2019
The Endocranial Bifrontal Angle: A Longitudinal Evaluation in Two Patients With Metopic Synostosis.
Cabrejo R, Lu X, Persing J. The Endocranial Bifrontal Angle: A Longitudinal Evaluation in Two Patients With Metopic Synostosis. Journal Of Craniofacial Surgery 2019, 30: 1644-1646. PMID: 30939543, DOI: 10.1097/scs.0000000000005358.Peer-Reviewed Original ResearchConceptsSmaller head circumferenceEndocranial bifrontal angleHead circumferenceMetopic craniosynostosisNeurological sequelaeNeurological deficitsSurgical treatmentSevere formPatientsSevere trigonocephalyLongitudinal evaluationMetopic sutureMetopic synostosisTomography imagingSkull deformityCraniosynostosisCircumferenceTrigonocephalyFrontal regionsYoung childrenSkull bonesSubsequent evaluationChildrenSequelaeDeformityTemporal Evaluation of Craniofacial Relationships in Apert Syndrome
Lu X, Forte AJ, Sawh-Martinez R, Wu R, Cabrejo R, Gabrick K, Steinbacher DM, Alperovich M, Alonso N, Persing JA. Temporal Evaluation of Craniofacial Relationships in Apert Syndrome. Journal Of Craniofacial Surgery 2019, 30: 317-325. PMID: 30358751, DOI: 10.1097/scs.0000000000004836.Peer-Reviewed Original ResearchConceptsYears of ageApert syndromeNasal spineComputed tomography scanMaxillary planeAnterior nasal spineMonths of ageApert syndrome patientsPosterior nasal spineSella-nasion planeTomography scanSyndrome patientsAge subgroupsAnatomic relationshipsSyndromeFacial deformityAngulation changeFrankfort horizontal planeCranial base lengthMonthsIntracellular regulatory mechanismsCraniofacial malformationsAgeDeformityMaterialize software
2018
Orbit, zygoma, and maxilla growth patterns in Crouzon syndrome
Lu X, Forte AJ, Sawh-Martinez R, Wu R, Cabrejo R, Steinbacher DM, Alperovich M, Alonso N, Persing JA. Orbit, zygoma, and maxilla growth patterns in Crouzon syndrome. International Journal Of Oral And Maxillofacial Surgery 2018, 48: 309-321. PMID: 30389113, DOI: 10.1016/j.ijom.2018.10.013.Peer-Reviewed Original ResearchConceptsCrouzon syndromeCT scanAnteroposterior lengthWidth of maxillaPreoperative CT scanMonths-2 yearsMonths of agePrincipal deformityControl subjectsGlobe projectionAge subgroupsMaxillary wideningSecondary deformitiesOrbital wallAnterior protrusionSyndromeFacial malformationsMonthsDeformityAnteroposterior positionZygomatic regionCranial baseZygomaMalformationsMaterialise softwareFacial Malformation in Crouzon’s Syndrome Is Consistent with Cranial Base Development in Time and Space
Lu X, Forte AJ, Sawh-Martinez R, Madari S, Wu R, Cabrejo R, Steinbacher DM, Alperovich M, Alonso N, Persing JA. Facial Malformation in Crouzon’s Syndrome Is Consistent with Cranial Base Development in Time and Space. Plastic & Reconstructive Surgery Global Open 2018, 6: e1963. PMID: 30534503, PMCID: PMC6250456, DOI: 10.1097/gox.0000000000001963.Peer-Reviewed Original ResearchCranial base deformitySyndrome patientsCrouzon syndromeFrankfort horizontal planeSurgical decision makingAnterior cranial fossaCranial baseMonths of ageCranial base developmentEvident morphologic changesCrouzon syndrome patientsAnterior cranial baseSella-nasion planeTomography scanCranial fossaCrouzon patientsSyndromeMorphologic changesPatientsMandibular planeFacial malformationsPosterior cranial baseDeformityMaxillary planeSella-NasionNormal angulation of skull base in Apert syndrome
Lu X, Forte AJ, Sawh-Martinez R, Wu R, Cabrejo R, Steinbacher DM, Alperovich M, Alonso N, Persing JA. Normal angulation of skull base in Apert syndrome. Journal Of Cranio-Maxillofacial Surgery 2018, 46: 2042-2051. PMID: 30391086, DOI: 10.1016/j.jcms.2018.09.026.Peer-Reviewed Original ResearchConceptsAnterior cranial baseApert syndromeCranial base lengthSkull baseSevere craniofacial deformitiesPosterior cranial base lengthYears of ageMonths of ageUnoperated patientsCT scanAnterior cranial base lengthCranial base angleLate infancySyndromeAge rangeCraniofacial deformitiesCranial baseDeformityAdditive effectSkull vaultMonthsAngulationSignificant changesAgeBase length