Andersons pediatric cardiology 2056
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syndrome.PediatrRes.2013;74:61–67.
42.WuJ,AwateSP,LichtDJ,etal.Assessmentof
MRI-basedautomatedfetalcerebralcortical
foldingmeasuresinpredictionofgestationalage
inthethirdtrimester.AJNRAmJNeuroradiol.
2015;36:1369–1374.
43.EasleyRB,MarinoBS,JenningsJ,etal.
Impairedcerebralautoregulationandelevation
inplasmaglialfibrillaryacidicproteinlevel
duringcardiopulmonarybypasssurgeryfor
CHD.CardiolYoung.2018;28:55–65.
44.AndropoulosDB,HunterJV,NelsonDP,etal.
Brainimmaturityisassociatedwithbraininjury
beforeandafterneonatalcardiacsurgerywith
high-flowbypassandcerebraloxygenation
monitoring.JThoracCardiovascSurg.
2010;139:543–556.
45.HeinrichsAKM,HolschenA,KringsT,etal.
Neurologicandpsycho-intellectualoutcome
relatedtostructuralbrainimaginginadolescents
andyoungadultsafterneonatalarterialswitch
operationfortranspositionofthegreatarteries.J
ThoracCardiovascSurg.2014;148:2190–2199.
46.BecaJ,GunnJK,ColemanL,etal.Newwhite
matterbraininjuryafterinfantheartsurgeryis
associatedwithdiagnosticgroupandtheuseof
circulatoryarrest.Circulation.2013;127:971–
979.
47.BackSA,LuoNL,BorensteinNS,VolpeJJ,
KinneyHC.Arrestedoligodendrocytelineage
progressionduringhumancerebralwhitematter
development:dissociationbetweenthetimingof
progenitordifferentiationandmyelinogenesis.J
NeuropatholExpNeurol.2002;61:197–211.
48.BackSA.Whitematterinjuryinpreterminfant:
pathologyandmechanism.ActaNeuropathol.
2017;134:331–349.
49.RivkinMJ,WatsonCG,ScoppettuoloLA,etal.
Adolescentswithd-transpositionofthegreat
arteriesrepairedinearlyinfancydemonstrate
reducedwhitemattermicrostructureassociated
withclinicalriskfactors.JThoracCardiovasc
Surg.2013;146:543–549.
50.RollinsCK,WatsonCG,AsaroLA,etal.White
mattermicrostructureandcognitionin
adolescentswithcongenitalheartdisease.J
Pediatr.2014;165:936–944.
51.PanigrahyA,SchmithorstVJ,WisnowskiJL,et
al.Relationshipofwhitematternetwork
topologyandcognitiveoutcomeinadolescents
withd-transpositionofthegreatarteries.
NeuroimageClin.2015;27:438–448.
52.DeAsis-CruzJ,DonofrioMT,VezinaG,
LimperopoulosC.Aberrantbrainfunctional
connectivityinnewbornswithcongenitalheart
diseasebeforecardiacsurgery.NeuroimageClin.
2017;17:31–42.
53.GaynorJW,GerdesM,ZackaiEH,etal.
ApolipoproteinEgenotypeand
neurodevelopmentalsequelaeofinfantcardiac
surgery.JThoracCardiovascSurg.
2003;126:1736–1745.
54.RichardsAA,GargV.Geneticsofcongenital
heartdisease.CurrCardiolRev.2010;6:91–97.
55.MommaK,KondoC,MatsuokaR,TakaoA.
Cardiacanomaliesassociatedwitha
chromosome22q11deletioninpatientswith
conotruncalanomalyfacesyndrome.AmJ
Cardiol.1996;78:591–594.
56.GerdesM,SolotC,WangPP,etal.Cognitiveand
behaviorprofileofpreschoolchildrenwith
chromosome22q11.2deletion.AmJMedGenet.
1995;85:127–133.
57.AtallahJ,JoffeAR,RobertsonCMT,etal.Twoyeargeneralandneurodevelopmentaloutcome
afterneonatalcomplexcardiacsurgeryin
patientswithdeletion22q11.2:acomparative
study.JThoracCardiovascSurg.2007;134:772–
779.
58.GarciaGuerraG,JoffeAR,RobertsonCMT,et
al.Health-relatedqualityoflifeexperiencedby
