2021
Optimal Biomechanical Parameters for Measuring Sclerotic Chronic Graft-Versus-Host Disease
Baker L, Chen F, Cronin A, Chen H, Vain A, Jagasia M, Tkaczyk E. Optimal Biomechanical Parameters for Measuring Sclerotic Chronic Graft-Versus-Host Disease. JID Innovations 2021, 1: 100037. PMID: 34790906, PMCID: PMC8594905, DOI: 10.1016/j.xjidi.2021.100037.Peer-Reviewed Original ResearchCGVHD patientsBiomechanical parametersChronic Graft-VersusSclerotic chronic graftHost disease patientsBackward stepwise selectionChronic graftGraft-VersusSclerotic cGvHDHost diseaseUnivariable analysisTransplant controlsDisease patientsAnatomic sitesPatientsDisease severityLogistic regressionSclerotic diseaseBiomechanical studyDiscriminatory abilityLASSO regressionCharacteristic curveMyotonometerStepwise selectionDiseaseEarly success of the arthroscopic-assisted locked loop suprapectoral biceps tenodesis
Kahan J, Schneble C, Applonie R, Nicholson A, Whittall I, Talley-Bruns R, Jorgensen A, LaVette N, Moran J, Ware J, Lee F, Blaine T. Early success of the arthroscopic-assisted locked loop suprapectoral biceps tenodesis. JSES Reviews Reports And Techniques 2021, 1: 96-101. PMID: 37588143, PMCID: PMC10426584, DOI: 10.1016/j.xrrt.2021.02.003.Peer-Reviewed Original ResearchBiceps tenodesisPostoperative complicationsPopeye deformityAnterior shoulderConcomitant operative proceduresSeries of patientsYears of ageSuprapectoral biceps tenodesisPrior biomechanical studiesTenodesis proceduresSingle surgeonSurgical indicationsMuscle crampingRevision surgeryTenodesis techniquesSurgical techniqueInclusion criteriaLower incidenceOperative procedureTenodesisPatientsPainSimple sutureBiomechanical studyComplications
2018
Spring ligament tear decreases static stability of the ankle joint
Kelly M, Masqoodi N, Vasconcellos D, Fowler X, Osman WS, Elfar JC, Olles MW, Ketz JP, Flemister AS, Oh I. Spring ligament tear decreases static stability of the ankle joint. Clinical Biomechanics 2018, 61: 79-83. PMID: 30529505, DOI: 10.1016/j.clinbiomech.2018.11.011.Peer-Reviewed Original ResearchConceptsJoint reactive forcesSpring ligament injurySpring ligament tearsLigament injuryLigament tearsInjury modelTalonavicular jointInjury statesCadaveric lower legsLigament reconstructionHuman cadaveric lower legsNon-invasive methodFlatfoot deformityDeltoid ligamentSpring ligamentLower legJoint stabilityAnkle jointKnee jointBiomechanical studyLigamentLimbSignificant increaseInjuryAdvanced adult
2017
Patellofemoral Contact Pressures After Patellar Distalization: A Biomechanical Study
Yang JS, Fulkerson JP, Obopilwe E, Voss A, Divenere J, Mazzocca AD, Edgar CM. Patellofemoral Contact Pressures After Patellar Distalization: A Biomechanical Study. Arthroscopy The Journal Of Arthroscopic And Related Surgery 2017, 33: 2038-2044. PMID: 28844344, DOI: 10.1016/j.arthro.2017.06.043.Peer-Reviewed Original ResearchConceptsPatellofemoral contact pressureBlackburne-Peel ratioLateral releaseEarly flexionPatella bajaNative kneeTibial tubercle distalizationWeighted pulley systemFresh-frozen cadaveric kneesIliotibial bandMedial trochleaCadaveric kneesLateral trochleaFlexionKneeBiomechanical studyDistalizationPressure-sensitive filmOsteotomyTrochlea
2016
Clavicle Fractures are Associated With Arthritis of the Glenohumeral Joint in a Large Osteological Collection
Weinberg DS, Vallier HA, Gaumer GA, Cooperman DR, Liu RW. Clavicle Fractures are Associated With Arthritis of the Glenohumeral Joint in a Large Osteological Collection. Journal Of Orthopaedic Trauma 2016, 30: 605-611. PMID: 27525633, DOI: 10.1097/bot.0000000000000654.Peer-Reviewed Original ResearchConceptsClavicle fracturesGlenohumeral jointIpsilateral clavicle fractureDegenerative joint diseaseFuture clinical studiesLarge osteological collectionEvidence of fractureJoint contact forcesNonoperative careMale genderClinical studiesJoint diseaseLong-term consequencesLong-term effectsControl groupCadaveric skeletonsArthritisOsteoarthritisBiomechanical studyDemographic informationMultiple regression analysisRegression analysisRecent dataClavicleLateralitySpring 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 legNoninvasive 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
2008
Finite Element Evaluation of Biomechanical Changes of Lumbar Segment Implanted With an Anterior Disc After Subsidance
Kiapour A, Goel V, Lee C, Grauer J, Serhan H. Finite Element Evaluation of Biomechanical Changes of Lumbar Segment Implanted With an Anterior Disc After Subsidance. 2008, 717-718. DOI: 10.1115/sbc2008-193235.Peer-Reviewed Original Research
2001
Limited incision open techniques for distal radius fracture management
Swigart C, Wolfe S. Limited incision open techniques for distal radius fracture management. Orthopedic Clinics Of North America 2001, 32: 317-327. PMID: 11331544, DOI: 10.1016/s0030-5898(05)70252-2.Peer-Reviewed Original ResearchConceptsDistal radius fracture managementSoft tissue complicationsDistal radius fracturesSoft tissue dissectionEarly mobilizationRadius fracturesOpen techniqueFracture managementImproved outcomesTissue complicationsStable fixationTissue dissectionBiomechanical studySmall implantsComplicationsSurgeryDissectionWrist
1999
Load-displacement behavior in a distal radial fracture model. The effect of simulated healing on motion.
Wolfe SW, Lorenze MD, Austin G, Swigart CR, Panjabi MM. Load-displacement behavior in a distal radial fracture model. The effect of simulated healing on motion. Journal Of Bone And Joint Surgery 1999, 81: 53-9. PMID: 9973054, DOI: 10.2106/00004623-199901000-00008.Peer-Reviewed Original ResearchConceptsLoad-displacement behaviorFracture modelRelative motionExternal fixationPartial healingKirschner wire fixationPhysiological loadingExperimental groupKinematic deviceExternal forcesOsteotomy siteEarly removalBiomechanical studyForearm specimensOsteotomyMotionHealingCaulkAxial alignmentDistal endPresent studyFixationT-test analysisInjectionLoading
1998
Mechanism of whiplash injury
Panjabi MM, Cholewicki J, Nibu K, Grauer JN, Babat LB, Dvorak J. Mechanism of whiplash injury. Clinical Biomechanics 1998, 13: 239-249. PMID: 11415793, DOI: 10.1016/s0268-0033(98)00033-3.Peer-Reviewed Original ResearchCervical spineWhiplash traumaInjury mechanismVertebral arteryWhiplash injuryFunctional radiographyCapsular ligamentsC6-C7 levelCadaveric cervical spine specimensHuman cadaveric cervical spine specimensSpine specimensLower cervical spineWhiplash injury mechanismHuman cadaveric spine specimensCervical spine specimensAnterior injuryAnatomic alignmentCadaveric spine specimensCT scanInjuryTraumaLow levelsWhiplashBiomechanical studySpine
1993
Posterior Element Strength Six Months Postinjury in the Canine Cervical Spine
Southern E, Pelker R, Crisco J, Panjabi M. Posterior Element Strength Six Months Postinjury in the Canine Cervical Spine. Clinical Spine Surgery A Spine Publication 1993, 6: 155-161. PMID: 8504228, DOI: 10.1097/00002517-199304000-00010.Peer-Reviewed Original ResearchConceptsMaximum loadPosterior elementsExtensive surgery groupTension loadingCervical spine injuryC4-C5 levelDestructive testingRange of motionWeeks of healingDecreased stiffnessSurgery groupSham procedureSpine injuriesCanine cervical spineCervical spineIntervertebral levelSix monthsHealing periodInterspinous ligamentLoadControl valuesMotion testingBiomechanical propertiesBiomechanical studyInferior articular facetsPosterior Element Strength Six Months Postinjury in the Canine Cervical Spine.
Southern E, Pelker R, Crisco J, Panjabi M. Posterior Element Strength Six Months Postinjury in the Canine Cervical Spine. Clinical Spine Surgery A Spine Publication 1993, 6: 155. DOI: 10.1097/00024720-199304000-00010.Peer-Reviewed Original ResearchMaximum loadPosterior elementsExtensive surgery groupCervical spine injuryC4-C5 levelTension loadingDestructive testingRange of motionWeeks of healingSurgery groupSham procedureSpine injuriesDecreased stiffnessCervical spineIntervertebral levelCanine cervical spineSix monthsHealing periodInterspinous ligamentControl valuesMotion testingLoadBiomechanical studyInferior articular facetsBiomechanical properties
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