2021
Tendon grafts with preserved muscle demonstrate similar biomechanical properties to tendon grafts stripped of muscular attachments: a biomechanical evaluation in a porcine model
Funchal LFZ, Astur DC, Pizzolatti ALA, Grimaldi AP, Jimenez AE, Moré ADO, de Mello Roesler CR, Cohen M. Tendon grafts with preserved muscle demonstrate similar biomechanical properties to tendon grafts stripped of muscular attachments: a biomechanical evaluation in a porcine model. Journal Of Experimental Orthopaedics 2021, 8: 57. PMID: 34341872, PMCID: PMC8329107, DOI: 10.1186/s40634-021-00375-6.Peer-Reviewed Original ResearchYield loadMaximum loadAutograft tendonsTendon graftBiomechanical propertiesMaterial testing machineSimilar biomechanical propertiesUltimate loadMechanical propertiesAxial strainTesting machinePreservation of muscleFailure patternsSignificant differencesBiomechanical evaluationLoadMuscle tissueStiffnessContralateral tendonHuman autograftsGroup 2Group 1Muscle tendonLevel IIIPorcine model
2016
Noninvasive Measurement of Normal Foot and Ankle Joint Reaction Force
Ho B, Maqsoodi N, Vasconcellos D, Osman W, Fowler X, Elfar J, Olles M, Ketz J, Flemister A, Oh I. Noninvasive Measurement of Normal Foot and Ankle Joint Reaction Force. Foot & Ankle Orthopaedics 2016, 1: 2473011416s00085. DOI: 10.1177/2473011416s00085.Peer-Reviewed Original ResearchForce-displacement curvesJoint reaction forcesCompression forceTensile testing machineReaction forcesPressure sensorTesting machineBest-fit polynomialsInflection pointJoint structureSoft tissue structuresBiomechanical studyDisplacementSoft tissueBiomechanical assessmentPinJointsForceAnkle joint reaction forceDistraction forceFixation devicesHigh reproducibilityPressure changesTissue structureCalcaneocuboid joint
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