2025
Articular Cartilage Injuries in Pediatric and Adolescent Patients Undergoing Medial Meniscal Ramp Lesion Repair During Primary Anterior Cruciate Ligament Reconstruction: A Multicenter Study.
Moran J, Amaral J, Tollefson L, Jones R, Dave U, Lee M, Ferrell S, LaPrade C, Katz L, Salandra J, Schenble C, Allen C, Gardner E, Jimenez A, Medvecky M, Hewett T, Verma N, Chahla J, LaPrade R, Fabricant P, McKay S. Articular Cartilage Injuries in Pediatric and Adolescent Patients Undergoing Medial Meniscal Ramp Lesion Repair During Primary Anterior Cruciate Ligament Reconstruction: A Multicenter Study. The American Journal Of Sports Medicine 2025, 3635465251366440. PMID: 40952167, DOI: 10.1177/03635465251366440.Peer-Reviewed Original ResearchMedial meniscal ramp lesionsDelayed ACL reconstructionTime of surgeryAdolescent patientsArticular cartilage injuryACL reconstructionRisk factorsMulticenter studyPrimary anterior cruciate ligament reconstructionMedial femoral condyleCartilage injuryInternational Cartilage Repair Society classificationAnterior cruciate ligament (ACL) tearsPatients aged <Meniscal ramp lesionsHigh-risk patientsRamp lesion repairAnterior cruciate ligament reconstructionPrimary ACL reconstructionRetrospective cohort studyMultivariate logistic regression modelCruciate ligament reconstructionLevel of evidenceRed-red zoneAssociated with articular cartilage damage
2022
A Novel MRI Mapping Technique for Evaluating Bone Bruising Patterns Associated With Noncontact ACL Ruptures
Moran J, Katz LD, Schneble CA, Li DT, Kahan JB, Wang A, Porrino J, Fosam A, Cheng R, Jokl P, Hewett TE, Medvecky MJ. A Novel MRI Mapping Technique for Evaluating Bone Bruising Patterns Associated With Noncontact ACL Ruptures. Orthopaedic Journal Of Sports Medicine 2022, 10: 23259671221088936. PMID: 35480066, PMCID: PMC9036340, DOI: 10.1177/23259671221088936.Peer-Reviewed Original ResearchNoncontact ACL injuryAnterior cruciate ligamentBone bruise patternsIntraclass correlation coefficientBone bruiseACL injuryTibial plateauFemoral condylePrevious knee injuryMechanism of injuryAnterior tibial translationBruise patternsCross-sectional studyLevel of evidenceInternal tibial rotationLateral femoral condyleNoncontact ACL ruptureLateral tibial plateauMedial tibial plateauPosterior regionMedial femoral condyleIntrarater intraclass correlation coefficientsContusion patternACL ruptureACL reconstruction
2021
The Medial Femoral Condyle Flap in the Pediatric Patient.
Colen DL, Kania KE, Othman S, Levin LS, Reece EM, Pederson WC, Innocenti M, Kovach SJ. The Medial Femoral Condyle Flap in the Pediatric Patient. Plastic & Reconstructive Surgery 2021, 147: 613e-622e. PMID: 33776035, DOI: 10.1097/prs.0000000000007778.Peer-Reviewed Original ResearchConceptsMedial femoral condyle flapMedial femoral condyle free flapFree flapPathologic fracturePediatric patientsMulti-institutional retrospective reviewCLINICAL QUESTION/LEVELPediatric patient populationDistal femoral physisSkeletal reconstructionMedial femoral condyleSkeletal defectsImmature patientsLast patientClinical outcomesRetrospective reviewPediatric populationBony unionPatient populationPhyseal arrestFemoral physisLength discrepancyFluoroscopic guidanceOperative techniqueInclusion criteria
2014
Cartilage MRI relaxation times after arthroscopic partial medial meniscectomy reveal localized degeneration
Souza RB, Wu SJ, Morse LJ, Subburaj K, Allen CR, Feeley BT. Cartilage MRI relaxation times after arthroscopic partial medial meniscectomy reveal localized degeneration. Knee Surgery, Sports Traumatology, Arthroscopy 2014, 23: 188-197. PMID: 24792070, DOI: 10.1007/s00167-014-2997-2.Peer-Reviewed Original ResearchConceptsArthroscopic partial meniscectomyPartial meniscectomyWeight-bearing regionsTibiofemoral kinematicsArthroscopic partial medial meniscectomyPost-surgical MRIPartial medial meniscectomyLateral tibial plateauCartilage relaxation timesMedial femoral condyleAbnormal tibiofemoral kinematicsMRI relaxation timesT2 relaxation time mappingSignificant elevationMedial meniscectomyPosterior hornTibial plateauEarly changesTimes elevationMeniscectomyFemoral condyleKneeMonthsResectionT-test
2012
Knee and Tibia And Fibula Shafts
Lischuk A, Smitaman E, Menn K, Haims A. Knee and Tibia And Fibula Shafts. 2012, 253-288. DOI: 10.1002/9781118551691.ch8.Peer-Reviewed Original ResearchTibial plateau fracturesPlateau fracturesTibial plateauHigh velocity motor vehicle accidentsFemoral condyleLateral collateral ligament complex injuryProximal fibular fractureDistal femoral fracturesLow-energy fallsHigh-energy traumaMotor vehicle accidentsLateral femoral condyleLateral tibial plateauMedial tibial plateauMedial femoral condyleRadiographs of kneesKnee traumaFibular fractureKnee dislocationPatellar fracturesFemoral fracturesComplex injuriesIndirect traumaPatellar dislocationFibula shaft
2001
Potential complication of bioabsorbable screw fixation for osteochondritis dissecans of the knee
Scioscia T, Giffin J, Allen C, Harner C. Potential complication of bioabsorbable screw fixation for osteochondritis dissecans of the knee. Arthroscopy The Journal Of Arthroscopic And Related Surgery 2001, 17: 1-5. PMID: 11172259, DOI: 10.1053/jars.2001.17995.Peer-Reviewed Original ResearchConceptsBioabsorbable screw fixationOsteochondritis dissecansScrew fixationCartilage damageIntra-articular loose bodiesMedial femoral condyleAcute episodePotential complicationsArthroscopic examinationBioabsorbable screwsLoose bodiesTibial plateauFemoral condyleCase 1DissecansKneeScrew headScrewsFixationPainComplicationsPatientsSurgeryEffusionDamage
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