2023
Biomarkers and biosensors for early cancer diagnosis, monitoring and prognosis
Wahab M, Palaniyandi T, Ravi M, viswanathan S, Baskar G, Surendran H, Gangadharan S, Rajendran B. Biomarkers and biosensors for early cancer diagnosis, monitoring and prognosis. Pathology - Research And Practice 2023, 250: 154812. PMID: 37741139, DOI: 10.1016/j.prp.2023.154812.Peer-Reviewed Original ResearchEarly cancer diagnosisBiosensorEarly cancer detectionCancer biomarkersChip modelSuch biomarkersEngineering technologyBiological samplesCancer typesRecent advancementsEarly detectionNucleic acidsEarly diagnostic markerCancer detectionDevelopment of technologyGlobal socioeconomic impactTumor cell DNAProstate cancerMajor challengeBiomedical engineering technologyTherapeutic outcomesDetectionDiagnostic markerTechnologyParticular cancer typesDecellularization compromises mechanical and structural properties of the native trachea
Greaney A, Ramachandra A, Yuan Y, Korneva A, Humphrey J, Niklason L. Decellularization compromises mechanical and structural properties of the native trachea. Biomaterials And Biosystems 2023, 9: 100074. PMID: 36967724, PMCID: PMC10036236, DOI: 10.1016/j.bbiosy.2023.100074.Peer-Reviewed Original ResearchMechanical behaviorGraft failureNative tracheaMechanical failureTissue engineering technologyDepletion of proteoglycansAirway narrowingAirway replacementClinical interventionsWestern blotTracheaMajor causeTracheal graftsEngineering technologyHistological stainingTracheal replacementDifferent decellularization protocolsSignificant differencesClinical implantationTissue repairCollagen IStructural deteriorationStructural propertiesDecellularization protocolGreat potential
2018
Debugging the genetic code: non-viral in vivo delivery of therapeutic genome editing technologies
Piotrowski-Daspit AS, Glazer P, Saltzman WM. Debugging the genetic code: non-viral in vivo delivery of therapeutic genome editing technologies. Current Opinion In Biomedical Engineering 2018, 7: 24-32. PMID: 30984891, PMCID: PMC6456264, DOI: 10.1016/j.cobme.2018.08.002.Peer-Reviewed Original ResearchGenome editingNon-viral delivery methodsCRISPR/Cas9 systemGenome engineering technologiesGenome editing technologyTherapeutic genome editingPeptide nucleic acidSpecific cell typesGenetic codeVivo deliveryCas9 systemEditing technologyEfficient deliveryGenomic mutationsCell typesPolymeric vehiclesFuture outlookDisease phenotypePrecise technologyEngineering technologyDelivery methodsNucleic acidsCell culturesEditingHereditary disease
2015
Overcoming Challenges in Engineering the Genetic Code
Lajoie M, Söll D, Church G. Overcoming Challenges in Engineering the Genetic Code. Journal Of Molecular Biology 2015, 428: 1004-1021. PMID: 26348789, PMCID: PMC4779434, DOI: 10.1016/j.jmb.2015.09.003.Peer-Reviewed Original Research
2014
Comparison of a Closed System to a Standard Open Technique for Preparing Tissue-Engineered Vascular Grafts
Kurobe H, Maxfield MW, Naito Y, Cleary M, Stacy MR, Solomon D, Rocco KA, Tara S, Lee AY, Sinusas AJ, Snyder EL, Shinoka T, Breuer CK. Comparison of a Closed System to a Standard Open Technique for Preparing Tissue-Engineered Vascular Grafts. Tissue Engineering Part C Methods 2014, 21: 88-93. PMID: 24866863, PMCID: PMC4291206, DOI: 10.1089/ten.tec.2014.0160.Peer-Reviewed Original Research
2011
Precise Manipulation of Chromosomes in Vivo Enables Genome-Wide Codon Replacement
Isaacs FJ, Carr PA, Wang HH, Lajoie MJ, Sterling B, Kraal L, Tolonen AC, Gianoulis TA, Goodman DB, Reppas NB, Emig CJ, Bang D, Hwang SJ, Jewett MC, Jacobson JM, Church GM. Precise Manipulation of Chromosomes in Vivo Enables Genome-Wide Codon Replacement. Science 2011, 333: 348-353. PMID: 21764749, PMCID: PMC5472332, DOI: 10.1126/science.1205822.Peer-Reviewed Original ResearchConceptsGenome engineeringSynonymous codon substitutionsGenome engineering technologiesSynthetic lethal effectMegabase scaleCodon replacementsTAA codonCodon substitutionsRecombination frequencyCodon modificationGenetic landscapeEscherichia coliGenomeChromosomesCodonPrecise changesLethal effectsPrecise manipulationEngineering technologyNucleotidesColiPhenotypeTagsModificationVascular tissue engineering: Towards the next generation vascular grafts
Naito Y, Shinoka T, Duncan D, Hibino N, Solomon D, Cleary M, Rathore A, Fein C, Church S, Breuer C. Vascular tissue engineering: Towards the next generation vascular grafts. Advanced Drug Delivery Reviews 2011, 63: 312-323. PMID: 21421015, DOI: 10.1016/j.addr.2011.03.001.Peer-Reviewed Original ResearchConceptsBone marrow-derived mononuclear cellsClinical trialsAutologous bone marrow-derived mononuclear cellsNext-generation vascular graftsMarrow-derived mononuclear cellsVascular graftsExcellent safety profileFirst clinical trialRisk of infectionBiodegradable tubular scaffoldsTissue engineering technologyPrimary graftSafety profileMononuclear cellsCardiovascular diseaseTubular scaffoldsCardiovascular surgeryGraftSynthetic vascular graftsVascular neotissue formationNeotissue formationContinued investigationTEVGsEngineering technologyTrials
2009
Advances in the Application of Technology to Epilepsy: The CIMIT/NIO Epilepsy Innovation Summit
Schachter S, Guttag J, Schiff S, Schomer D, Contributors S. Advances in the Application of Technology to Epilepsy: The CIMIT/NIO Epilepsy Innovation Summit. Epilepsy & Behavior 2009, 16: 3-46. PMID: 19780225, PMCID: PMC8118381, DOI: 10.1016/j.yebeh.2009.06.028.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnticonvulsantsBrain MappingChildDrug ResistanceElectric Stimulation TherapyElectroencephalographyEngineeringEpilepsyHumansMagnetic Resonance ImagingMedical Laboratory ScienceMicroelectrodesNanoparticlesNeuronsNeurosurgeryNeurotoxinsPredictive Value of TestsSeizuresSpectroscopy, Near-InfraredTomography, Emission-Computed, Single-PhotonTomography, OpticalTranscranial Magnetic StimulationConceptsTreatment systemEvaluation of patientsTreatment of patientsGroup of cliniciansEpilepsy surgeryEngineering technologyFurther technological developmentEpilepsySeizure onset detectionPatientsEngineersSeizure predictionTechnologyApplicationsOnset detectionSurgeryCliniciansPhysiciansUnmetDiagnosis
1994
The ENCEL system: a somatic cell protein delivery system.
Squinto S, Madri J, Kennedy S, Springhorn J. The ENCEL system: a somatic cell protein delivery system. In Vivo 1994, 8: 771-80. PMID: 7727724.Peer-Reviewed Original ResearchConceptsGene therapySuccessful gene therapyGene delivery vehiclesTherapeutic gene productsProtein delivery systemDelivery vehiclesTherapeutic proteinsUnique biological propertiesForeign genesSystemic deliveryDelivery systemDimensional culture systemsEngineering technologyPrime requirementSustained expressionBiological propertiesSomatic cellsSmall volumeCapillary-like structuresUnigraftSurface volumeTechnologyCulture systemDeliveryWide variety
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