2024
Progression of Femoral Osteolytic Metastases after Intramedullary Nailing and Subsequent Salvage Techniques
Jiang W, Latich I, Lindskog D, Friedlaender G, Lee F. Progression of Femoral Osteolytic Metastases after Intramedullary Nailing and Subsequent Salvage Techniques. Cancers 2024, 16: 2812. PMID: 39199585, PMCID: PMC11352437, DOI: 10.3390/cancers16162812.Peer-Reviewed Original ResearchPre-existing lesionsOsteolytic metastasesIntramedullary nailingCancer progressionTwo-week postoperative follow-upFollow-upSalvage techniqueFunction scoresRadiation-resistant tumorsPoor surgical candidacyPostoperative follow-upNail failureTransport of cancer cellsPostoperative radiationSurgical salvageCombined painSingle-institutionSurgical outcomesIntramedullary nail insertionPathological fracturesRetrospective studySurgical candidacyAdult patientsPercutaneous salvageOsteolytic lesions
2023
Bone Mass Changes Following Percutaneous Radiofrequency Ablation, Osteoplasty, Reinforcement, and Internal Fixation of Periacetabular Osteolytic Metastases
Jiang W, Caruana D, Dussik C, Conway D, Latich I, Chapiro J, Lindskog D, Friedlaender G, Lee F. Bone Mass Changes Following Percutaneous Radiofrequency Ablation, Osteoplasty, Reinforcement, and Internal Fixation of Periacetabular Osteolytic Metastases. Journal Of Clinical Medicine 2023, 12: 4613. PMID: 37510728, PMCID: PMC10380351, DOI: 10.3390/jcm12144613.Peer-Reviewed Original ResearchPercutaneous radiofrequency ablationBone mass changesCT scanMedian survivalHounsfield unitsOsteolytic metastasesRadiofrequency ablationBone massCancer-induced bone lossSuperior median survivalAvailable CT scansThree-dimensional volumetric analysisInternal screw fixationPeriacetabular areaPercutaneous stabilizationBone lossInternal fixationSingle institutionOrthopedic interventionsScrew fixationPatientsMonthsVolumetric analysisSurvivalScansComparison of Percutaneous Interventional Ablation-Osteoplasty-Reinforcement-Internal Fixation (AORIF), Long Intramedullary Nailing, and Hemiarthroplasty for the Treatment of Focal Metastatic Osteolytic Lesions in the Femoral Head and Neck
Jiang W, Friedlaender G, Lindskog D, Latich I, Lee F. Comparison of Percutaneous Interventional Ablation-Osteoplasty-Reinforcement-Internal Fixation (AORIF), Long Intramedullary Nailing, and Hemiarthroplasty for the Treatment of Focal Metastatic Osteolytic Lesions in the Femoral Head and Neck. CardioVascular And Interventional Radiology 2023, 46: 649-657. PMID: 37052716, DOI: 10.1007/s00270-023-03425-x.Peer-Reviewed Original ResearchConceptsOsteolytic lesionsFemoral headSurgical complicationsRevision proceduresLong intramedullary nailingResultsSixty-seven patientsPost-operative complicationsEffective alternative treatmentTraditional surgical approachesAmbulatory scoreCombined painPrimary outcomeMedical complicationsMetastatic lesionsOncologic careRetrospective studyIntramedullary nailingSurgical approachFunction scoresNeck lesionsEarly improvementIM groupHemiarthroplastyComparative efficacyAlternative treatmentPercutaneous Ablation, Osteoplasty, Reinforcement, and Internal Fixation for Pain and Ambulatory Function in Periacetabular Osteolytic Malignancies.
Dussik C, Toombs C, Alder K, Yu K, Berson E, Ibe I, Li F, Lindskog D, Friedlaender G, Latich I, Lee F. Percutaneous Ablation, Osteoplasty, Reinforcement, and Internal Fixation for Pain and Ambulatory Function in Periacetabular Osteolytic Malignancies. Radiology 2023, 307: e221401. PMID: 36916888, DOI: 10.1148/radiol.221401.Peer-Reviewed Original ResearchConceptsOsteolytic neoplasmAmbulatory functionInternal fixationEastern Cooperative Oncology Group scoreIndex scoreConversion hip arthroplastyRetrospective observational studySurgical site infectionKaplan-Meier analysisLong-term painQuality of lifeLong-term improvementWilcoxon signed-rank testNonambulatory patientsSecondary outcomesPrimary outcomeSite infectionOncologic careECOG scorePercutaneous ablationPeriacetabular metastasisProtrusio acetabuliFunctional improvementSigned-rank testClinical data
2021
Comparative Outcomes Between Osteosarcoma and Pediatric Soft Tissue Sarcomas Of Bone: A National Cancer Database Analysis
Yu K, Cahill S, Toombs C, Lindskog D. Comparative Outcomes Between Osteosarcoma and Pediatric Soft Tissue Sarcomas Of Bone: A National Cancer Database Analysis. Pediatrics 2021, 147: 784-786. DOI: 10.1542/peds.147.3ma8.784.Peer-Reviewed Original ResearchComparative Outcomes Between Osteosarcoma and Pediatric Soft Tissue Sarcomas Of Bone: A National Cancer Database Analysis
Yu K, Cahill S, Toombs C, Lindskog D. Comparative Outcomes Between Osteosarcoma and Pediatric Soft Tissue Sarcomas Of Bone: A National Cancer Database Analysis. 2021, 784-786. DOI: 10.1542/peds.147.3_meetingabstract.784.Peer-Reviewed Original Research
2018
Predictors of Lymph Node Involvement by Soft Tissue Sarcoma: An Analysis of the National Cancer Database (NCDB)
Miccio J, Jairam V, Gao S, Augustyn A, Oladeru O, Onderdonk B, Costa J, Han D, Khan S, Friedlaender G, Lindskog D, Deshpande H, Tara H, Osborn H, Roberts K, Patel K. Predictors of Lymph Node Involvement by Soft Tissue Sarcoma: An Analysis of the National Cancer Database (NCDB). International Journal Of Radiation Oncology • Biology • Physics 2018, 102: e335. DOI: 10.1016/j.ijrobp.2018.07.1028.Peer-Reviewed Original ResearchImmuno-oncologic Approach to Musculoskeletal Tumors
Ibe I, Sahlstrom A, Nguyen M, Lindskog D, Friedlaender G, Lee F. Immuno-oncologic Approach to Musculoskeletal Tumors. Techniques In Orthopaedics 2018, 33: 140-147. DOI: 10.1097/bto.0000000000000305.Peer-Reviewed Original ResearchImmune systemImmuno-oncologic therapiesSoft tissue sarcomasHost immune surveillanceActive immune responseTreatment of boneImmune therapyTumor burdenTissue sarcomasTreatment of cancerTreatment optionsMusculoskeletal tumorsComprehensive careImproved outcomesImmune surveillanceImmune responseOrthopedic oncologyMalignant cellsImmunotherapyCancer cellsPrecision medicineDistant sitesPatientsUnderlying mechanismTherapy
2017
Chapter 204: Megaprostheses for Reconstruction following Tumor Resection about the knee.
Lindskog, DM & O’Connor MI; In Insall & Scott: Surgery of the Knee 6th Edition, Elsevier, 2018Peer-Reviewed Original Research
2016
Bilateral atypical femur fractures without bisphosphonate exposure
Szolomayer LK, Ibe IK, Lindskog DM. Bilateral atypical femur fractures without bisphosphonate exposure. Skeletal Radiology 2016, 46: 241-247. PMID: 27900455, DOI: 10.1007/s00256-016-2526-0.Peer-Reviewed Original ResearchConceptsAtypical femur fracturesSubtrochanteric femur fracturesFemur fracturesCommon radiographic featuresLateral cortical thicknessBisphosphonate exposureBisphosphonate medicationBisphosphonate useProphylactic treatmentRadiographic featuresMedical historyFemoral cortexAtypical featuresCortical thicknessFracture typeContralateral femurSubsequent treatmentTransverse fracturesMedicationsPatientsOnly causeFracturesTreatmentInjuryCortexLeiomyoma of the Foot and Ankle: A Case Series
Szolomayer LK, Talusan PG, Chan WF, Lindskog DM. Leiomyoma of the Foot and Ankle: A Case Series. Foot & Ankle Specialist 2016, 10: 270-273. PMID: 27654461, DOI: 10.1177/1938640016670243.Peer-Reviewed Original ResearchCase of a Missed Giant Cell Tumor of Bone: An Opportunity to Observe its Natural History Disease.
Russo GS, Rubio DR, Yacob A, Lindskog DM, Alomari AK, Friedlaender GE. Case of a Missed Giant Cell Tumor of Bone: An Opportunity to Observe its Natural History Disease. Connecticut Medicine 2016, 80: 399-403. PMID: 29782126.Peer-Reviewed Case Reports and Technical NotesConceptsGiant cell tumorAnterior cruciate ligamentCell tumorsIncidental findingRoutine preoperative imagingPre-operative MRIInitial MRIPreoperative imagingSecond MRIMetaphyseal lesionsCruciate ligamentEnlarged massBenign neoplasmsRetrospective evaluationNatural historyTumorsYoung womenHistory diseaseMRIBoneLesionsPainPatientsNeoplasmsHistology
2011
Pathologic fractures through benign bone lesions in children and adolescents
Cruz A, Lindskog D. Pathologic fractures through benign bone lesions in children and adolescents. Current Orthopaedic Practice 2011, 22: 351-361. DOI: 10.1097/bco.0b013e31822327bd.Peer-Reviewed Original Research
2009
Evaluation of bone mineral density and metabolic abnormalities associated with low-energy hip fractures
Oetgen M, Miki R, Smart L, Lindskog D. Evaluation of bone mineral density and metabolic abnormalities associated with low-energy hip fractures. Current Orthopaedic Practice 2009, 20: 674-681. DOI: 10.1097/bco.0b013e3181ad4b0c.Peer-Reviewed Original ResearchLow-energy hip fracturesBone density T-scoreLow-energy hipLow bone densityMetabolic abnormalitiesHip fractureBone densityT-scoreVitamin DD levelsMetabolic evaluationPatient populationCalcium levelsFemoral neck T-scoreConclusions Most patientsSevere metabolic abnormalitiesParathyroid hormone levelsPercent of patientsVitamin D levelsBone density scanBone mineral densityBone density evaluationBone density valuesEvaluation of osteoporosisEffective screening protocol
2008
Orthopaedic Management Improves the Early Rate of Osteoporosis Treatment After Hip Fracture: A Randomized Clinical Trial
Miki R, Oetgen M, Kirk J, Insogna K, Lindskog D. Orthopaedic Management Improves the Early Rate of Osteoporosis Treatment After Hip Fracture: A Randomized Clinical Trial. Journal Of Clinical Densitometry 2008, 11: 463. DOI: 10.1016/j.jocd.2008.05.069.Peer-Reviewed Original Research
2005
Musculoskeletal, Integument, Breast
Marcus R, DiCaprio M, Lindskog D, McGrath B, Gamble K, Scarborough M. Musculoskeletal, Integument, Breast. EJC Paediatric Oncology 2005, 243-269. DOI: 10.1007/3-540-26498-1_16.Peer-Reviewed Original Research
1998
Intramedullary Versus Extramedullary Fixation for the Treatment of Intertrochanteric Hip Fractures
Baumgaertner M, Curtin S, Lindskog D. Intramedullary Versus Extramedullary Fixation for the Treatment of Intertrochanteric Hip Fractures. Clinical Orthopaedics And Related Research® 1998, 348: 87-94. PMID: 9553538, DOI: 10.1097/00003086-199803000-00015.Peer-Reviewed Original ResearchMeSH KeywordsActivities of Daily LivingAdultAgedAged, 80 and overBlood Loss, SurgicalBone PlatesBone ScrewsChi-Square DistributionEquipment DesignFemaleFluoroscopyFollow-Up StudiesFracture Fixation, InternalFracture Fixation, IntramedullaryHip FracturesHumansIntraoperative ComplicationsMaleMiddle AgedProspective StudiesRadiography, InterventionalTime FactorsTreatment OutcomeConceptsIntertrochanteric fracturesHip screwLess blood lossStable fracture patternsIntertrochanteric hip fracturesLess surgical timeUnstable intertrochanteric fracturesIntramedullary hip screwHip screw groupIntramedullary hipIntraoperative complicationsBlood lossHip fractureFunctional recoveryExtramedullary fixationFluoroscopic timeSurgical timeFixation groupIntramedullary deviceScrew groupPatientsFracture patternsTreatmentFracturesScrews