2006
Bone Density Interpretation and Relevance in Caucasian Children Aged 9–17 Years of Age: Insights From a Population-Based Fracture Study
Jones G, Ma D, Cameron F. Bone Density Interpretation and Relevance in Caucasian Children Aged 9–17 Years of Age: Insights From a Population-Based Fracture Study. Journal Of Clinical Densitometry 2006, 9: 202-209. PMID: 16785082, DOI: 10.1016/j.jocd.2006.02.004.Peer-Reviewed Original ResearchConceptsBone mineral apparent densityBone mineral densityBone mineral contentFracture riskBone densityBone areaPopulation-based case-control studyUpper limb fracture riskZ-scoreSpine bone mineral densityUpper limb fracturesSpine bone mineral apparent densityCase-control studySpecific z-scoresBone density measurementsYears of ageAge-specific z-scoresUncertain clinical significanceForearm fracturesLimb fracturesChildren Aged 9BMD sitesClinical endpointsMineral densityClinical significance
2004
Risk-taking, coordination and upper limb fractures in children: a population based case-control study
Ma D, Morley R, Jones G. Risk-taking, coordination and upper limb fractures in children: a population based case-control study. Osteoporosis International 2004, 15: 633-638. PMID: 14735299, DOI: 10.1007/s00198-003-1579-9.Peer-Reviewed Original ResearchConceptsUpper limb fracturesDual-energy X-ray absorptiometryCase-control studyDynamic balance scoresLimb fracturesFracture riskForearm fracturesBone massMotor coordinationBalance scoresFracture siteEnergy X-ray absorptiometryFracture prevention strategiesInterview-administered questionnaireUpper arm fracturesX-ray absorptiometryRisk-taking behaviorHand fracturesMetacarpal morphometryArm fracturesDynamic balancePrevention strategiesFracture casesMovement ABCUpper arm
2003
Television, Computer, and Video Viewing; Physical Activity; and Upper Limb Fracture Risk in Children: A Population‐Based Case Control Study*
MA D, Jones G. Television, Computer, and Video Viewing; Physical Activity; and Upper Limb Fracture Risk in Children: A Population‐Based Case Control Study*. Journal Of Bone And Mineral Research 2003, 18: 1970-1977. PMID: 14606509, DOI: 10.1359/jbmr.2003.18.11.1970.Peer-Reviewed Original ResearchConceptsPopulation-based case-control studyLevels of physical activityPhysical activityUpper limb fracture riskCase-control studyForearm fracture riskUpper limb fracturesSports participationMetacarpal morphometryFracture riskLimb fracturesEffects of physical activityGender-specific risk estimateForearm fracturesDecreased riskAssociated with wristInterviewer administered questionnaireDose-response associationControlled studiesHigh-risk sport participantsDose-dependent associationDecreased wristGender-matched pairsYears of ageIndividual sportsThe Association between Bone Mineral Density, Metacarpal Morphometry, and Upper Limb Fractures in Children: A Population-Based Case-Control Study
Ma D, Jones G. The Association between Bone Mineral Density, Metacarpal Morphometry, and Upper Limb Fractures in Children: A Population-Based Case-Control Study. The Journal Of Clinical Endocrinology & Metabolism 2003, 88: 1486-1491. PMID: 12679427, DOI: 10.1210/jc.2002-021682.Peer-Reviewed Original ResearchConceptsUpper limb fracturesBone mineral apparent densityCase-control studyBone mineral densityMetacarpal indexLimb fracturesForearm fracturesMineral densityBone massPopulation-based case-control studyDXA measuresAreal bone mineral densitySpine bone mineral apparent densityRisk of fractureDual-energy absorptiometryMetacarpal morphometryCortical widthFracture casesHand radiographsWristSignificant predictorsMultivariate modelingChildrenAssociationFractures