donor Evaluation Study‐III (REDS‐III)
Goel R, Nellis ME, Karam O, Hanson SJ, Tormey CA, Patel RM, Birch R, Sachais BS, Sola‐Visner M, Hauser RG, Luban NLC, Gottschall J, Josephson CD, Hendrickson JE, Karafin MS, Study‐IV‐Pediatric F. Transfusion practices for pediatric oncology and hematopoietic stem cell transplantation patients: Data from the National Heart Lung and Blood Institute Recipient Epidemiology and Donor Evaluation Study‐III (REDS‐III). Transfusion 2021, 61: 2589-2600. PMID: 34455598, DOI: 10.1111/trf.16626.Peer-Reviewed Original ResearchConceptsInternational normalized ratioBlood Institute Recipient EpidemiologyDonor Evaluation Study-IIINational Heart LungTransfusion practicePediatric oncologyRecipient EpidemiologyHSCT patientsPlasma transfusionRed blood cellsPlatelet countHeart LungHematopoietic stem cell transplantation patientsHematopoietic stem cell transplant patientsMedian international normalized ratioStem cell transplant patientsStem cell transplantation patientsLower INR valuesPre-transfusion HbMedian platelet countMulticenter retrospective studyCell transplant patientsCell transplantation patientsStudy IIIAcute myeloid leukemiaComplement Plays a Critical Role in Inflammation-Induced Immunoprophylaxis Failure in Mice
Escamilla-Rivera V, Santhanakrishnan M, Liu J, Gibb DR, Forsmo JE, Foxman EF, Eisenbarth SC, Luckey CJ, Zimring JC, Hudson KE, Stowell SR, Hendrickson JE. Complement Plays a Critical Role in Inflammation-Induced Immunoprophylaxis Failure in Mice. Frontiers In Immunology 2021, 12: 704072. PMID: 34249009, PMCID: PMC8270673, DOI: 10.3389/fimmu.2021.704072.Peer-Reviewed Original ResearchConceptsImmunoprophylaxis failureRed blood cellsRBC transfusionComplement receptorsHuman KEL glycoproteinB cell activation thresholdWild-type micePresence of complementMurine red blood cellsTwo-hit modelRecipient inflammationIgG alloantibodiesInflammatory monocytesAdaptive immunityType miceB cellsRecipient complementTranslational relevanceKey cellsTransfusionMiceBlood cellsImmunoprophylaxis efficacyBaseline stateActivation thresholdTransfusion practices in a large cohort of hospitalized children
Nellis ME, Goel R, Hendrickson JE, Birch R, Patel RM, Karafin MS, Hanson SJ, Sachais BS, Hauser RG, Luban NLC, Gottschall J, Sola‐Visner M, Josephson CD, Karam O, Study‐IV‐Pediatric F. Transfusion practices in a large cohort of hospitalized children. Transfusion 2021, 61: 2042-2053. PMID: 33973660, DOI: 10.1111/trf.16443.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentBlood Component TransfusionBlood TransfusionChildChild, PreschoolDatasets as TopicDiagnosis-Related GroupsFemaleHospital MortalityHospitals, CommunityHospitals, TeachingHumansInfantInfant, NewbornInpatientsMaleProcedures and Techniques UtilizationRetrospective StudiesUnited StatesConceptsRBC transfusionCardiopulmonary bypassTransfusion practiceHospitalized childrenInpatient encountersBlood componentsLarge cohortHospital settingBlood Institute Recipient EpidemiologyDonor Evaluation Study-IIIPatient blood management initiativesDiagnostic categoriesFrequency of transfusionInstitutional transfusion guidelinesCohort of patientsInternational normalized ratioPercent of encountersNational Heart LungPediatric hospital settingYears of ageSubset of childrenRecipient EpidemiologyTransfusion guidelinesRed blood cellsEntire cohortVariation in Neonatal Transfusion Practice
Patel RM, Hendrickson JE, Nellis ME, Birch R, Goel R, Karam O, Karafin MS, Hanson SJ, Sachais BS, Hauser RG, Luban NLC, Gottschall J, Josephson CD, Sola-Visner M, National Heart L, Mast A, Hod E, Custer B, Vichinsky E, Spencer B, Mathew S, Harris D, Busch M, Norris P, Ness P, Kleinman S, Tamburro R, Glynn S, Malkin K. Variation in Neonatal Transfusion Practice. The Journal Of Pediatrics 2021, 235: 92-99.e4. PMID: 33836184, PMCID: PMC8316298, DOI: 10.1016/j.jpeds.2021.04.002.Peer-Reviewed Original ResearchConceptsWeeks of gestationEntire cohortPretransfusion hemoglobinPlatelet countNeonatal transfusionBlood Institute Recipient EpidemiologyDonor Evaluation Study-IIIInternational normalized ratio (INR) valuesHematologic valuesNeonatal transfusion practicesPretransfusion platelet countRetrospective cohort studyBlood product transfusionGestational age groupsPatient blood managementNational Heart LungRecipient EpidemiologyInitial hospitalizationProduct transfusionCohort studyRed blood cellsGestational ageTransfusion practiceHeart LungBlood management
2020
Poly(I:C) causes failure of immunoprophylaxis to red blood cells expressing the KEL glycoprotein in mice
Escamilla-Rivera V, Liu J, Gibb DR, Santhanakrishnan M, Liu D, Forsmo JE, Eisenbarth S, Foxman EF, Stowell SR, Luckey CJ, Zimring JC, Hudson KE, Hendrickson J. Poly(I:C) causes failure of immunoprophylaxis to red blood cells expressing the KEL glycoprotein in mice. Blood 2020, 135: 1983-1993. PMID: 32266378, PMCID: PMC7256361, DOI: 10.1182/blood.2020005018.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCD4-Positive T-LymphocytesCytokinesDisease Models, AnimalErythroblastosis, FetalErythrocyte TransfusionErythrocytesFemaleHumansImmunization, PassiveInterferon Type IIsoantigensKell Blood-Group SystemMembrane GlycoproteinsMetalloendopeptidasesMiceMice, Inbred C57BLMice, KnockoutMice, TransgenicPhagocytosisPoly I-CPregnancyConceptsRed blood cellsSerum monocyte chemoattractant protein-1Monocyte chemoattractant protein-1Blood cellsHuman KEL glycoproteinPolyinosinic-polycytidilic acidTransfused red blood cellsType 1 IFNType I IFN receptorChemoattractant protein-1Type 1 interferonI IFN receptorMurine red blood cellsRecipient CD4Recipient inflammationIFN administrationSerum cytokinesInflammatory monocytesRecipient treatmentInterleukin-6Hemolytic diseaseT cellsMurine modelAlloimmunizationKnockout mice
2019
Chapter 56 Management of Patients Who Refuse Blood Transfusion
Bahar B, Hendrickson J. Chapter 56 Management of Patients Who Refuse Blood Transfusion. 2019, 357-360. DOI: 10.1016/b978-0-12-813726-0.00056-8.Peer-Reviewed Original ResearchBlood productsRed blood cellsBlood transfusionBlood management programManagement of patientsJehovah's Witness faithCertain blood componentsBlood lossCoagulation defectsMedical recordsPatientsAnemia toleranceTransfusionBlood componentsBlood cellsRBC productionExcellent communicationManagement programCliniciansHemostasisGranulocytes
2018
3 The Importance of CD4 Cells and CD40/CD40 Ligand Interactions in Humoral Immune Responses to Transfused KEL RBCs in Mice
Madrid D, Gibb D, Natarajan P, Santhanakrishnan M, Liu J, Hendrickson J. 3 The Importance of CD4 Cells and CD40/CD40 Ligand Interactions in Humoral Immune Responses to Transfused KEL RBCs in Mice. American Journal Of Clinical Pathology 2018, 149: s164-s164. DOI: 10.1093/ajcp/aqx149.372.Peer-Reviewed Original ResearchCD40/CD40 ligand interactionsCD40 ligand interactionsCD40/CD40L blockadeWild-type animalsRed blood cellsNonresponder animalsCD40L blockadeWeeks posttransfusionType animalsIgG antibodiesT cellsImmune responseMonoclonal antibodiesAbsence of CD4CD40 ligand blockadeHuman KEL glycoproteinFlow cytometric crossmatchHemolytic transfusion reactionsDurable immune responsesHumoral immune responseWild-type miceDevelopment of alloantibodiesT cell interactionsMurine red blood cellsAlloantibody responses
2017
Transfusion Support of the Patient with Sickle Cell Disease Undergoing Transplantation
Hendrickson J, Fasano R. Transfusion Support of the Patient with Sickle Cell Disease Undergoing Transplantation. 2017, 111-136. DOI: 10.1007/978-3-319-62328-3_5.Peer-Reviewed Original ResearchHematopoietic stem cell transplantationSickle cell diseaseRed blood cellsTransfusion supportTransplant physiciansConditioning regimen intensityOptimal transplant outcomesPeri-transplant periodHigher red blood cellStem cell transplantationTransfusion medicine physiciansRegimen intensityUndergoing transplantationPosttransplant periodTransplant outcomesHSCT populationCurative therapyPlatelet transfusionsSCD patientsTransfusion managementCell transplantationTransfusion therapyDonor selectionIron overloadCell diseaseInterleukin-6 receptor α signaling on CD4+ T cells drives RBC alloantibody generation and T follicular helper cell differentiation in a murine model of RBC alloimmunization.
Arneja A, Salazar J, Jiang W, Hendrickson J, Zimring J, Luckey C. Interleukin-6 receptor α signaling on CD4+ T cells drives RBC alloantibody generation and T follicular helper cell differentiation in a murine model of RBC alloimmunization. The Journal Of Immunology 2017, 198: 201.27-201.27. DOI: 10.4049/jimmunol.198.supp.201.27.Peer-Reviewed Original ResearchRBC alloimmunizationRed blood cellsIL-6RαT cellsAntigen-negative red blood cellsFollicular helper cell differentiationInterleukin-6 receptor αFollicular helper cellsHemolytic transfusion reactionsViable therapeutic optionLife-saving therapySignificant clinical problemSignificant clinical consequencesInterleukin-6 receptorHelper cell differentiationSpecific CD4Multiple alloantibodiesOccasional mortalitySignificant morbidityTherapeutic optionsAvailable biologicsFunctional outcomeHelper cellsTransfusion reactionsClinical consequences
2015
DOCK8-Deficient Mice Reveal a Crucial Role for Dendritic Cell Activity in the Initiation of the Allogeneic Response to Transfused Red Blood Cells
Eisenbarth S, Hendrickson J, Calabro S, Gallman A. DOCK8-Deficient Mice Reveal a Crucial Role for Dendritic Cell Activity in the Initiation of the Allogeneic Response to Transfused Red Blood Cells. Blood 2015, 126: 658. DOI: 10.1182/blood.v126.23.658.658.Peer-Reviewed Original ResearchAllogeneic red blood cellsDOCK8-deficient miceRed blood cellsT cellsDendritic cellsT cell activationAllogeneic responseB cellsImmune signalsCell activationT cell receptor transgenic miceSplenic dendritic cell subsetsBlood cellsDendritic cell activityInduction of alloimmunityDendritic cell subsetsHen egg lysozymeT cell primingDendritic cell migrationInnate immune cellsReceptor transgenic miceInnate immune signalsT cell zonesAntigen presenting cellsB cell responsesAnti-RhD Mediates Loss of RhD Antigen Following Anti-RhD Infusion
Sullivan H, Arthur C, Patel S, Hendrickson J, Lazarus A, Stowell S. Anti-RhD Mediates Loss of RhD Antigen Following Anti-RhD Infusion. Blood 2015, 126: 3570. DOI: 10.1182/blood.v126.23.3570.3570.Peer-Reviewed Original ResearchDirect antiglobulin testAutoimmune hemolytic anemiaRed blood cellsAntigen lossAntigen levelsRhD antigenHemolytic anemiaPost-infusion samplesTarget antigenAntigen detectionRhD-positive red blood cellsK antigenIncompatible RBC transfusionIdiopathic thrombocytopenic purpuraAnti-RhD antibodiesHospital blood bankSignificant complement activationImmune globulinRBC transfusionThrombocytopenic purpuraAntiglobulin testMurine modelAntibody injectionRBC clearanceDetectable antigenInnate and adaptive immune responses to transfused alloantigens
Zimring J, Hudson K, Hendrickson J. Innate and adaptive immune responses to transfused alloantigens. Pathology 2015, 47: s41. DOI: 10.1097/01.pat.0000461433.20240.46.Peer-Reviewed Original ResearchInnate immune activationRed blood cellsImmune activationMurine modelToll-like receptor agonistsAdaptive immune responsesExposure of recipientsRBC alloantigensSubsequent transfusionsMultiple transfusionsRBC alloantibodiesRBC transfusionTLR agonistsReceptor agonistImmune responseMouse modelTransfusionHuman studiesInnate immunityAlloimmunisationAlloantigensBlood cellsSuch exposureRecipientsAgonistsInnate and adaptive immune responses to transfused alloantigens
Zimring J, Hudson K, Hendrickson J. Innate and adaptive immune responses to transfused alloantigens. Pathology 2015, 47: s34. DOI: 10.1097/01.pat.0000461421.80336.37.Peer-Reviewed Original ResearchInnate immune activationRed blood cellsImmune activationMurine modelToll-like receptor agonistsAdaptive immune responsesExposure of recipientsRBC alloantigensSubsequent transfusionsMultiple transfusionsRBC alloantibodiesRBC transfusionTLR agonistsReceptor agonistImmune responseMouse modelTransfusionHuman studiesInnate immunityAlloimmunisationAlloantigensBlood cellsSuch exposureRecipientsAgonists
2014
Reticuloendothelial Saturation Dictates the Development of RBC Resistance to Antibody-Mediated Clearance Following Incompatible Transfusion
Arthur C, Mener A, Patel S, Rodrigues L, Xue C, Nickel R, Zimring J, Hendrickson J, Stowell S. Reticuloendothelial Saturation Dictates the Development of RBC Resistance to Antibody-Mediated Clearance Following Incompatible Transfusion. Blood 2014, 124: 1559. DOI: 10.1182/blood.v124.21.1559.1559.Peer-Reviewed Original ResearchIncompatible RBC transfusionRed blood cellsRBC transfusionInitial transfusionRBC clearanceAntigen modulationOld red blood cellsAntibody-mediated removalFlow cytometric analysisHOD antigenIncompatible transfusionsDetectable antigenRBC ageReticuloendothelial systemCytometric analysisPreferential clearanceAntibody-Mediated ClearanceRBC-specific antibodiesAntibody-opsonized cellsPhagocytic removalTransfused cellsC57BL/6 recipientsAntigen levelsFVB miceRecipient miceNLRP10-Deficient Mice Reveal a Crucial Role for Dendritic Cell Activity in the Initiation of the Allogeneic Response to Transfused Red Blood Cells
Eisenbarth S, Hendrickson J, Calabro S, Gallman A. NLRP10-Deficient Mice Reveal a Crucial Role for Dendritic Cell Activity in the Initiation of the Allogeneic Response to Transfused Red Blood Cells. Blood 2014, 124: 4113. DOI: 10.1182/blood.v124.21.4113.4113.Peer-Reviewed Original ResearchAllogeneic red blood cellsRed blood cellsDendritic cellsT cell activationT cellsBlood cellsIntegral membrane proteinsAllogeneic responseBeta-globin promoterB cellsImmune signalsTriple fusion proteinCell activationT cell receptor transgenic miceInnate immune cytokine responsesRounds of divisionDendritic cell activityInduction of alloimmunityHen egg lysozymeSplenic dendritic cellsT cell primingReceptor transgenic miceImmune cytokine responsesInnate immune signalsGlobin promoterThe RBC as a Target of Damage
Hendrickson J, Tormey C. The RBC as a Target of Damage. 2014, 3068-3080. DOI: 10.1016/b978-0-12-386456-7.06203-1.Chapters
2013
Red Blood Cell Alloimmunization and Hemolytic Disease of the Fetus and Newborn: New Approaches Using Animal Models
Hendrickson J. Red Blood Cell Alloimmunization and Hemolytic Disease of the Fetus and Newborn: New Approaches Using Animal Models. Blood 2013, 122: sci-49. DOI: 10.1182/blood.v122.21.sci-49.sci-49.Peer-Reviewed Original ResearchRed blood cellsMurine red blood cellsPreventive therapyRBC alloantibodiesTransfusion settingsRBC precursorsHemolytic diseaseAnimal modelsAntigen-negative red blood cellsNewborn pupsRed blood cell alloimmunizationPositive indirect antiglobulin testBone marrow erythroid precursorsMature red blood cellsFetal liverNegative red blood cellsPotential preventive therapyRBC-specific expressionRh immune globulinFlow cytometric crossmatchPregnancy/deliveryFetus/neonateForeign red blood cellsWeeks of deliveryIndirect antiglobulin test