2024
Transmembrane pH gradient imaging in rodent glioma models
Mishra S, Santana J, Mihailovic J, Hyder F, Coman D. Transmembrane pH gradient imaging in rodent glioma models. NMR In Biomedicine 2024, 37: e5102. PMID: 38263680, PMCID: PMC10987279, DOI: 10.1002/nbm.5102.Peer-Reviewed Original ResearchNormal tissuesRodent glioma modelsGL261 gliomasU87 gliomasTumor microenvironmentPotential therapeutic targetGlioma modelTumor survivalExtracellular acidosisTumorMetabolic reprogrammingRegulate drug deliveryIntracellular pHRat brainExtracellular pHTherapeutic targetGliomaMouse brainDrug deliveryIntracellular milieuTransmembrane pH gradientBrainSubmillimeter resolutionTissueCells
2023
Imaging the transmembrane pH gradient in gliomas
Mishra S, Mihailović J, Hyder F, Coman D. Imaging the transmembrane pH gradient in gliomas. Proceedings Of The International Society For Magnetic Resonance In Medicine ... Scientific Meeting And Exhibition. 2023 DOI: 10.58530/2023/3928.Peer-Reviewed Original ResearchAssess tumor aggressivenessMonitoring treatment efficacyTransmembrane pH gradientTumor responseTumor microenvironmentTumor aggressivenessRG2 tumorsLocal drug deliveryExtracellular acidosisTherapeutic outcomesTumorTreatment efficacyNormal tissuesBrain tumorsIntracellular pHExtracellular pHFunction biomarkersPositive therapeutic outcomesDrug deliveryIntracellular milieuBrainAcidosisGlioma
2020
A high‐throughput imaging platform to characterize extracellular pH in organotypic three‐dimensional in vitro models of liver cancer
Savic LJ, Schobert IT, Hamm CA, Adam LC, Hyder F, Coman D. A high‐throughput imaging platform to characterize extracellular pH in organotypic three‐dimensional in vitro models of liver cancer. NMR In Biomedicine 2020, 34: e4465. PMID: 33354836, DOI: 10.1002/nbm.4465.Peer-Reviewed Original ResearchConceptsLiver cancer modelLiver cancerHepatocellular carcinomaCancer modelNon-tumorous hepatocytesUnpaired t-testCell linesDose-dependent mannerHepatocyte cell lineTreatment responseTherapy resistanceMagnetic resonance spectroscopicT MR scannerPersonalized treatmentTumor metabolismCancerTumor pHMR resultsT-testCarcinomaViability assaysExtracellular pHMR scannerANOVA testTreatment
2017
Mapping Extracellular pH of Gliomas in Presence of Superparamagnetic Nanoparticles: Towards Imaging the Distribution of Drug‐Containing Nanoparticles and Their Curative Effect on the Tumor Microenvironment
Maritim S, Coman D, Huang Y, Rao JU, Walsh JJ, Hyder F. Mapping Extracellular pH of Gliomas in Presence of Superparamagnetic Nanoparticles: Towards Imaging the Distribution of Drug‐Containing Nanoparticles and Their Curative Effect on the Tumor Microenvironment. Contrast Media & Molecular Imaging 2017, 2017: 3849373. PMID: 29362558, PMCID: PMC5736903, DOI: 10.1155/2017/3849373.Peer-Reviewed Original ResearchConceptsBrain microvasculatureCurative effectTherapeutic effectIntravenous injectionTherapeutic impactTumor typesD-NPsTumor microenvironmentSuperparamagnetic iron oxideTumor hallmarksGliomasDrug distributionInfusionMRI contrastHealing efficacyMRI readoutsMicrovasculatureDrugsExtracellular pHDrug-containing nanoparticlesTumor-targeted nanoparticlesSPIO NPsTumor boundariesTemozolomide arrests glioma growth and normalizes intratumoral extracellular pH
Rao JU, Coman D, Walsh JJ, Ali MM, Huang Y, Hyder F. Temozolomide arrests glioma growth and normalizes intratumoral extracellular pH. Scientific Reports 2017, 7: 7865. PMID: 28801587, PMCID: PMC5554228, DOI: 10.1038/s41598-017-07609-7.Peer-Reviewed Original ResearchConceptsU251 tumorsTumor microenvironmentT2-weighted MRITherapeutic responseUntreated ratsTumor volumeRat brainTumor growthTherapeutic influenceGlioma growthPeritumoral regionRatsApoptosis inductionTumorsGliomasTumor corePhysiological readoutsExtracellular pHAcidic pHeTumor boundariesProliferationMicroenvironment