2020
Distinct vasculotropic versus osteotropic features of S. agalactiae versus S. aureus implant‐associated bone infection in mice
Masters EA, Hao SP, Kenney HM, Morita Y, Galloway CA, de Mesy Bentley K, Ricciardi BF, Boyce BF, Schwarz EM, Oh I. Distinct vasculotropic versus osteotropic features of S. agalactiae versus S. aureus implant‐associated bone infection in mice. Journal Of Orthopaedic Research® 2020, 39: 389-401. PMID: 33336806, PMCID: PMC7882123, DOI: 10.1002/jor.24962.Peer-Reviewed Original ResearchConceptsS. aureus osteomyelitisBone infectionS. agalactiaeAnimal modelsS. aureus bone infectionImplant looseningSoft tissueImplant-associated osteomyelitisQuantitative animal modelCortical boneAdjacent soft tissuesGroup B streptococciS. aureusSeptic implant looseningS. agalactiae infectionAssessment of miceS. aureus virulenceGreater body weightDevastating complicationClinical featuresAbscess formationLocal inflammationAggressive osteolysisLess osteolysisPreclinical models
2016
Spring Ligament Tear Decreases the Ankle and Talonavicular Joint Reaction Forces
Oh I, Kelly M, Maqsoodi N, Vasconcellos D, Osman W, Fowler X, Elfar J, Olles M. Spring Ligament Tear Decreases the Ankle and Talonavicular Joint Reaction Forces. Foot & Ankle Orthopaedics 2016, 1: 2473011416s00072. DOI: 10.1177/2473011416s00072.Peer-Reviewed Original ResearchSpring ligament tearsLigament reconstructionLigament tearsTalonavicular jointInjury modelJoint reaction forcesTibiocalcaneonavicular ligamentBiomechanical studyMedial ankle instabilityAdjacent soft tissuesSpring ligament reconstructionPrevious anatomic studiesCadaveric lower legsFirst biomechanical studyClinical efficacyHuman cadaveric lower legsValgus deformitySemitendinosus allograftDistal tibiaFlatfoot deformityDeltoid ligamentAnkle instabilityNavicular tuberosityAnatomic studyLower leg