2025
Computational Nuclear Oncology Toward Precision Radiopharmaceutical Therapies: Current Tools, Techniques, and Uncharted Territories.
Yusufaly T, Roncali E, Brosch-Lenz J, Uribe C, Jha A, Currie G, Dutta J, El-Fakhri G, McMeekin H, Pandit-Taskar N, Schwartz J, Shi K, Strigari L, Zaidi H, Saboury B, Rahmim A. Computational Nuclear Oncology Toward Precision Radiopharmaceutical Therapies: Current Tools, Techniques, and Uncharted Territories. Journal Of Nuclear Medicine 2025, jnumed.124.267927. PMID: 39947910, DOI: 10.2967/jnumed.124.267927.Peer-Reviewed Original ResearchRadiopharmaceutical therapyImage-based dosimetryPrediction of doseInternal dosimetryPersonalized treatment plansMetastatic diseaseDosimetryNuclear oncologyClinical outcomesNuclear medicineClinical endpointsTreatment planningOncology communityDose responseEtiological mechanismsTargeted deliveryRadiobiologyRadiotherapyMalignancyRadiationLong-termTherapyPharmacotherapyDoseRadiopharmacokinetics
2024
Efficient and selective kidney targeting by chemically modified carbohydrate conjugates
Kumar V, Wahane A, Tham M, Somlo S, Gupta A, Bahal R. Efficient and selective kidney targeting by chemically modified carbohydrate conjugates. Molecular Therapy 2024, 32: 4383-4400. PMID: 39532098, PMCID: PMC11638880, DOI: 10.1016/j.ymthe.2024.10.020.Peer-Reviewed Original ResearchProximal convoluted tubulesPeptide nucleic acidConvoluted tubulesNucleic acid analogsDecreased collagen depositionAntisense peptide nucleic acidFibrosis mouse modelCarbohydrate conjugatesKidney disease modelsSystemic deliveryFibrosis progressionSmall moleculesKidney cell lineAdverse reactionsMiR-33Mouse modelBiodistribution studiesImmunofluorescence stainingCollagen depositionKidney targetingTargeted deliveryLigandCell linesEndocytic uptakeAcid analogsAiming the magic bullet: targeted delivery of imaging and therapeutic agents to solid tumors by pHLIP peptides
Reshetnyak Y, Andreev O, Engelman D. Aiming the magic bullet: targeted delivery of imaging and therapeutic agents to solid tumors by pHLIP peptides. Frontiers In Pharmacology 2024, 15: 1355893. PMID: 38545547, PMCID: PMC10965573, DOI: 10.3389/fphar.2024.1355893.Peer-Reviewed Original ResearchTumor microenvironmentTherapeutic agents to solid tumorsTargeted intracellular deliverySolid tumorsImmune cellsPHLIP technologyTargeted delivery of imagingPre-clinicalDelivery of imagingTherapeutic payloadsTumorTargeted deliveryIntracellular deliveryTumor imagingSimultaneous targetingClinical applicationTherapeutic deliveryCell typesSurface of cellsPHLIP peptidePHLIPDeliveryTarget biomarkersCellsMagic bulletTargeted intracellular delivery of dimeric STINGa by two pHLIP peptides for treatment of solid tumors
Moshnikova A, DuPont M, Iraca M, Klumpp C, Visca H, Allababidi D, Pelzer P, Engelman D, Andreev O, Reshetnyak Y. Targeted intracellular delivery of dimeric STINGa by two pHLIP peptides for treatment of solid tumors. Frontiers In Pharmacology 2024, 15: 1346756. PMID: 38495104, PMCID: PMC10940318, DOI: 10.3389/fphar.2024.1346756.Peer-Reviewed Original ResearchTargeted intracellular deliveryIntracellular deliveryTreatment of solid tumorsAnti-cancer immunityPHLIP peptideBinding to plasma proteinsBlood half-lifeTumor eradicationSolid tumorsCytokine activityTumorTargeted deliveryDelivery approachesHalf-lifePlasma proteinsDMSAPHLIPDeliveryMembrane lipid bilayerPeptide
2023
Antibody–Drug Conjugates (ADC) in HER2/neu-Positive Gynecologic Tumors
McNamara B, Greenman M, Pebley N, Mutlu L, Santin A. Antibody–Drug Conjugates (ADC) in HER2/neu-Positive Gynecologic Tumors. Molecules 2023, 28: 7389. PMID: 37959808, PMCID: PMC10650896, DOI: 10.3390/molecules28217389.Peer-Reviewed Original ResearchConceptsHuman epidermal growth factor 2Antibody-drug conjugatesGynecologic tumorsEpidermal growth factor 2Receptor-targeting antibodiesOngoing clinical trialsRelevant preclinical studiesAnti-cancer therapyADC resistanceGynecologic malignanciesGrowth factor 2Cytotoxic therapyADC therapyClinical trialsPreclinical studiesTumor cellsTherapyTumor surface receptorsDrug conjugatesHealthy tissueFactor 2Surface receptorsTumorsTargeted deliveryDelivery
2018
Thrombin-Responsive, Brain-Targeting Nanoparticles for Improved Stroke Therapy
Guo X, Deng G, Liu J, Zou P, Du F, Liu F, Chen AT, Hu R, Li M, Zhang S, Tang Z, Han L, Liu J, Sheth KN, Chen Q, Gou X, Zhou J. Thrombin-Responsive, Brain-Targeting Nanoparticles for Improved Stroke Therapy. ACS Nano 2018, 12: 8723-8732. PMID: 30107729, DOI: 10.1021/acsnano.8b04787.Peer-Reviewed Original ResearchConceptsBrain-targeted nanoparticlesIschemic brainEfficacy of glyburideImproved treatmentIschemic brain tissueEffective pharmacological approachBlood-brain barrierMatrix metalloproteinase-9Ischemic strokeStroke patientsStroke therapyMetalloproteinase-9Current treatmentPharmacological approachesBrain tissueIschemic microenvironmentTherapeutic drugsGreater delivery efficiencyBrainClinical applicationStrokeTreatmentTargeted deliveryEfficacyVariety of formulations
2012
Targeted Delivery of Chemotherapy Agents Using a Liver Cancer-Specific Aptamer
Meng L, Yang L, Zhao X, Zhang L, Zhu H, Liu C, Tan W. Targeted Delivery of Chemotherapy Agents Using a Liver Cancer-Specific Aptamer. PLOS ONE 2012, 7: e33434. PMID: 22558072, PMCID: PMC3338807, DOI: 10.1371/journal.pone.0033434.Peer-Reviewed Original ResearchConceptsAptamer-drug conjugatesCancer-specific aptamersAntitumor agent doxorubicinDOX conjugatesIntercalation methodAptamerCell viability testTargeted deliveryConjugatesCancer cellsTarget proteinsAgent doxorubicinPotential candidateCell linesDOXEfficiency of chemotherapyLiver cancer cellsNonspecific uptakeTarget specificityAvailable aptamersCarcinoma cell linesChemotherapy agentsHepatocellular carcinoma cell linesHuman hepatocellular carcinoma cell linePromising method
2011
Biodegradable poly(amine-co-ester) terpolymers for targeted gene delivery
Zhou J, Liu J, Cheng CJ, Patel TR, Weller CE, Piepmeier JM, Jiang Z, Saltzman WM. Biodegradable poly(amine-co-ester) terpolymers for targeted gene delivery. Nature Materials 2011, 11: 82-90. PMID: 22138789, PMCID: PMC4180913, DOI: 10.1038/nmat3187.Peer-Reviewed Original ResearchConceptsGene deliveryNon-viral gene deliveryEfficient gene deliveryGene delivery abilityTargeted gene deliveryHighest molecular weight terpolymerDelivery abilityTargeted deliveryLipofectamine 2000Dialkyl diesterVivo applicationsPolycationic vectorsSpecific ring sizesTRAIL geneHigh efficiencyCharge densityLow charge densityDeliveryPolyethylenimineMinimal toxicityEfficiencyHydrophobicityLactone contentDensityApplications
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