Featured Publications
Biomechanical restoration of metastatic cancer-induced peri-acetabular bone defects by ablation-osteoplasty-reinforcement-internal fixation technique (AORIF): To screw or not to screw?
Morris MT, Alder KD, Moushey A, Munger AM, Milligan K, Toombs C, Conway D, Lee I, Chen F, Tommasini SM, Lee FY. Biomechanical restoration of metastatic cancer-induced peri-acetabular bone defects by ablation-osteoplasty-reinforcement-internal fixation technique (AORIF): To screw or not to screw? Clinical Biomechanics 2022, 92: 105565. PMID: 34999389, DOI: 10.1016/j.clinbiomech.2021.105565.Peer-Reviewed Original ResearchConceptsCyclic loadingEnergy absorptionFinite element analysisHigh energy absorptionElement analysisBone defectsComposite boneStress relaxationSkeletal reinforcementReinforcement techniquesCement augmentation proceduresCementLoadingBone cement augmentationNumerous clinical advantagesBiomechanical testingPeriacetabular defectsFracture locationOsteolytic metastasesIntraarticular fracturesJoint preservationAcetabular augmentationCombination of screwsBiomechanical restorationFixation group
2019
Femoral and Tibial Reconstruction for Skeletal Metastases and Pathologic Fractures.
Henderson SE, Yu K, Alder KD, Ibe IK, Lee FY, Lindskog DM. Femoral and Tibial Reconstruction for Skeletal Metastases and Pathologic Fractures. Instructional Course Lectures 2019, 68: 607-612. PMID: 32032089.Peer-Reviewed Original ResearchConceptsPathologic fractureSkeletal metastasesTibial reconstructionCommon reconstructive optionsRisk of complicationsSoft tissue involvementHistory of radiationImproved patient outcomesSubsequent revision proceduresLarge skeletal defectsGoal of reconstructionSystemic therapyGoal of managementPatient outcomesSurgical reconstructionReconstructive optionsRevision proceduresEndoprosthesis implantationIntramedullary nailImplant failureLarge bone defectsMetastasisBone defectsSkeletal defectsFractures
2011
Bone Regeneration of Tibial Segmental Defect Using Isotropic-Pore Structures Hydroxyapatite/Alumina Bi-Layered Scaffold: In Vivo Pilot Study
Son J, Kim JM, Han M, Choi S, Lee F, Oh D. Bone Regeneration of Tibial Segmental Defect Using Isotropic-Pore Structures Hydroxyapatite/Alumina Bi-Layered Scaffold: In Vivo Pilot Study. Journal Of Long-Term Effects Of Medical Implants 2011, 21: 159-167. PMID: 22043974, DOI: 10.1615/jlongtermeffmedimplants.v21.i2.60.Peer-Reviewed Original ResearchConceptsBi-layer scaffoldLayered scaffoldsBi-layered scaffoldIsotropic pore structureLarge segmental defectsEnergy dispersive spectroscopyBone regenerationAlumina scaffoldsCoating techniqueDispersive spectroscopyPore sizeSegmental defectsTibia modelBone substituteTibial segmental defectInner layerAluminaElectron microscopyOuter layerBone defectsMicro-CTNew bone formationLayerScaffoldsPorosity