2018
GalT‐KO pig lungs are highly susceptible to acute vascular rejection in baboons, which may be mitigated by transgenic expression of hCD47 on porcine blood vessels
Watanabe H, Sahara H, Nomura S, Tanabe T, Ekanayake‐Alper D, Boyd L, Louras N, Asfour A, Danton M, Ho S, Arn S, Hawley R, Shimizu A, Nagayasu T, Ayares D, Lorber M, Sykes M, Sachs D, Yamada K. GalT‐KO pig lungs are highly susceptible to acute vascular rejection in baboons, which may be mitigated by transgenic expression of hCD47 on porcine blood vessels. Xenotransplantation 2018, 25: e12391. PMID: 29527745, PMCID: PMC6135720, DOI: 10.1111/xen.12391.Peer-Reviewed Original ResearchConceptsNon-surviving animalsHCD47Pig lungTransgene expressionLung graftsPorcineLung graft survivalDaysAssociated with early graft lossPodsAcute humoral rejectionWeaningSwineEarly graft lossAcute vascular rejectionGalT-KOHumoral rejectionGraft lossGraft survivalFemoral cathetersVascular rejectionPOD 7Hemorrhagic changesLeft lungFollow-up
2013
IgG 4-RSD involving the pleura (P3373)
Kohli R, Chowdhary H. IgG 4-RSD involving the pleura (P3373). The Journal Of Immunology 2013, 190: 202.9-202.9. DOI: 10.4049/jimmunol.190.supp.202.9.Peer-Reviewed Original ResearchPlasma cellsHand swellingIgG4 levelsPleural effusionPleural biopsyIgG4-positive plasma cellsSignificant past medical historyEvidence of synovitisHigh IgG4 levelsPleural fluid aspirationSerum IgG4 levelsPast medical historyPositive plasma cellsOld Caucasian femaleNovel clinical entityRange of motionClinical significant improvementIgG4-RLDIgG4-RSDOccasional dyspneaSteroid therapyLeft lungRoutine bloodClinical entityImmunological markersEvaluation of Novel Orthotopic Nude Mouse Models for Human Small-Cell Lung Cancer
Isobe T, Onn A, Morgensztern D, Jacoby JJ, Wu W, Shintani T, Itasaka S, Shibuya K, Koo PJ, O'Reilly MS, Herbst RS. Evaluation of Novel Orthotopic Nude Mouse Models for Human Small-Cell Lung Cancer. Journal Of Thoracic Oncology 2013, 8: 140-146. PMID: 23328546, DOI: 10.1097/jto.0b013e3182725ff9.Peer-Reviewed Original ResearchConceptsSmall cell lung cancerHuman small cell lung cancerLymph nodesLung cancerMurine modelOrthotopic nude mouse modelHuman SCLC tumorsAxillary lymph nodesOrthotopic murine modelNovel therapeutic strategiesSubcutaneous xenograft modelTumor growth patternNude mouse modelEffective murine modelLeft lungRight lungTumor sizeSolitary massSCLC tumorsOrthotopic modelMouse modelNew therapiesTherapeutic strategiesXenograft modelNude mice
2008
SU‐GG‐T‐509: Impact of Gating On Dose Escalation in Lung Cancer Patients
Antony J, Loo B, Carlson D, Maxim P, Luxton G, Xing L. SU‐GG‐T‐509: Impact of Gating On Dose Escalation in Lung Cancer Patients. Medical Physics 2008, 35: 2842-2842. DOI: 10.1118/1.2962258.Peer-Reviewed Original ResearchNormal tissue complication probabilityDose escalationTumor marginsInferior tumor marginMean lung doseLocal tumor controlLung cancer patientsTreatment planningConformal radiation therapyTumor motionTumor control probability modelCRT plansLeft lungMediastinal tumorLung doseTumor controlCancer patientsToxicity CriteriaLung tumorsRadiation therapyDose changesLyman-KutcherBurman modelDose constraintsPatients
2005
Of Buffaloes, Horseshoes, and Having No Connections
Parsons AM, Detterbeck FC. Of Buffaloes, Horseshoes, and Having No Connections. The Annals Of Thoracic Surgery 2005, 80: 1521-1523. PMID: 16181911, DOI: 10.1016/j.athoracsur.2004.04.054.Peer-Reviewed Original ResearchConceptsUnilateral pulmonary artery agenesisCongenital pulmonary anomaliesPulmonary artery agenesisDouble lung transplantationRight middle lobeRight upper lobeBuffalo chestHorseshoe lungLung transplantationPulmonary anomaliesLeft lungUpper lobeLower lobeRight chestRight lungAnatomic anomaliesMiddle lobeLeft chestLungChestLobePatientsTransplantationAgenesisHemithoraces
1999
Prostanoids
Davis K, Fabian T, Croce M, Proctor K. Prostanoids. Journal Of Trauma And Acute Care Surgery 1999, 46: 824-832.. PMID: 10338399, DOI: 10.1097/00005373-199905000-00010.Peer-Reviewed Original ResearchConceptsPositive end-expiratory pressurePulmonary capillary leakEnd-expiratory pressurePMN infiltrationPulmonary failureRight thoraxSecondary injuryInflammatory responseCapillary leakPlatelet-derived thromboxaneBlunt chest traumaHours of injurySecondary inflammatory responseBronchoalveolar lavage proteinSerial bronchoalveolar lavagesCyclooxygenase inhibitor indomethacinUnilateral pulmonary contusionPulmonary contusionChest traumaProfound hypoxemiaSham injuryBlunt injuryLeft lungBronchoalveolar lavageNeutrophil content
1985
Bronchial compression by a patent ductus arteriosus associated with pulmonary atresia.
Markowitz R, Fahey J, Hellenbrand W, Kopf G, Rothstein P. Bronchial compression by a patent ductus arteriosus associated with pulmonary atresia. American Journal Of Roentgenology 1985, 144: 535-40. PMID: 3871562, DOI: 10.2214/ajr.144.3.535.Peer-Reviewed Original ResearchConceptsPatent ductus arteriosusPulmonary atresiaDuctus arteriosusPulmonary blood supplySignificant respiratory distressCongenital heart diseaseAirway compressionAortopulmonary shuntLeft lungRespiratory distressSurgical repairBronchial compressionLeft bronchusPatent ductusHeart diseaseBlood supplyAnatomic configurationArteriosusPhysiologic roleAtresiaBronchusInfantsLungDuctusShunt
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply