226Chapter12REFERENCES1FadaifardHWolbergGHaralickRMultiscale3Dfeatureextractionandmatchingwithanapplicationto3DfacerecognitionGraphModels2013;75(4)157-176doi101016/jgmod2013010022ZhangZDaiY,SunJDeeplearningbasedpointcloudregistrationanoverviewVirtualRealIntellHardw2020;2(3)222-246doi101016/jvrih2020050023deJongGBijlsmaEMeulsteeJetalCombiningdeeplearningwith3DstereophotogrammetryforcraniosynostosisdiagnosisSciRepPublishedonline20204BhalodiaRDvoracekLAAyyashAMKavanLWhitakerRGoldsteinJAQuantifyingtheSeverityofMetopicCraniosynostosisAPilotStudyApplicationofMachineLearninginCraniofacialSurgeryJCraniofacSurgPublishedonline2020doi101097/SCS00000000000062155Zhou X YouL Zhang G Zhao W, GreivesMDavidL Clinics in Surgery Automated SagittalCraniosynostosisClassificationfromCTImagesUsingTransferLearningOPEN ACCESS Vol2020;2020AccessedAugust302020http//clinicsinsurgerycom/6Barbero-GarcíaILermaJLMora-NavarroGFullyautomaticsmartphone-basedphotogrammetric3Dmodellingofinfant’sheadsforcranialdeformationanalysisISPRSJPhotogrammRemoteSens2020;166(April)268-277doi101016/jisprsjprs2020060137Barbero-GarcíaILermaJLMirandaP,Marqués-MateuÁSmartphone-basedphotogrammetric3DmodellingassessmentbycomparisonwithradiologicalmedicalimagingforcranialdeformationanalysisMeas JIntMeasConfed2019;131372-379doi101016/jmeasurement2018080598CallejasPastorCAJungI-Y,SeoSKwonSBinKuY,ChoiJ Two-DimensionalImage-BasedScreeningToolforInfantswithPositionalCranialDeformitiesAMachineLearningApproachDiagnostics2020;10(7)495doi103390/diagnostics100704959MacmillanALopezJMundingerGSMajorMMedinaMADorafsharAH VirtualsurgicalplanningforcorrectionofdelayedpresentationscaphocephalyusingamodifiedmelbournetechniqueIn JournalofCraniofacialSurgery Vol29;2018914-919doi101097/SCS000000000000429010LoprestiMDanielsBBuchananEP,MonsonLLamS Virtualsurgicalplanningand3DprintinginrepeatcalvarialvaultreconstructionforcraniosynostosisTechnicalnoteJNeurosurgPediatr2017;19(4)490-494doi103171/201610PEDS1630111SeruyaMBorsukDEKhalifianSCarsonBSDalesioNMDorafsharAHComputer-aideddesignandmanufacturingincraniosynostosissurgeryInJournalofCraniofacialSurgery Vol24;20131100-1105doi101097/SCS0b013e31828b702112KamphuisCBarsomESchijvenMChristophNAugmentedrealityinmedicaleducationPerspect MedEduc2014;3(4)300-311doi101007/s40037-013-0107-713PulijalaY,MaMPearsMPeeblesDAyoubAEffectivenessofImmersiveVirtualRealityinSurgicalTraining—ARandomizedControlTrialJOralMaxillofacSurg2018;76(5)1065-1072doi101016/jjoms20171000214BogomolovaKvanderHamIJMDankbaarMEW,etal TheEffectofStereoscopicAugmentedRealityVisualizationonLearning Anatomyand theModifyingEffectof Visual-Spatial Abilities ADouble-CenterRandomizedControlled Trial AnatSciEducPublishedonline2019doi101002/ase194115BölekKADeJongGHenssenDTheeffectivenessoftheuseofaugmentedrealityinanatomyeducationasystematicreviewandmeta-analysisSciRep2021;11(1)15292doi101038/s41598-021-94721-416Kim YOY,KimHKim YOY. VirtualRealityandAugmentedRealityinPlasticSurgeryAReview ArchPlastSurg2017;44(3)179-187doi105999/aps201744317917SmeesCMeulsteeJGrootJebbinkENijveldtRDevelopmentofanAugmentedRealityApplicationtoSupportPreplanningofTAVIProcedures;201918FitskiMatthijs;MeulsteeJene;LittooijAnnemieke;VandeVenCornelis;VanderSteegAlida;WijnenMMRIBased3-Dimensional Visualization WorkflowforthePreoperativePlanningofNephron-SparingSurgeryin Wilms’ TumorPatientsSurgInnovPublishedonline202019VanGestelF,FrantzT,VanneromCetalTheeffectofaugmentedrealityontheaccuracyandlearningcurveofexternalventriculardrainplacementNeurosurgFocus2021;51(2)E8doi103171/20215FOCUS21215