2024
Neural correlates of altered emotional responsivity to infant stimuli in mothers who use substances
McCurdy L, Yip S, Worhunsky P, Zhai Z, Kim S, Strathearn L, Potenza M, Mayes L, Rutherford H. Neural correlates of altered emotional responsivity to infant stimuli in mothers who use substances. Journal Of Psychiatric Research 2024, 171: 126-133. PMID: 38277872, PMCID: PMC10922955, DOI: 10.1016/j.jpsychires.2024.01.024.Peer-Reviewed Original ResearchMeSH KeywordsBrainChildEmotionsFemaleHumansInfantMagnetic Resonance ImagingMaternal BehaviorMother-Child RelationsMothersConceptsResponses to infant stimuliInfant stimuliMaternal behaviorAffective processesBrain regionsPsychological processesEmotional responsesFunctional magnetic resonance imagingPotential neural targetsInfant emotional expressionsMaternal emotional responsivenessSubstance-use statusAssociated with difficultiesSocial-emotional developmentInfant social-emotional developmentMaternal substance useInfant facesCognitive processesImprove child outcomesEmotional expressionEmotional intensityNeural targetsSubstance useGroups of mothersChild outcomes
2022
Quantitative MRI Characterization of the Extremely Preterm Brain at Adolescence: Atypical versus Neurotypical Developmental Pathways
McNaughton R, Pieper C, Sakai O, Rollins J, Zhang X, Kennedy D, Frazier J, Douglass L, Heeren T, Fry R, O'Shea T, Kuban K, Jara H, Rollins J, Shah B, Singh R, Vaidya R, Van Marter L, Martin C, Ware J, Rollins C, Cole C, Perrin E, Sakai C, Bednarek F, Frazier J, Ehrenkranz R, Benjamin J, Montgomery A, O'Shea T, Washburn L, Gogcu S, Bose C, Warner D, O'Shea T, Engelke S, Higginson A, Higginson J, Bear K, Poortenga M, Pastyrnak S, Karna P, Paneth N, Lenski M, Schreiber M, Hunter S, Msall M, Batton D, Klarr J, Lee Y, Obeid R, Christianson K, Klein D, Wagner K, Pimental M, Hallisey C, Coster T, Dolins M, Mittleman M, Haile H, Rohde J, Nylen E, Neger E, Mattern K, Ma C, Toner D, Vitaro E, Venuti L, Powers B, Foley A, Sacco T, Williams J, Romano E, Henry C, Hiatt D, Peters N, Brown P, Ansusinha E, Smith J, Yang N, Bose G, Wereszczak J, Bernhardt J, Adams J, Wilson D, Darden-Saad N, Williams B, Jones E, Sutton D, Rathbun J, Fagerman S, Boshoven W, Johnson J, James B, Miras K, Solomon C, Weiland D, Yoon G, Ramoskaite R, Wiggins S, Washington K, Martin R, Prendergast B, Lynch E, Kring B, Smith A, McQuiston S, Butler S, Wilson R, McGhee K, Lee P, Asgarian A, Sadhwani A, Henson B, Keller C, Walkowiak J, Barron S, Miller A, Dessureau B, Wood M, Damon-Minow J, Romano E, Mayes L, Tsatsanis K, Chawarska K, Kim S, Dieterich S, Bearrs K, Waldrep E, Friedman J, Hounshell G, Allred D, Helms R, Whitley L, Stainback G, Bostic L, Jacobson A, McKeeman J, Meyer E, Price J, Lloyd M, Plesha-Troyke S, Scott M, Solomon K, Brooklier K, Vogt K. Quantitative MRI Characterization of the Extremely Preterm Brain at Adolescence: Atypical versus Neurotypical Developmental Pathways. Radiology 2022, 304: 419-428. PMID: 35471112, PMCID: PMC9340244, DOI: 10.1148/radiol.210385.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAutism Spectrum DisorderBrainChildFemaleHumansInfant, Extremely PrematureInfant, NewbornMagnetic Resonance ImagingMaleProspective StudiesProtonsConceptsWhite matterPerinatal white matter injuryExtremely preterm birthsProspective multicenter studyWhite matter injuryPreterm birthCerebral palsyMRI evaluationMulticenter studyClinical correlatesNeurocognitive outcomesHigh riskCerebrospinal fluidQuantitative MRI parametersCognitive impairmentMRI biomarkersGray matterMRI parametersCSF volumeBrain developmentModerate negative associationAdolescentsBoysGirlsAutism spectrum disorder