2020
Recalcitrant methicillin-resistant Staphylococcus aureus infection of bone cells: Intracellular penetration and control strategies
Yu K, Song L, Kang HP, Kwon HK, Back J, Lee FY. Recalcitrant methicillin-resistant Staphylococcus aureus infection of bone cells: Intracellular penetration and control strategies. Bone And Joint Research 2020, 9: 49-59. PMID: 32435455, PMCID: PMC7229311, DOI: 10.1302/2046-3758.92.bjr-2019-0131.r1.Peer-Reviewed Original ResearchMethicillin-resistant Staphylococcus aureus (MRSA) infectionsEarly antibiotic administrationHours of injuryStandard of careStaphylococcus aureus infectionBone resident cellsEffect of cefazolinBone Joint ResAntibiotic regimensAntibiotic administrationCombined administrationAntibiotic treatmentAureus infectionProtective effectSurgical preparationMRSA growthOpen fracturesPreparation agentsDetergent susceptibilityPrimary murine osteoblastsBacterial bioburdenMRSAColony formationRifampicinBone cells
2014
A Review of Osteocyte Function and the Emerging Importance of Sclerostin
Compton JT, Lee FY. A Review of Osteocyte Function and the Emerging Importance of Sclerostin. Journal Of Bone And Joint Surgery 2014, 96: 1659-1668. PMID: 25274791, PMCID: PMC4179450, DOI: 10.2106/jbjs.m.01096.Peer-Reviewed Original ResearchConceptsBone massPhase III clinical trialsMetastatic bone diseaseOsteoporosis-related fracturesBone mineral densityBone cellsExtensive dendritic networkNormal physiologic stateSclerostin actsParathyroid hormoneInflammatory moleculesBone metabolismClinical trialsMineral densityProstaglandin E2Bone diseaseSystemic circulationOrthopedic conditionsProtein sclerostinOsseous integrationSclerostinBone cell populationsPhysiologic stateCell populationsOsteocyte function
2009
Nuclear factor of activated T cells mediates fluid shear stress- and tensile strain-induced Cox2 in human and murine bone cells
Aydemir A, Minematsu H, Gardner TR, Kim KO, Ahn JM, Lee FY. Nuclear factor of activated T cells mediates fluid shear stress- and tensile strain-induced Cox2 in human and murine bone cells. Bone 2009, 46: 167-175. PMID: 19748606, PMCID: PMC2818272, DOI: 10.1016/j.bone.2009.08.061.Peer-Reviewed Original ResearchConceptsActivated T cellsT cellsBone cellsMechanical stimulationNuclear factorPathways of inflammationCytokine gene inductionMouse bone cellsMurine bone cellsBone massCOX2 inductionCOX2 expressionStability of implantsCalvarial bone cellsOsseous integrationHost boneNuclear translocationFluid shear stressDaily activitiesStimulationTranscription factorsNovel roleImplantsNFAT2Osteoblastic lineage
2005
Zoledronate induces apoptosis in cells from fibro‐cellular membrane of unicameral bone cyst (UBC)
Yu J, Chang S, Suratwala S, Chung W, Abdelmessieh P, Lee H, Yang J, Lee F. Zoledronate induces apoptosis in cells from fibro‐cellular membrane of unicameral bone cyst (UBC). Journal Of Orthopaedic Research® 2005, 23: 1004-1012. PMID: 15921873, DOI: 10.1016/j.orthres.2005.02.012.Peer-Reviewed Original ResearchConceptsUnicameral bone cystsPeripheral blood mononuclear cellsBlood mononuclear cellsTrabecular bone cellsBone cystUBC cellsMononuclear cellsBone cellsZoledronate concentrationsIsolated peripheral blood mononuclear cellsImmunohisto/cytochemistryPercutaneous injection therapyAnti-resorptive agentsAnti-osteoclastogenic effectApoptotic fractionSTRO-1Potential therapeutic effectsPotential therapeutic roleEffect of zoledronateBenign cystic lesionsNitrogen-containing bisphosphonatesDose-dependent mannerOsteoclast-like cellsInjection therapyPathologic fracture