2022
ANtiangiogenic Second-line Lung cancer Meta-Analysis on individual patient data in non-small cell lung cancer: ANSELMA
Remon J, Lacas B, Herbst R, Reck M, Garon EB, Scagliotti GV, Ramlau R, Hanna N, Vansteenkiste J, Yoh K, Groen HJM, Heymach JV, Mandrekar SJ, Okamoto I, Neal JW, Heist RS, Planchard D, Pignon JP, Besse B, group A, Besse B, Lacas B, Pignon J, Remon J, Berghmans T, Dahlberg S, Felip E, Berghmans T, Besse B, Dahlberg S, Felip E, Garon E, Groen H, Hanna N, Heist R, Herbst R, Heymach J, Lacas B, Adjei A, Heist R, Mandrekar S, Neal J, Okamoto I, Pignon J, Ramlau R, Remon J, Reck M, Scagliotti G, Vansteenkiste J, Yoh K. ANtiangiogenic Second-line Lung cancer Meta-Analysis on individual patient data in non-small cell lung cancer: ANSELMA. European Journal Of Cancer 2022, 166: 112-125. PMID: 35286903, DOI: 10.1016/j.ejca.2022.02.002.Peer-Reviewed Original ResearchMeSH KeywordsAgedAngiogenesis InhibitorsAntineoplastic Combined Chemotherapy ProtocolsCarcinoma, Non-Small-Cell LungHumansLung NeoplasmsProgression-Free SurvivalConceptsNon-small cell lung cancerProgression-free survivalAdvanced non-small cell lung cancerFirst-line therapyCell lung cancerIndividual patient dataHazard ratioYounger patientsLung cancerPulmonary thromboembolic eventsPatient dataSecond-line treatmentFirst-line treatmentRisk of hypertensionFixed-effects modelOS benefitPFS benefitThromboembolic eventsOverall survivalSubgroup analysisAntiangiogenicsMeta-AnalysisPatientsMedical needChemotherapy
2012
Combined MEK and VEGFR Inhibition in Orthotopic Human Lung Cancer Models Results in Enhanced Inhibition of Tumor Angiogenesis, Growth, and Metastasis
Takahashi O, Komaki R, Smith PD, Jürgensmeier JM, Ryan A, Bekele BN, Wistuba II, Jacoby JJ, Korshunova MV, Biernacka A, Erez B, Hosho K, Herbst RS, O'Reilly MS. Combined MEK and VEGFR Inhibition in Orthotopic Human Lung Cancer Models Results in Enhanced Inhibition of Tumor Angiogenesis, Growth, and Metastasis. Clinical Cancer Research 2012, 18: 1641-1654. PMID: 22275507, PMCID: PMC3306446, DOI: 10.1158/1078-0432.ccr-11-2324.Peer-Reviewed Original ResearchMeSH KeywordsAngiogenesis InhibitorsAnimalsAntineoplastic Combined Chemotherapy ProtocolsBenzimidazolesCarcinoma, Non-Small-Cell LungCell Line, TumorCell ProliferationDisease ProgressionHumansLung NeoplasmsMaleMiceMice, NudeMitogen-Activated Protein KinasesMolecular Targeted TherapyNeovascularization, PathologicPaclitaxelProto-Oncogene ProteinsProto-Oncogene Proteins p21(ras)QuinazolinesRas ProteinsReceptors, Vascular Endothelial Growth FactorXenograft Model Antitumor AssaysConceptsSignal-regulated kinase kinaseTumor cell proliferationCell proliferationReceptor tyrosine kinasesKinase kinaseAvailable MEK1/2 inhibitorHuman NSCLC cellsTyrosine kinaseVEGF receptor tyrosine kinasesERK phosphorylationNCI-H441MEK1/2 inhibitorApoptotic effectsAdjacent normal tissuesKinaseNSCLC cellsMEK inhibitionAntiangiogenic effectsSignalingOrthotopic human lung cancer modelAvailable potent inhibitorLung tumor growthPotent inhibitorTumor angiogenesisSelumetinibTargeting Vascular Endothelial Growth Factor in Patients With Squamous Cell Lung Cancer
Koo PJ, Morgensztern D, Boyer JL, Herbst RS. Targeting Vascular Endothelial Growth Factor in Patients With Squamous Cell Lung Cancer. Journal Of Clinical Oncology 2012, 30: 1137-1139. PMID: 22355057, DOI: 10.1200/jco.2011.40.4053.Peer-Reviewed Original ResearchAdenocarcinomaAdenocarcinoma of LungAngiogenesis InhibitorsBiomarkers, TumorCarcinoma, Squamous CellGene Expression Regulation, NeoplasticHemorrhageHumansLung NeoplasmsNeoplasm StagingPredictive Value of TestsPrognosisReceptors, Vascular Endothelial Growth FactorSignal TransductionTreatment OutcomeVascular Endothelial Growth Factor AVascular Endothelial Growth Factor Receptor-1Vascular Endothelial Growth Factor Receptor-2Vascular Endothelial Growth Factor Receptor-3
2011
Efficacy of bevacizumab plus erlotinib versus erlotinib alone in advanced non-small-cell lung cancer after failure of standard first-line chemotherapy (BeTa): a double-blind, placebo-controlled, phase 3 trial
Herbst RS, Ansari R, Bustin F, Flynn P, Hart L, Otterson GA, Vlahovic G, Soh CH, O'Connor P, Hainsworth J. Efficacy of bevacizumab plus erlotinib versus erlotinib alone in advanced non-small-cell lung cancer after failure of standard first-line chemotherapy (BeTa): a double-blind, placebo-controlled, phase 3 trial. The Lancet 2011, 377: 1846-1854. PMID: 21621716, PMCID: PMC4134127, DOI: 10.1016/s0140-6736(11)60545-x.Peer-Reviewed Original ResearchMeSH KeywordsAgedAngiogenesis InhibitorsAntibodies, MonoclonalAntibodies, Monoclonal, HumanizedAntineoplastic Combined Chemotherapy ProtocolsBevacizumabCarcinoma, Non-Small-Cell LungDisease-Free SurvivalDouble-Blind MethodErlotinib HydrochlorideFemaleHumansLung NeoplasmsMaleMiddle AgedProportional Hazards ModelsProtein Kinase InhibitorsQuinazolinesSurvival RateVascular Endothelial Growth Factor AConceptsPhase 3 trialBevacizumab groupCell lung cancerAdverse eventsOverall survivalRefractory NSCLCPrimary endpointLung cancerControl groupComputer-generated randomisation sequenceGrade 5 adverse eventsStandard first-line chemotherapyCalculation of incidenceEfficacy of bevacizumabArterial thromboembolic eventsFirst-line chemotherapyMedian overall survivalObjective response rateSerious adverse eventsAddition of bevacizumabFirst-line treatmentPhase 1/2 trialProgression-free survivalToxic effect profilesActivity of erlotinibUpregulated stromal EGFR and vascular remodeling in mouse xenograft models of angiogenesis inhibitor–resistant human lung adenocarcinoma
Cascone T, Herynk MH, Xu L, Du Z, Kadara H, Nilsson MB, Oborn CJ, Park YY, Erez B, Jacoby JJ, Lee JS, Lin HY, Ciardiello F, Herbst RS, Langley RR, Heymach JV. Upregulated stromal EGFR and vascular remodeling in mouse xenograft models of angiogenesis inhibitor–resistant human lung adenocarcinoma. Journal Of Clinical Investigation 2011, 121: 1313-1328. PMID: 21436589, PMCID: PMC3070607, DOI: 10.1172/jci42405.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAngiogenesis InhibitorsAnimalsAntibodies, MonoclonalAntibodies, Monoclonal, HumanizedApoptosisBevacizumabCell Line, TumorDrug Resistance, NeoplasmErbB ReceptorsGene Expression ProfilingHumansLung NeoplasmsMaleMiceMice, NudeNeovascularization, PathologicRNA, MessengerRNA, NeoplasmStromal CellsUp-RegulationVascular Endothelial Growth Factor AVascular Endothelial Growth Factor Receptor-2Xenograft Model Antitumor AssaysConceptsMouse xenograft modelHuman lung adenocarcinomaTumor cellsPrimary resistanceLung adenocarcinomaXenograft modelFGFR pathwayProgression-free survivalVEGF inhibitor bevacizumabEndothelium of tumorsInhibitors of angiogenesisCombination regimensTreatment of cancerVEGF inhibitorsPericyte coverageAntiangiogenic therapyVascular remodelingAngiogenesis inhibitorsTherapeutic efficacyTumor growthStromal pathwaysClinical useEGFRAcquired ResistanceEGFR pathway
2010
Chemoradiotherapy With or Without AE-941 in Stage III Non–Small Cell Lung Cancer: A Randomized Phase III Trial
Lu C, Lee JJ, Komaki R, Herbst RS, Feng L, Evans WK, Choy H, Desjardins P, Esparaz BT, Truong MT, Saxman S, Kelaghan J, Bleyer A, Fisch MJ. Chemoradiotherapy With or Without AE-941 in Stage III Non–Small Cell Lung Cancer: A Randomized Phase III Trial. Journal Of The National Cancer Institute 2010, 102: 859-865. PMID: 20505152, PMCID: PMC2902826, DOI: 10.1093/jnci/djq179.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overAngiogenesis InhibitorsAntineoplastic Combined Chemotherapy ProtocolsBiological ProductsCarcinoma, Non-Small-Cell LungCartilageChemotherapy, AdjuvantDisease-Free SurvivalDouble-Blind MethodFemaleHumansKaplan-Meier EstimateLung NeoplasmsMaleMiddle AgedMultivariate AnalysisNeoplasm StagingRadiotherapy, AdjuvantTissue ExtractsTreatment OutcomeConceptsNon-small cell lung cancerStage III non-small cell lung cancerUnresectable stage III non-small cell lung cancerProgression-free survivalTumor response rateCell lung cancerOverall survivalAE-941Lung cancerPlacebo groupClinical trialsUnresectable stage III NSCLC patientsResponse rateStage III NSCLC patientsPhase III clinical trialsAcademic oncology centerCommon grade 3Kaplan-Meier methodPhase III trialsShark cartilage extractTarget sample sizeToxic effectsChest radiotherapyConcurrent chemotherapyEligible patients
2009
Safety, Pharmacokinetics, and Antitumor Activity of AMG 386, a Selective Angiopoietin Inhibitor, in Adult Patients With Advanced Solid Tumors
Herbst RS, Hong D, Chap L, Kurzrock R, Jackson E, Silverman JM, Rasmussen E, Sun YN, Zhong D, Hwang YC, Evelhoch JL, Oliner JD, Le N, Rosen LS. Safety, Pharmacokinetics, and Antitumor Activity of AMG 386, a Selective Angiopoietin Inhibitor, in Adult Patients With Advanced Solid Tumors. Journal Of Clinical Oncology 2009, 27: 3557-3565. PMID: 19546406, DOI: 10.1200/jco.2008.19.6683.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAngiogenesis InhibitorsAngiopoietinsAntibodies, MonoclonalAntibodies, Monoclonal, HumanizedAntimetabolites, AntineoplasticBevacizumabDose-Response Relationship, DrugDrug-Related Side Effects and Adverse ReactionsFatigueFemaleHumansInfusions, IntravenousMaleMaximum Tolerated DoseMiddle AgedNeoplasm StagingNeoplasmsTreatment OutcomeConceptsAMG 386Advanced solid tumorsPartial responseAntitumor activitySolid tumorsElimination half-life valuesPatients 48 hoursMaximum-tolerated doseTreatment-related toxicityDose-limiting toxicityRefractory ovarian cancerWeeks of treatmentPeptide-Fc fusion proteinVolume transfer constantAngiopoietin inhibitorsCommon toxicitiesStable diseasePeripheral edemaAdult patientsClinical sequelaeMethods PatientsWeekly dosesTumor burdenRespiratory arrestSafety profile
2008
Tumor Cavitation During Therapy with Antiangiogenesis Agents in Patients with Lung Cancer
Marom EM, Martinez CH, Truong MT, Lei X, Sabloff BS, Munden RF, Gladish GW, Herbst RS, Morice RC, Stewart DJ, Jimenez CA, Blumenschein GR, Onn A. Tumor Cavitation During Therapy with Antiangiogenesis Agents in Patients with Lung Cancer. Journal Of Thoracic Oncology 2008, 3: 351-357. PMID: 18379352, DOI: 10.1097/jto.0b013e318168c7e9.Peer-Reviewed Original ResearchConceptsLung cancer patientsTumor cavitationCancer patientsAntiangiogenesis agentsAdverse eventsLung cancerMD Anderson Cancer CenterChest imaging findingsProgression-free survivalAdditional adverse eventsSquamous cell histologySquamous cell tumorsAnderson Cancer CenterCavitary tumorsPrevious chemotherapyCell histologyOverall survivalClinical outcomesImaging findingsCancer CenterCell tumorsTumor locationMedical recordsClinical dataClinical significanceCurrent and Future Strategies for Antiangiogenic Agents in Non–Small-Cell Lung Cancer
Herbst RS. Current and Future Strategies for Antiangiogenic Agents in Non–Small-Cell Lung Cancer. Clinical Lung Cancer 2008, 9: s50. PMID: 21884998, DOI: 10.3816/clc.2008.s.007.Peer-Reviewed Original ResearchMultitargeted Inhibitors in Lung Cancer: New Clinical Data
Bar J, Herbst RS, Onn A. Multitargeted Inhibitors in Lung Cancer: New Clinical Data. Clinical Lung Cancer 2008, 9: s92-s99. PMID: 19419930, DOI: 10.3816/clc.2008.s.014.Peer-Reviewed Original ResearchConceptsLung cancerManagement of patientsCell lung cancerOngoing clinical trialsNew clinical dataCombination of therapiesTreatment arsenalMultitargeted therapyClinical trialsNovel therapiesClinical dataNovel agentsRadiation therapyTraditional chemotherapyTherapyCancerClinical useMalignant growthMultitargeted inhibitorsTreatmentPathwayMajor pathwayChemotherapyPatientsAgents
2007
Endostatin improves radioresponse and blocks tumor revascularization after radiation therapy for A431 xenografts in mice
Itasaka S, Komaki R, Herbst RS, Shibuya K, Shintani T, Hunter NR, Onn A, Bucana CD, Milas L, Ang KK, O’Reilly M. Endostatin improves radioresponse and blocks tumor revascularization after radiation therapy for A431 xenografts in mice. International Journal Of Radiation Oncology • Biology • Physics 2007, 67: 870-878. PMID: 17293237, PMCID: PMC1976280, DOI: 10.1016/j.ijrobp.2006.10.030.Peer-Reviewed Original ResearchConceptsRadiation therapyConcurrent administrationTumor revascularizationDisease-free survivalVascular endothelial growth factorCombination of endostatinEffect of endostatinMatrix metalloproteinase-2Legs of miceEndothelial growth factorEndothelial cell apoptosisEndothelial cell proliferationAdvanced malignanciesA431 xenograftsClinical trialsInterleukin-8Antiangiogenic therapyAntiangiogenic agentsEpidermoid carcinomaPreclinical studiesHuman epidermoid carcinomaLeg tumorsTreatment groupsAntitumor effectsMetalloproteinase-2Targeted therapy of orthotopic human lung cancer by combined vascular endothelial growth factor and epidermal growth factor receptor signaling blockade
Wu W, Onn A, Isobe T, Itasaka S, Langley RR, Shitani T, Shibuya K, Komaki R, Ryan AJ, Fidler IJ, Herbst RS, O'Reilly MS. Targeted therapy of orthotopic human lung cancer by combined vascular endothelial growth factor and epidermal growth factor receptor signaling blockade. Molecular Cancer Therapeutics 2007, 6: 471-483. PMID: 17308046, DOI: 10.1158/1535-7163.mct-06-0416.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAngiogenesis InhibitorsAnimalsApoptosisBlotting, WesternCarcinoma, Squamous CellCell Line, TumorCell ProliferationEndothelium, VascularErbB ReceptorsFlow CytometryHumansLung NeoplasmsMaleMiceMice, Inbred BALB CMice, Inbred CBANeovascularization, PathologicPhosphorylationPiperidinesProto-Oncogene Proteins c-aktQuinazolinesSignal TransductionVascular Endothelial Growth Factor Receptor-2Xenograft Model Antitumor AssaysConceptsVascular endothelial growth factorVEGF receptor 2EGF receptorEpidermal growth factorLung cancerHuman lung cancerEndothelial growth factorGrowth factorMitogen-activated protein kinaseNon-small cell lung cancerOrthotopic human lung cancerProtein tyrosine kinase inhibitorEndothelial cellsTumor-associated endothelial cellsHuman lung cancer specimensAdvanced lung cancerSelective protein tyrosine kinase inhibitorCell lung cancerLung cancer patientsOrthotopic mouse modelEndothelial cell tube formationLung cancer specimensHuman lung adenocarcinoma cellsTyrosine kinase inhibitorsSmall molecule inhibitorsVandetanib (ZD6474): an orally available receptor tyrosine kinase inhibitor that selectively targets pathways critical for tumor growth and angiogenesis
Herbst RS, Heymach JV, O’Reilly M, Onn A, Ryan AJ. Vandetanib (ZD6474): an orally available receptor tyrosine kinase inhibitor that selectively targets pathways critical for tumor growth and angiogenesis. Expert Opinion On Investigational Drugs 2007, 16: 239-249. PMID: 17243944, DOI: 10.1517/13543784.16.2.239.Peer-Reviewed Original ResearchConceptsTumor typesHereditary medullary thyroid cancerReceptor tyrosine kinase inhibitorsPhase III trialsProgression-free survivalDaily oral administrationPhase II evaluationPhase I studiesMedullary thyroid cancerTyrosine kinase inhibitorsSolid tumor typesTumor cell proliferationRefractory NSCLCAdvanced NSCLCIII trialsI studiesII evaluationThyroid cancerOral administrationAvailable agentsClinical developmentPharmacokinetic profileTumor growthVandetanibTumor angiogenesis
2006
Toxicities of Antiangiogenic Therapy in Non–Small-Cell Lung Cancer
Herbst RS. Toxicities of Antiangiogenic Therapy in Non–Small-Cell Lung Cancer. Clinical Lung Cancer 2006, 8: s23-s30. PMID: 17239287, DOI: 10.3816/clc.2006.s.010.Peer-Reviewed Original ResearchMeSH KeywordsAngiogenesis InhibitorsAntibodies, MonoclonalAntibodies, Monoclonal, HumanizedAntineoplastic AgentsBenzenesulfonatesBevacizumabCarcinoma, Non-Small-Cell LungCarcinoma, Squamous CellHumansIndolesLung NeoplasmsNiacinamidePhenylurea CompoundsPiperidinesPyridinesPyrrolesQuinazolinesSorafenibSunitinibVascular Endothelial Growth FactorsConceptsAnti-VEGF antibodyCell lung cancerVascular endothelial growth factorAntiangiogenic agentsOverall survivalLung cancerPhase III pivotal trialsClass-effect toxicitiesFirst-line chemotherapyAdverse event profileSquamous cell histologyChemotherapy-associated toxicityVEGFR tyrosine kinaseTyrosine kinase inhibitorsEndothelial growth factorMetastatic NSCLCThromboembolic eventsCell histologyPivotal trialsEvent profileRisk factorsVEGF receptor activityAntiangiogenic therapySmall molecule inhibitorsTumor typesAngiogenesis inhibition in the treatment of lung cancer.
Vokes E, Herbst R, Sandler A. Angiogenesis inhibition in the treatment of lung cancer. Clinical Advances In Hematology And Oncology 2006, 4: 1-10; quiz 11-2. PMID: 17143257.Peer-Reviewed Original ResearchMeSH KeywordsAngiogenesis InhibitorsAntibodies, MonoclonalAntibodies, Monoclonal, HumanizedAntineoplastic Combined Chemotherapy ProtocolsBevacizumabCarboplatinCarcinoma, Non-Small-Cell LungClinical Trials, Phase III as TopicDisease-Free SurvivalErlotinib HydrochlorideHemorrhageHumansLung NeoplasmsNeovascularization, PathologicPaclitaxelProtein Kinase InhibitorsQuinazolinesRandomized Controlled Trials as TopicRisk FactorsSurvival RateVascular Endothelial Growth Factor AConceptsNon-small cell lung cancerVascular endothelial growth factorLung cancerAntiangiogenic therapyNon-squamous cell non-small cell lung cancerAnti-VEGF monoclonal antibody bevacizumabSmall molecule tyrosine kinase inhibitorsRandomized phase II studyRandomized phase III trialEpidermal growth factor receptor inhibitor erlotinibPhase II studyAddition of bevacizumabPhase III trialsSignificant survival benefitCell lung cancerSignificant clinical benefitMonoclonal antibody bevacizumabComprehensive treatment approachTyrosine kinase inhibitorsEndothelial growth factorImportant therapeutic targetOngoing studiesNSCLC settingBevacizumab treatmentII studyTherapeutic options to target angiogenesis in human malignancies
Herbst RS. Therapeutic options to target angiogenesis in human malignancies. Expert Opinion On Emerging Drugs 2006, 11: 635-650. PMID: 17064223, DOI: 10.1517/14728214.11.4.635.Peer-Reviewed Original ResearchMeSH KeywordsAngiogenesis InhibitorsAntineoplastic AgentsDrug Delivery SystemsHumansNeoplasmsNeovascularization, PathologicConceptsTyrosine kinase inhibitorsHuman malignanciesMonoclonal antibodiesGrowth factorKinase inhibitorsAnti-VEGF inhibitorsGastrointestinal stromal tumorsSolid human malignanciesRenal cell carcinomaBasic fibroblast growth factorRole of VEGFTypes of cancerFibroblast growth factorStromal tumorsTherapeutic optionsCell carcinomaColorectal cancerAntiangiogenic drugsClinical trialsDrug classesPro-angiogenic growth factorsSmall molecule inhibitorsTumor growthTumor angiogenesisMatrix breakdownUse of Novel Second-Line Targeted Therapies in Non–Small Cell Lung Cancer
Massarelli E, Herbst RS. Use of Novel Second-Line Targeted Therapies in Non–Small Cell Lung Cancer. Seminars In Oncology 2006, 33: 9-16. PMID: 16472704, DOI: 10.1053/j.seminoncol.2005.12.007.Peer-Reviewed Original ResearchMeSH KeywordsAngiogenesis InhibitorsAntineoplastic Combined Chemotherapy ProtocolsCarcinoma, Non-Small-Cell LungErbB ReceptorsHumansLung NeoplasmsSalvage TherapyConceptsNon-small cell lung cancerOverall response rateEpidermal growth factor receptorCell lung cancerLung cancerResponse rateSecond-line therapeutic approachStandard cytotoxic regimensFirst-line treatmentNew treatment optionsLung cancer casesQuality of lifeNew chemotherapeutic agentsCytotoxic regimensGrowth factor receptorRefractory settingMetastatic diseaseRefractory diseaseLocal therapyNSCLC treatmentTreatment optionsCancer deathTargeted therapyTreatment outcomesCancer cases
2005
Phase I Trial of the Oral Antiangiogenesis Agent AG-013736 in Patients With Advanced Solid Tumors: Pharmacokinetic and Clinical Results
Rugo HS, Herbst RS, Liu G, Park JW, Kies MS, Steinfeldt HM, Pithavala YK, Reich SD, Freddo JL, Wilding G. Phase I Trial of the Oral Antiangiogenesis Agent AG-013736 in Patients With Advanced Solid Tumors: Pharmacokinetic and Clinical Results. Journal Of Clinical Oncology 2005, 23: 5474-5483. PMID: 16027439, DOI: 10.1200/jco.2005.04.192.Peer-Reviewed Original ResearchConceptsAdvanced solid tumorsAG-013736Clinical activityOral receptor tyrosine kinase inhibitorSolid tumorsReceptor tyrosine kinase inhibitorsGrowth factorSingle test dosesMaximum-tolerated dosePhase II doseDose-limiting toxicitySignificant drug interactionsPeak plasma concentrationEndothelial cell growth factorPhase II testingVascular endothelial cell growth factorTyrosine kinase inhibitorsHighest dose levelPlatelet-derived growth factorIndividual PK parametersEffect of foodCell growth factorObserved hypertensionDrug holidayPartial responseDynamic Contrast-Enhanced Magnetic Resonance Imaging As a Pharmacodynamic Measure of Response After Acute Dosing of AG-013736, an Oral Angiogenesis Inhibitor, in Patients With Advanced Solid Tumors: Results From a Phase I Study
Liu G, Rugo HS, Wilding G, McShane TM, Evelhoch JL, Ng C, Jackson E, Kelcz F, Yeh BM, Lee FT, Charnsangavej C, Park JW, Ashton EA, Steinfeldt HM, Pithavala YK, Reich SD, Herbst RS. Dynamic Contrast-Enhanced Magnetic Resonance Imaging As a Pharmacodynamic Measure of Response After Acute Dosing of AG-013736, an Oral Angiogenesis Inhibitor, in Patients With Advanced Solid Tumors: Results From a Phase I Study. Journal Of Clinical Oncology 2005, 23: 5464-5473. PMID: 16027440, DOI: 10.1200/jco.2005.04.143.Peer-Reviewed Original ResearchConceptsAdvanced solid tumorsAG-013736Vascular responsesMagnetic resonance imagingAcute dosingDay 2Solid tumorsAngiogenesis inhibitorsResonance imagingContrast-enhanced magnetic resonance imagingOral angiogenesis inhibitorSchedule of therapyTumor vascular functionDynamic contrast-enhanced magnetic resonance imagingObjective disease responsePhase II testingDCE-MRI scansEffect of treatmentTumor vascular parametersVolume transfer constantMorning doseSuitable markerPharmacodynamic measuresVascular functionPharmacodynamic responseCurrent Management of Advanced Non-Small Cell Lung Cancer: Targeted Therapy
Isobe T, Herbst RS, Onn A. Current Management of Advanced Non-Small Cell Lung Cancer: Targeted Therapy. Seminars In Oncology 2005, 32: 315-328. PMID: 15988686, DOI: 10.1053/j.seminoncol.2005.02.016.Peer-Reviewed Original ResearchMeSH KeywordsAlkyl and Aryl TransferasesAngiogenesis InhibitorsAnimalsAntibodies, MonoclonalAntineoplastic AgentsCarcinoma, Non-Small-Cell LungCyclooxygenase InhibitorsDrug Delivery SystemsErbB ReceptorsFarnesyltranstransferaseHumansLung NeoplasmsMatrix Metalloproteinase InhibitorsProtein Kinase CReceptor, ErbB-2Receptors, Vascular Endothelial Growth FactorRetinoid X ReceptorsConceptsNon-small cell lung cancerAdvanced non-small cell lung cancerCell lung cancerLung cancerVascular endothelial growth factorEpidermal growth factor receptorBiological therapyGrowth factorLung cancer patientsCancer-related deathLung cancer progressionClinical study designNew therapeutic strategiesEndothelial growth factorGrowth factor receptorOverall prognosisPatient survivalStandard treatmentCancer patientsConventional chemotherapyFrequent causeRadiation therapyTherapeutic approachesAnticancer arsenalTherapeutic strategies