2021
Abstract CT211: Personalized, rational, efficacy-driven chemotherapy dosing via an artificial intelligence system (PRECISE): A protocol for the PRECISE CURATE.AI pilot clinical trial
Teo C, Tan B, Tadeo X, Peng S, Soh H, Du S, Luo V, Bandla A, Sundar R, Ho D, Kee T, Blasiak A. Abstract CT211: Personalized, rational, efficacy-driven chemotherapy dosing via an artificial intelligence system (PRECISE): A protocol for the PRECISE CURATE.AI pilot clinical trial. Cancer Research 2021, 81: ct211-ct211. DOI: 10.1158/1538-7445.am2021-ct211.Peer-Reviewed Original ResearchTumor marker levelsRandomized controlled trialsChemotherapy doseSolid tumorsDrug doseDosing recommendationsMarker levelsAmerican Association for Cancer Research annual meetingsSignificant dose changesTumor marker measurementsCapecitabine-based chemotherapyMetastatic solid tumorsOptimal chemotherapy dosingRecruitment of patientsFrequent toxicitiesOpen-labelCA19-9Dose changesCohort expansionTumor markersSingle-armSuboptimal efficacyProportion of participantsChemotherapySerial measurementsPersonalised, Rational, Efficacy-Driven Cancer Drug Dosing via an Artificial Intelligence SystEm (PRECISE): A Protocol for the PRECISE CURATE.AI Pilot Clinical Trial
Tan B, Teo C, Tadeo X, Peng S, Soh H, Du S, Luo V, Bandla A, Sundar R, Ho D, Kee T, Blasiak A. Personalised, Rational, Efficacy-Driven Cancer Drug Dosing via an Artificial Intelligence SystEm (PRECISE): A Protocol for the PRECISE CURATE.AI Pilot Clinical Trial. Frontiers In Digital Health 2021, 3: 635524. PMID: 34713106, PMCID: PMC8521832, DOI: 10.3389/fdgth.2021.635524.Peer-Reviewed Original ResearchTumor marker levelsRandomised controlled trialsDrug dosePersonalised dosingSolid tumorsMarker levelsNational Healthcare GroupSignificant dose changesCapecitabine-based chemotherapyMetastatic solid tumorsDose of drugOpen-labelChemotherapy doseDose changesDosing recommendationsCohort expansionSingle-armSuboptimal efficacyProportion of participantsPrimary outcomeSecondary outcomesInterim analysisPhysician adherenceControlled trialsPrecision oncology
2020
PIPAC-OX: A Phase I Study of Oxaliplatin-Based Pressurized Intraperitoneal Aerosol Chemotherapy in Patients with Peritoneal Metastases
Kim G, Tan L, Sundar R, Lieske B, Chee C, Ho J, Shabbir A, Babak M, Ang W, Goh B, Yong W, Wang L, So J. PIPAC-OX: A Phase I Study of Oxaliplatin-Based Pressurized Intraperitoneal Aerosol Chemotherapy in Patients with Peritoneal Metastases. Clinical Cancer Research 2020, 27: 1875-1881. PMID: 33148667, DOI: 10.1158/1078-0432.ccr-20-2152.Peer-Reviewed Original ResearchConceptsPressurized intraperitoneal aerosol chemotherapyPressurized intraperitoneal aerosolized chemotherapy proceduresPeritoneal cancer indexPeritoneal metastasisAerosol chemotherapyMedian peritoneal cancer indexPeritoneal Regression Grading ScoreRecommended phase II doseGrade 2 pancreatitisHighest-dose cohortPhase II doseDose-limiting toxicityFirst-line chemotherapyDose-escalation designTreat peritoneal metastasisPhase I studyImprove drug distributionII doseStable diseaseCancer indexMedian ageCohort expansionGastrointestinal tumorsPharmacokinetic analysisDose levels