2020
Minimally Invasive Image-Guided Ablation, Osteoplasty, Reinforcement, and Internal Fixation (AORIF) for Osteolytic Lesions in the Pelvis and Periarticular Regions of Weight-Bearing Bones
Lee FY, Latich I, Toombs C, Mungur A, Conway D, Alder K, Ibe I, Lindskog D, Friedlaender G. Minimally Invasive Image-Guided Ablation, Osteoplasty, Reinforcement, and Internal Fixation (AORIF) for Osteolytic Lesions in the Pelvis and Periarticular Regions of Weight-Bearing Bones. Journal Of Vascular And Interventional Radiology 2020, 31: 649-658.e1. PMID: 32139256, DOI: 10.1016/j.jvir.2019.11.029.Peer-Reviewed Original ResearchMeSH KeywordsAblation TechniquesAdultAgedAged, 80 and overBone CementsBone NeoplasmsBone RemodelingBone ScrewsCalcaneusCementoplastyFemaleFemoral NeoplasmsFemurFracture Fixation, InternalHumansMaleMiddle AgedOsteolysisPelvic BonesPostoperative ComplicationsProspective StudiesRecovery of FunctionTibiaTime FactorsTreatment OutcomeWeight-BearingConceptsOsteolytic lesionsInternal fixationVisual analog scale pain scoreMusculoskeletal Tumor Society scoreProspective clinical cohort studyFunctional ambulation scoreOsteolytic skeletal lesionsPainful osteolytic lesionsScale pain scoresClinical cohort studyInvasive percutaneous approachWeight-bearing boneInternal fixation screwsBalloon osteoplastyPain scoresCohort studyProphylactic stabilizationSevere painSociety ScoreConsecutive patientsSurgical treatmentEarly outcomesTreatment optionsPercutaneous approachFunctional improvement
2013
Physiologic load-bearing characteristics of autografts, allografts, and polymer-based scaffolds in a critical sized segmental defect of long bone: an experimental study
Amorosa L, Lee C, Aydemir, Nizami S, Hsu A, Patel N, Gardner T, Navalgund A, Kim DG, Park S, Mao J, Lee F. Physiologic load-bearing characteristics of autografts, allografts, and polymer-based scaffolds in a critical sized segmental defect of long bone: an experimental study. International Journal Of Nanomedicine 2013, Volume 8: 1637-1643. PMID: 23637532, PMCID: PMC3639117, DOI: 10.2147/ijn.s42855.Peer-Reviewed Original ResearchConceptsAddition of hMSCsPolymer-based scaffoldsLoad-bearing characteristicsPhysiologic cyclic loadingPhase angleCritical-sized segmental defectsScaffold alone groupViscous stiffnessCyclic loadingMechanical propertiesFemoral defect modelSized segmental defectsRat femoral defect modelHuman mesenchymal stem cellsMechanical simulationsScaffold groupDifferent biomechanical characteristicsEnhanced bone formationHigh phase anglesDefect modelBiomechanical characteristicsExperimental studyHost boneStiffnessDefect repair
2008
Enhancement of Periprosthetic Bone Quality with Topical Hydroxyapatite-Bisphosphonate Composite
Suratwala SJ, Cho SK, van Raalte JJ, Park SH, Seo SW, Chang SS, Gardner TR, Lee FY. Enhancement of Periprosthetic Bone Quality with Topical Hydroxyapatite-Bisphosphonate Composite. Journal Of Bone And Joint Surgery 2008, 90: 2189-2196. PMID: 18829917, PMCID: PMC2657477, DOI: 10.2106/jbjs.g.00409.Peer-Reviewed Original ResearchConceptsPeriprosthetic bone qualityPeriprosthetic bone massSix-month groupBone qualitySix weeksOsseous integrationBone massParticle-induced periprosthetic osteolysisImplant looseningDual X-ray absorptiometryInflammatory bone lossX-ray absorptiometryMean bone areaUltra-high molecular weight polyethyleneBone lossSix-week groupUltra-high molecular weight polyethylene particlesIntramedullary nailFemoral canalMolecular weight polyethyleneControl groupPeriprosthetic osteolysisBone areaPeak pullout forceIntramedullary implants
2006
Mechanical Loading Differentially Regulates Membrane‐Bound and Soluble RANKL Availability in MC3T3‐E1 Cells
KIM DW, LEE H, KARMIN JA, LEE E, CHANG S, TOLCHIN B, LIN S, CHO SK, KWON A, AHN JM, LEE F. Mechanical Loading Differentially Regulates Membrane‐Bound and Soluble RANKL Availability in MC3T3‐E1 Cells. Annals Of The New York Academy Of Sciences 2006, 1068: 568-572. PMID: 16831954, DOI: 10.1196/annals.1346.054.Peer-Reviewed Original Research
2001
Coronal Split Fracture of the Proximal Tibia Epiphysis Through a Partially Closed Physis: A New Fracture Pattern
Patari S, Lee F, Behrens F. Coronal Split Fracture of the Proximal Tibia Epiphysis Through a Partially Closed Physis: A New Fracture Pattern. Journal Of Pediatric Orthopaedics 2001, 21: 451. PMID: 11433155, DOI: 10.1097/01241398-200107000-00007.Peer-Reviewed Original ResearchMeSH KeywordsAccidental FallsAdolescentBicyclingBiomechanical PhenomenaEpiphysesExternal FixatorsFollow-Up StudiesFracture Fixation, InternalFracture HealingFractures, ComminutedGaitHumansMaleRange of Motion, ArticularRisk FactorsTibial FracturesTomography, X-Ray ComputedTreatment OutcomeWeight-BearingConceptsCoronal split fractureProximal tibial epiphysisTibial epiphysisSplit fractureDefinitive operative fixationProximal tibia epiphysisNew fracture patternClinical unionUncommon injuryOperative fixationEpiphyseal fracturesPlain radiographyTibial plateauTibia epiphysisEpiphysisFracture patternsFracturesPatientsThree-dimensional reconstructionInjuryPhysis