2024
CTNI-54. RESPONSE BY RANO2.0 CRITERIA IN ONC201 (DORDAVIPRONE)-TREATED PATIENTS WITH RECURRENT H3 K27M-MUTANT DIFFUSE MIDLINE GLIOMA
Cloughesy T, Allen J, Arrillaga-Romany I, Barbaro M, Batchelor T, Butowski N, Cluster A, de Groot J, Graber J, Haggiagi A, Kilburn L, Kurz S, Melemed A, Ramage S, Salacz M, Shonka N, Sumrall A, Tarapore R, Taylor L, Wen P. CTNI-54. RESPONSE BY RANO2.0 CRITERIA IN ONC201 (DORDAVIPRONE)-TREATED PATIENTS WITH RECURRENT H3 K27M-MUTANT DIFFUSE MIDLINE GLIOMA. Neuro-Oncology 2024, 26: viii109-viii109. PMCID: PMC11552873, DOI: 10.1093/neuonc/noae165.0421.Peer-Reviewed Original ResearchDiffuse midline gliomaH3 K27M-mutant diffuse midline gliomaH3K27M-mutant diffuse midline gliomaMidline gliomaResponse assessmentTarget lesionsMedian duration of responseMedian time to responseProgression free survival rateDiffuse intrinsic pontine gliomaBlinded independent central reviewAssociated with overall survivalNon-enhancing diseaseDisease control ratePrimary spinal tumorsDuration of responseFree survival rateIntrinsic pontine gliomaImproved performance statusIndependent central reviewClinically meaningful efficacyTime to responseOverall response rateAnti-cancer therapyComplete responseOutcomes of repeat conventional transarterial chemoembolization in patients with liver metastases
Ghabili K, Windham-Herman A, Konstantinidis M, Murali N, Borde T, Adam L, Laage-Gaupp F, Lin M, Chapiro J, Georgiades C, Nezami N. Outcomes of repeat conventional transarterial chemoembolization in patients with liver metastases. Annals Of Hepatology 2024, 29: 101529. PMID: 39033928, PMCID: PMC11558520, DOI: 10.1016/j.aohep.2024.101529.Peer-Reviewed Original ResearchConventional transarterial chemoembolizationLiver metastasesNeuroendocrine tumorsColorectal carcinomaTransarterial chemoembolizationOverall survivalLung cancerAssociated with improved patient survivalManagement of liver metastasesMetastatic liver lesionsSingle-institution analysisNonresponding patientsSurvival outcomesPatient survivalResponse assessmentTarget lesionsMetastasisLiver lesionsPatientsResponse rateChemoembolizationSurvivalLiverLesionsCancerDeep Learning-Based Detect-Then-Track Pipeline for Treatment Outcome Assessments in Immunotherapy-Treated Liver Cancer
Zhou J, Xia Y, Xun X, Yu Z. Deep Learning-Based Detect-Then-Track Pipeline for Treatment Outcome Assessments in Immunotherapy-Treated Liver Cancer. Journal Of Imaging Informatics In Medicine 2024, 38: 380-393. PMID: 38740661, PMCID: PMC11811366, DOI: 10.1007/s10278-024-01132-8.Peer-Reviewed Original Research
2023
Anatomic Versus Nonanatomic Resection
Cillo U, Marchini A, D’Amico F, Gringeri E. Anatomic Versus Nonanatomic Resection. 2023, 55-58. DOI: 10.1007/978-3-031-35295-9_6.Peer-Reviewed Original ResearchTarget lesionsNonanatomical liver resectionColorectal liver metastasesInvasive liver surgeryViable liver tissueLiver pedicleNonanatomic resectionAnatomical resectionOncological outcomesLiver metastasesLiver resectionNonanatomical resectionLiver surgeryResectionLiver tissueAnatomical regionsLesionsSurgeryMetastasisHCCPedicleParenchymaSurveillance of Individuals at High Risk of Developing Pancreatic Cancer
Paiella S, Secchettin E, Lionetto G, Archibugi L, Azzolina D, Casciani F, Simeone D, Overbeek K, Goggins M, Farrell J, de Leon Pisani R, Tridenti M, Corciulo M, Malleo G, Arcidiacono P, Falconi M, Gregori D, Bassi C, Salvia R, Capurso G. Surveillance of Individuals at High Risk of Developing Pancreatic Cancer. Annals Of Surgery 2023, 279: 37-44. PMID: 37681303, DOI: 10.1097/sla.0000000000006094.Peer-Reviewed Original ResearchConceptsPancreatic cancer surveillanceHigh-risk individualsCancer surveillancePancreatic cancerPooled prevalenceFinal diagnosisPancreatic cancer subjectsLow-grade dysplasiaDysplastic precursor lesionsNon-neoplastic conditionsPathogenic variant carriersPancreatic resectionSecondary outcomesPooled proportionSubgroup analysisTarget lesionsPrecursor lesionsSurveillance of individualsCancer subjectsVariant carriersEffect modifiersHigh riskHereditary predispositionSurgeryPathogenic variantsA pilot study of volumetric and density tumor analysis of ACC patients treated with vorinostat in a phase II clinical trial
Malarkey M, Toscano A, Bagheri M, Solomon J, Machado L, LoRusso P, Chen A, Folio L, Goncalves P. A pilot study of volumetric and density tumor analysis of ACC patients treated with vorinostat in a phase II clinical trial. Heliyon 2023, 9: e18680. PMID: 37593628, PMCID: PMC10428039, DOI: 10.1016/j.heliyon.2023.e18680.Peer-Reviewed Original ResearchACC patientsClinical trialsTarget lesionsSolid tumorsPhase II clinical trialPilot studyPhase 2 trialResponse Evaluation CriteriaSalivary gland cancerRare salivary gland cancerSystemic therapy efficacyStable diseaseGland cancerLung lesionsComputed tomography (CT) examsCystic carcinomaTherapy responseBlinded observersTomography examsTherapy efficacyLesionsInter-observer variationPatientsAppropriate evaluationTrialsPembrolizumab and lenvatinib in recurrent ovarian clear cell carcinoma resistant to chemotherapy
McNamara B, Bellone S, Demirkiran C, Hartwich T, Santin A. Pembrolizumab and lenvatinib in recurrent ovarian clear cell carcinoma resistant to chemotherapy. Gynecologic Oncology Reports 2023, 48: 101218. PMID: 37325296, PMCID: PMC10265468, DOI: 10.1016/j.gore.2023.101218.Peer-Reviewed Original ResearchOvarian clear cell carcinomaClear cell carcinomaCombination of pembrolizumabCell carcinomaTreatment optionsRecurrent ovarian clear cell carcinomaWeeks of therapyCT scan findingsMild side effectsEffective treatment optionOral multikinase inhibitorNew treatment optionsDurable responsesMetastatic diseaseScan findingsPD-1Disease burdenTarget lesionsMultikinase inhibitorDrug combinationsSide effectsPembrolizumabLenvatinibMonoclonal antibodiesCarcinoma
2022
Association of depth of target lesion response to brigatinib with outcomes in patients with ALK inhibitor-naive ALK+ NSCLC in ALTA-1L.
Camidge D, Kim H, Ahn M, Yang J, Han J, Hochmair M, Lee K, Delmonte A, Campelo R, Kim D, Griesinger F, Felip E, Califano R, Spira A, Thomas M, Gettinger S, Tiseo M, Liu Y, Zhang P, Popat S. Association of depth of target lesion response to brigatinib with outcomes in patients with ALK inhibitor-naive ALK+ NSCLC in ALTA-1L. Journal Of Clinical Oncology 2022, 40: 9072-9072. DOI: 10.1200/jco.2022.40.16_suppl.9072.Peer-Reviewed Original ResearchBlinded independent review committeeTarget lesion assessmentTarget lesion responseLesion shrinkageLesion responseLesion assessmentCochran-Armitage trend analysisRandomized phase 3 trialShrinkage groupPhase 3 trialDepth of responseIndependent review committeeLonger median timeMajority of ptsAssociation of depthRECIST v1.1PFS eventsMedian ageOS ratesMedian timeStudy endTarget lesionsLower riskDeep responsesBrigatinib
2021
Lipiodol Deposition and Washout in Primary and Metastatic Liver Tumors After Chemoembolization
Nezami N, VAN Breugel JMM, Konstantinidis M, Chapiro J, Savic LJ, Miszczuk MA, Rexha I, Lin M, Hong K, Georgiades C. Lipiodol Deposition and Washout in Primary and Metastatic Liver Tumors After Chemoembolization. In Vivo 2021, 35: 3261-3270. PMID: 34697157, PMCID: PMC8627740, DOI: 10.21873/invivo.12621.Peer-Reviewed Original ResearchConceptsConventional trans-arterial chemoembolizationTrans-arterial chemoembolizationNeuroendocrine tumorsColorectal carcinomaIntrahepatic cholangiocarcinomaLipiodol depositionWashout rateContrast-enhanced magnetic resonanceMetastatic liver tumorsColorectal carcinoma tumorsLiver metastasesHepatic metastasesTumor responseTarget lesionsRetrospective analysisLiver tumorsSmall tumorsChemoembolizationCarcinoma tumorsTumorsExponential washoutCarcinomaTomography imagingWashoutCholangiocarcinomaOTHR-06. PACS Lesion Tracking Tool provides real time automatic information on brain tumor metastasis growth curves and RECIST criteria
Jang B, Lin M, Owens R, Bousabarah K, Mahajan A, Fadel S, Ikuta I, Tocino I, Aboian M. OTHR-06. PACS Lesion Tracking Tool provides real time automatic information on brain tumor metastasis growth curves and RECIST criteria. Neuro-Oncology Advances 2021, 3: iii15-iii15. DOI: 10.1093/noajnl/vdab071.061.Peer-Reviewed Original ResearchFirst brain MRIRECIST evaluationRECIST criteriaPatient managementBrain MRIResponse Evaluation CriteriaRadiology reportsBrain MRI studiesAdditional useful informationPost-gadolinium sequencesRECIST outcomeStable diseaseBrain metastasesClinical responsePartial responseProgressive diseaseComplete responseRadiologic impressionNew lesionsIntracranial metastasesClinical differencesTarget lesionsTreatment responseMRI studiesLesion sizeBempegaldesleukin Plus Nivolumab in First-Line Metastatic Melanoma
Diab A, Tykodi SS, Daniels GA, Maio M, Curti BD, Lewis KD, Jang S, Kalinka E, Puzanov I, Spira AI, Cho DC, Guan S, Puente E, Nguyen T, Hoch U, Currie SL, Lin W, Tagliaferri MA, Zalevsky J, Sznol M, Hurwitz ME. Bempegaldesleukin Plus Nivolumab in First-Line Metastatic Melanoma. Journal Of Clinical Oncology 2021, 39: 2914-2925. PMID: 34255535, PMCID: PMC8425826, DOI: 10.1200/jco.21.00675.Peer-Reviewed Original ResearchConceptsProgression-free survivalImmune-mediated adverse eventsMedian progression-free survivalObjective response rateMetastatic melanomaOverall survivalResponse rateAdverse eventsTarget lesionsGrade 3Stage III/IV melanomaEnd pointPhase II cohortComplete response rateMedian overall survivalPrimary end pointRadiologic evidenceUntreated patientsDurable responsesPolyfunctional responsesOS ratesBlood biomarkersComplete clearanceMedian changeExploratory biomarkersWall shear stress estimated by 3D-QCA can predict cardiovascular events in lesions with borderline negative fractional flow reserve
Tufaro V, Safi H, Torii R, Koo BK, Kitslaar P, Ramasamy A, Mathur A, Jones DA, Bajaj R, Erdoğan E, Lansky A, Zhang J, Konstantinou K, Little CD, Rakhit R, Karamasis GV, Baumbach A, Bourantas CV. Wall shear stress estimated by 3D-QCA can predict cardiovascular events in lesions with borderline negative fractional flow reserve. Atherosclerosis 2021, 322: 24-30. PMID: 33706080, DOI: 10.1016/j.atherosclerosis.2021.02.018.Peer-Reviewed Original ResearchConceptsNegative fractional flow reserveCardiovascular eventsFractional flow reservePrimary endpointFlow reserveSmaller minimum lumen areaAdverse cardiovascular eventsRetrospective cohort studyTarget lesion revascularizationOnly independent predictorMinimum lumen areaQCA variablesAngiographic characteristicsLesion revascularizationCulprit lesionHighest maximum wall shear stressCohort studyCardiac deathIndependent predictorsComplete followMultivariable analysisMyocardial infarctionTarget lesionsArea stenosisNegative FFR
2020
Impact of liver tumour burden, alkaline phosphatase elevation, and target lesion size on treatment outcomes with 177Lu-Dotatate: an analysis of the NETTER-1 study
Strosberg J, Kunz PL, Hendifar A, Yao J, Bushnell D, Kulke MH, Baum RP, Caplin M, Ruszniewski P, Delpassand E, Hobday T, Verslype C, Benson A, Srirajaskanthan R, Pavel M, Mora J, Berlin J, Grande E, Reed N, Seregni E, Paganelli G, Severi S, Morse M, Metz DC, Ansquer C, Courbon F, Al-Nahhas A, Baudin E, Giammarile F, Taïeb D, Mittra E, Wolin E, O’Dorisio T, Lebtahi R, Deroose CM, Grana CM, Bodei L, Öberg K, Polack BD, He B, Mariani MF, Gericke G, Santoro P, Erion JL, Ravasi L, Krenning E. Impact of liver tumour burden, alkaline phosphatase elevation, and target lesion size on treatment outcomes with 177Lu-Dotatate: an analysis of the NETTER-1 study. European Journal Of Nuclear Medicine And Molecular Imaging 2020, 47: 2372-2382. PMID: 32123969, PMCID: PMC7396396, DOI: 10.1007/s00259-020-04709-x.Peer-Reviewed Original ResearchConceptsLiver tumor burdenProgression-free survivalLargest target lesionHigher liver tumour burdenTumor burdenMidgut neuroendocrine tumorsAlkaline phosphatase elevationNeuroendocrine tumorsTarget lesionsLesion sizeHazard ratioTreatment outcomesAnalysis of PFSHigh-dose octreotide LARMedian progression-free survivalImproved progression-free survivalNETTER-1 studyNETTER-1 trialLiver function abnormalitiesKaplan-Meier estimatesOctreotide LARPrimary endpointFunction abnormalitiesBaseline factorsCox regression
2019
Agreement on endoscopic ultrasonography‐guided tissue specimens: Comparing a 20‐G fine‐needle biopsy to a 25‐G fine‐needle aspiration needle among academic and non‐academic pathologists
van Riet PA, Cahen DL, Biermann K, Hansen B, Larghi A, Rindi G, Fellegara G, Arcidiacono P, Doglioni C, Decarli N, Iglesias‐Garcia J, Abdulkader I, Iglesias H, Kitano M, Chikugo T, Yasukawa S, van der Valk H, Nguyen N, Ruszkiewicz A, Giovannini M, Poizat F, van der Merwe S, Roskams T, Santo E, Marmor S, Chang K, Lin F, Farrell J, Robert M, Bucobo J, Heimann A, Baldaque‐Silva F, Moro C, Bruno M, Attili F, Aslanian H, Adeniran A, Lee J, Petrone M, Bories E, Scapa E, Buscaglia J, Wu M. Agreement on endoscopic ultrasonography‐guided tissue specimens: Comparing a 20‐G fine‐needle biopsy to a 25‐G fine‐needle aspiration needle among academic and non‐academic pathologists. Digestive Endoscopy 2019, 31: 690-697. PMID: 31290176, PMCID: PMC6900144, DOI: 10.1111/den.13424.Peer-Reviewed Original Research
2018
SURG-06. LASER ABLATION FOR BRAIN METASTASES: SAFETY AND PRELIMINARY OUTCOMES FROM THE LASER ABLATION OF ABNORMAL NEUROLOGICAL TISSUE USING ROBOTIC NEUROBLATE SYSTEM (LAANTERN) REGISTRY
Kamath A, Tatter S, Fecci P, Chen C, Chiang V, Rao G, Mohammadi A, Judy K, Field M, Neimat J, Leuthardt E, Kim A. SURG-06. LASER ABLATION FOR BRAIN METASTASES: SAFETY AND PRELIMINARY OUTCOMES FROM THE LASER ABLATION OF ABNORMAL NEUROLOGICAL TISSUE USING ROBOTIC NEUROBLATE SYSTEM (LAANTERN) REGISTRY. Neuro-Oncology 2018, 20: vi251-vi251. PMCID: PMC6216263, DOI: 10.1093/neuonc/noy148.1042.Peer-Reviewed Original ResearchLaser interstitial thermal therapyBrain metastasesProcedural dataDeath rateAblation coverageMedian overall survivalAcceptable safety profileSingle-center experienceDay of procedureKaplan-Meier survivalNeurological tissuesAverage lesion volumeLocation of lesionsPreliminary outcomesInterstitial thermal therapyAdverse eventsOngoing registryOverall survivalCenter experienceSafety profileMean ageInvasive optionTarget lesionsProcedural efficacyLesion volumeDynamic contrast enhanced perfusion CT imaging: A diagnostic biomarker tool for survival prediction of tumour response to antiangiogenetic treatment in patients with advanced HCC lesions
Ippolito D, Querques G, Okolicsanyi S, Franzesi C, Pecorelli A, Lombardi S, Orsini E, Strazzabosco M, Sironi S. Dynamic contrast enhanced perfusion CT imaging: A diagnostic biomarker tool for survival prediction of tumour response to antiangiogenetic treatment in patients with advanced HCC lesions. European Journal Of Radiology 2018, 106: 62-68. PMID: 30150052, DOI: 10.1016/j.ejrad.2018.07.012.Peer-Reviewed Original ResearchConceptsAdvanced hepatocellular carcinomaAnti-angiogenic therapyPerfusion CT imagingHepatocellular carcinomaPerfusion parametersProgressor groupSurvival rateNon-progressor groupOverall survival rateKaplan-Meier analysisAssessment of responseAntiangiogenetic treatmentCirrhotic patientsSorafenib administrationPrognostic indicatorTumor responseTarget lesionsHCC lesionsIndividualized treatmentTumor neoangiogenesisPatientsOverall populationHigher survival rateCT imagingSurvival predictionBinimetinib (MEK162) in recurrent low-grade serous ovarian cancer resistant to chemotherapy and hormonal treatment
Han C, Bellone S, Zammataro L, Schwartz PE, Santin AD. Binimetinib (MEK162) in recurrent low-grade serous ovarian cancer resistant to chemotherapy and hormonal treatment. Gynecologic Oncology Reports 2018, 25: 41-44. PMID: 29946554, PMCID: PMC6014583, DOI: 10.1016/j.gore.2018.05.011.Peer-Reviewed Original ResearchLow-grade serous ovarian carcinomaTreatment optionsHormonal treatmentRecurrent low-grade serous ovarian cancerRecurrent low-grade serous ovarian carcinomaLow-grade serous ovarian cancerDramatic clinical responseDrug-related toxicityEffective treatment optionNew treatment optionsSerial CT scansSerous ovarian cancerSerous ovarian carcinomaMitogen-activated protein kinase inhibitorOral steroidsRECIST 1.1Clinical responseMultiple chemotherapyOvarian carcinomaTarget lesionsOvarian cancerCT scanResponse durationBinimetinibKRAS G12Prediction of post-TACE necrosis of hepatocellular carcinoma usingvolumetric enhancement on MRI and volumetric oil deposition on CT, with pathological correlation
Najmi Varzaneh F, Pandey A, Aliyari Ghasabeh M, Shao N, Khoshpouri P, Pandey P, Zarghampour M, Fouladi D, Liddell R, Anders R, Kamel I. Prediction of post-TACE necrosis of hepatocellular carcinoma usingvolumetric enhancement on MRI and volumetric oil deposition on CT, with pathological correlation. European Radiology 2018, 28: 3032-3040. PMID: 29383518, PMCID: PMC6435275, DOI: 10.1007/s00330-017-5198-9.Peer-Reviewed Original ResearchConceptsPercentage tumor necrosisTumor necrosisLiver transplantHCC patientsTherapeutic decisionsLT groupMean percentage necrosisPost-TACE CTPost-treatment MRIImaging modalitiesFurther therapeutic decisionsPathological necrosisLipiodol retentionWhole cohortBaseline MRINecrosis biomarkersPathological correlationTumor responseHCC necrosisTarget lesionsHCC lesionsUnenhanced CTPercentage necrosisNecrosisDual imaging modalities
2017
Science to Practice: Molecular-targeted Drug Delivery in Combination with Radiofrequency Ablation of Liver Cancer: A Magic Bullet?
Adam LC, Murali N, Chapiro J, Geschwind JF. Science to Practice: Molecular-targeted Drug Delivery in Combination with Radiofrequency Ablation of Liver Cancer: A Magic Bullet? Radiology 2017, 285: 333-335. PMID: 29045226, PMCID: PMC5673055, DOI: 10.1148/radiol.2017171527.Peer-Reviewed Original ResearchConceptsRadiofrequency ablationRF ablationHepatocellular carcinoma mouse modelTechnical success rateSurvival end pointsChemotherapeutic drug concentrationsCarcinoma mouse modelAnimal tumor modelsTumor-penetrating peptideClinical outcomesTarget lesionsDrug delivery systemsLiver cancerMouse modelTumor modelEnd pointDrug concentrationsDrug deliverySuccess rateTumor treatmentToxic effectsDelivery systemAblationMagic bulletLesions18F-Fluoroestradiol PET/CT Measurement of Estrogen Receptor Suppression during a Phase I Trial of the Novel Estrogen Receptor-Targeted Therapeutic GDC-0810: Using an Imaging Biomarker to Guide Drug Dosage in Subsequent Trials
Wang Y, Ayres KL, Goldman DA, Dickler MN, Bardia A, Mayer IA, Winer E, Fredrickson J, Arteaga CL, Baselga J, Manning HC, Mahmood U, Ulaner GA. 18F-Fluoroestradiol PET/CT Measurement of Estrogen Receptor Suppression during a Phase I Trial of the Novel Estrogen Receptor-Targeted Therapeutic GDC-0810: Using an Imaging Biomarker to Guide Drug Dosage in Subsequent Trials. Clinical Cancer Research 2017, 23: 3053-3060. PMID: 28011460, PMCID: PMC5474190, DOI: 10.1158/1078-0432.ccr-16-2197.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedBiomarkers, PharmacologicalBreast NeoplasmsCinnamatesDose-Response Relationship, DrugEstradiolEstrogen Receptor alphaFemaleFulvestrantHumansIndazolesMiddle AgedMolecular ImagingMolecular Targeted TherapyPositron Emission Tomography Computed TomographyReceptors, EstrogenTamoxifenConceptsFES-PET/CTPET/CTClinical trialsER-positive metastatic breast cancerPhase IPhase I clinical trialEstrogen receptor occupancyPhase II trialMetastatic breast cancerSubsequent clinical trialsClin Cancer ResER downregulationFulvestrant therapyAntagonist/Escalation trialII trialTarget lesionsBreast cancerER occupancyUseful biomarkerPatientsReceptor occupancyDay 3Uptake valueDrug dosage
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