2024
Prompt Tuning in Biomedical Relation Extraction
He J, Li F, Li J, Hu X, Nian Y, Xiang Y, Wang J, Wei Q, Li Y, Xu H, Tao C. Prompt Tuning in Biomedical Relation Extraction. Journal Of Healthcare Informatics Research 2024, 8: 206-224. PMID: 38681754, PMCID: PMC11052745, DOI: 10.1007/s41666-024-00162-9.Peer-Reviewed Original ResearchFew-shot scenariosBiomedical relation extractionNatural language processingBiomedical RERelation extractionPrompt tuningState-of-the-art performanceText mining applicationsTuning modelBioCreative VISemEval-2013Knowledge graphLanguage modelMining applicationsBiomedical textOriginal inputComputational resourcesLanguage processingExternal knowledgeSpecific textsSuperior performanceDatasetEfficient approachTaskModel performancePhoto-induced universal modification of small-diameter decellularized blood vessels with a hemocompatible peptide improves in vivo patency
Zhang W, Fukazawa K, Mahara A, Jiang H, Yamaoka T. Photo-induced universal modification of small-diameter decellularized blood vessels with a hemocompatible peptide improves in vivo patency. Acta Biomaterialia 2024, 176: 116-127. PMID: 38232911, DOI: 10.1016/j.actbio.2024.01.012.Peer-Reviewed Original ResearchConceptsDecellularized vesselsDecellularized blood vesselsNatural collagenPhenylazide groupIn vivo patencyPromote endothelializationSurface modificationMultiple materialsImproved hemocompatibilityDecellularized graftsRat abdominal aortaFunctional endotheliaLuminal surface modificationSmall diameterHemocompatibilityPhotoreactive peptidesEfficient approach
2016
Tissue-Engineered Vascular Rings from Human iPSC-Derived Smooth Muscle Cells
Dash BC, Levi K, Schwan J, Luo J, Bartulos O, Wu H, Qiu C, Yi T, Ren Y, Campbell S, Rolle MW, Qyang Y. Tissue-Engineered Vascular Rings from Human iPSC-Derived Smooth Muscle Cells. Stem Cell Reports 2016, 7: 19-28. PMID: 27411102, PMCID: PMC4945325, DOI: 10.1016/j.stemcr.2016.05.004.Peer-Reviewed Original ResearchConceptsVascular tissue engineeringFunctional vascular smooth muscle cellsCell-based tissueSelf-assembly approachRenewable sourcesTissue engineeringPluripotent stem cellsPlatform technologyBiomedical applicationsTissue ringsDrug screeningDisease modelingTissue model systemsHuman iPSCStem cellsBroad utilityEfficient approachLarge quantitiesEngineeringMaterials
2009
Programming cells by multiplex genome engineering and accelerated evolution
Wang HH, Isaacs FJ, Carr PA, Sun ZZ, Xu G, Forest CR, Church GM. Programming cells by multiplex genome engineering and accelerated evolution. Nature 2009, 460: 894-898. PMID: 19633652, PMCID: PMC4590770, DOI: 10.1038/nature08187.Peer-Reviewed Original Research
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