2024
Effects of child trauma screening on trauma‐informed multidisciplinary evaluation and service planning in the child welfare system
Connell C, Swanson A, Genovese M, Lang J. Effects of child trauma screening on trauma‐informed multidisciplinary evaluation and service planning in the child welfare system. Journal Of Traumatic Stress 2024, 37: 337-343. PMID: 38193592, DOI: 10.1002/jts.23001.Peer-Reviewed Original ResearchRecord reviewMultidisciplinary evaluationTrauma screeningLong-term sequelaeRetrospective record reviewPrevalence of exposureEvidence-based interventionsTrauma-focused servicesTrauma-related symptomsProvider recommendationEarly identificationPTE exposureService planningChild welfare systemRandom sampleScreening procedureFormal screening procedureTraumatic eventsChild maltreatmentSignificant improvementChildrenExposureScreeningScreening processLt
2014
The impact of exposure-biased sampling designs on detection of gene–environment interactions in case–control studies with potential exposure misclassification
Stenzel S, Ahn J, Boonstra P, Gruber S, Mukherjee B. The impact of exposure-biased sampling designs on detection of gene–environment interactions in case–control studies with potential exposure misclassification. European Journal Of Epidemiology 2014, 30: 413-423. PMID: 24894824, PMCID: PMC4256150, DOI: 10.1007/s10654-014-9908-1.Peer-Reviewed Original ResearchConceptsG-E interactionsExposure informationDetection of gene-environment interactionsPrevalence of exposureGene-environment interactionsSampling designCase-control studyRandom selection of subjectsPerformance of sampling designsCase-onlyExposure prevalenceJoint testExposure misclassificationCase-controlRare exposuresMarginal associationSelection of subjectsType I errorEmpirical simulation studyIdeal sampling schemesJoint effectsPrevalenceRandom selectionG-EMisclassificationEndogenous and exogenous hormone exposure and the risk of meningioma in men.
Schildkraut JM, Calvocoressi L, Wang F, Wrensch M, Bondy ML, Wiemels JL, Claus EB. Endogenous and exogenous hormone exposure and the risk of meningioma in men. Journal Of Neurosurgery 2014, 120: 820-6. PMID: 24484233, PMCID: PMC4386752, DOI: 10.3171/2013.12.jns131170.Peer-Reviewed Original ResearchConceptsBody mass indexMeningioma riskOdds ratioHigher Body Mass IndexExogenous hormone exposureMultivariate logistic regressionRelated risk factorsConfidence intervalsRisk of meningiomaPrevalence of exposureConsiderable morbidityMale patientsMass indexRisk factorsEndogenous estrogensReduced riskHormonal factorsHormone exposureIntracranial meningiomasExogenous exposureMeningiomasLogistic regressionUse of soyMenRisk
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