about
Investigating the case of human nose shape and climate adaptationStatistical shape modeling of the left ventricle: myocardial infarct classification challenge.How Different is Different? Criterion and Sensitivity in Face-SpaceEstablishing a multidisciplinary context for modeling 3D facial shape from DNAModeling 3D facial shape from DNASpatially-dense 3D facial asymmetry assessment in both typical and disordered growth.Facial Characteristics and Olfactory Dysfunction: Two Endophenotypes Related to Nonsyndromic Cleft Lip and/or PalateMonitoring of Therapy for Mucopolysaccharidosis Type I Using Dysmorphometric Facial Phenotypic SignaturesNew Entries in the Lottery of Facial GWAS DiscoveryA Dysmorphometric Analysis to Investigate Facial Phenotypic Signatures as a Foundation for Non-invasive Monitoring of Lysosomal Storage Disorders.Intersections of epigenetics, twinning and developmental asymmetries: insights into monogenic and complex diseases and a role for 3D facial analysis.Evolution of Preoperative Rhinoplasty Consult by Computer Imaging.Three-Dimensional Surface Imaging and the Continuous Evolution of Preoperative and Postoperative Assessment in Rhinoplasty.Spatially dense morphometrics of craniofacial sexual dimorphism in 1-year-olds.HemoVision: An automated and virtual approach to bloodstain pattern analysis.Exploring the Underlying Genetics of Craniofacial Morphology through Various Sources of Knowledge.Secondary cleft rhinoplasty: impact on self-esteem and quality of life.Toward DNA-based facial composites: preliminary results and validation.A spatially-dense regression study of facial form and tissue depth: towards an interactive tool for craniofacial reconstruction.Association Between Prenatal Alcohol Exposure and Craniofacial Shape of Children at 12 Months of Age.Dysmorphometrics: the modelling of morphological abnormalitiesBayesian estimation of optimal craniofacial reconstructions.Objective monitoring of mTOR inhibitor therapy by three-dimensional facial analysis.Prehensile and non-prehensile tails among syngnathid fishes: what's the difference?About Face: Matching Unfamiliar Faces Across Rotations of View and Lighting.Population genomics of Mesolithic Scandinavia: Investigating early postglacial migration routes and high-latitude adaptation.Computerized craniofacial reconstruction using CT-derived implicit surface representations.Semi-automated ultrasound facial soft tissue depth registration: method and validation.The influence of sex, age and body mass index on facial soft tissue depths.A Comprehensive Craniofacial Study of 22q11.2 Deletion Syndrome.Novel approaches in 3-dimensional facial profiling to establish facial aesthetic objectives in the treatment of facial dysmorphologies.Facial morphology and growth following surgery for congenital midline cervical cleft patients.Genome-wide mapping of global-to-local genetic effects on human facial shape.Modelling 3D craniofacial growth trajectories for population comparison and classification illustrated using sex-differences.Testing the face shape hypothesis in twins discordant for nonsyndromic orofacial cleftingSix NSCL/P Loci Show Associations With Normal-Range Craniofacial VariationSNPs Associated With Testosterone Levels Influence Human Facial MorphologyFacial masculinity does not appear to be a condition-dependent male ornament in humans and does not reflect MHC heterozygosityAre there vocal cues to human developmental stability? Relationships between facial fluctuating asymmetry and voice attractivenessAn investigation of matching symmetry in the human pinnae with possible implications for 3D ear recognition and sound localization
P50
Q28968555-1EA9E24F-F044-43DD-B001-06EF69F1156BQ30490730-6F5CF34A-480D-4CC5-B080-C90F55DE604AQ30501702-E6211DA1-2040-460D-A3E3-86E310B9284BQ34464488-480DC3F9-807B-42CC-B605-43A40FD08963Q35126094-D523B9B8-8503-498B-A6ED-89F96D1A6863Q35278181-6F46FB0A-F0D5-4C09-9599-46E0B3485BCEQ35625837-56BAFE6F-7488-40EB-A731-5E9F1E06B0D4Q35801028-66A6C250-0663-4B06-ADE6-2F3D929A051BQ36113041-B4607FBC-C4E5-412F-9FDC-64C397E7BFCCQ36590983-245D6800-46E6-44FF-BE84-A492378D6B9BQ37905011-CE84D2AF-D094-4C48-AC2B-6193E9894FAEQ38728259-ACB36A82-1202-4C01-8A77-E7518029E452Q38728262-D43F19F7-BEC3-4BFE-8505-2CF859A5CAAFQ38849164-50842A41-3828-4C96-9891-ABEA4D79D823Q39014272-60BFAF7E-7D00-4740-B053-0E494336EEF4Q39067864-548174E1-3604-4D5B-ACA8-F4C4DA87D479Q39095370-9592DA5C-229C-495C-8A51-32155D09EBABQ39133746-ECD7F185-8D02-4B2F-BC92-674C8134F0B9Q39282476-828B6F42-B102-4658-BA1E-C53080C976A3Q40170835-AA0D9AF9-12A3-452F-B895-B2262097427EQ42150884-576D371B-DC8B-4B43-BED5-43AFD9DB048FQ44258499-E393719D-4F28-4424-B7B1-95C295F47913Q44575520-7F07C932-1E28-4B52-9531-02C49D8BFE9BQ46453760-23EAC7BE-FBD5-4360-8491-C385AED25CADQ47135048-80E4FEA4-5C8C-46EC-B77E-1C35BA76432AQ47173812-523B9341-F873-45EF-ACB8-48471CFDB493Q47217656-A91D44FB-3669-4FEC-A99A-C9F7F41E4312Q47231961-75857393-D10B-4BB6-B611-CFD4DD524928Q47596367-08180A15-C5A2-4ABD-8554-F847A7A23575Q47896727-536B1341-5A42-4039-914A-774387FFA651Q48874904-5AACC433-DB70-4512-957C-4FF965D3FFA0Q49661146-09C70CF6-5BE1-4380-8A34-703581C26DD6Q49830752-ED4A3FF5-B365-4611-BB85-5C6474237A5EQ52349700-5881B46B-A33A-4860-B6E1-CE2DB8682C7CQ58301074-8015B07D-1E6D-4CF8-9BBD-6741999CB052Q58556165-FA25AA8F-2455-45B4-8EF1-326E4FC0FD63Q58572276-5DDFFD3D-78F0-4927-A433-C68DA61687BCQ59664039-315DB9E6-038C-4B5C-8D39-5BC5FE82D456Q61943073-1B87EDA8-3523-436D-A57F-285F44BCD411Q61943077-29845C73-0940-4DB5-9374-7A9485F945A8
P50
description
researcher ORCID ID = 0000-0001-9489-9819
@en
wetenschapper
@nl
name
Peter Claes
@ast
Peter Claes
@en
Peter Claes
@es
Peter Claes
@nl
type
label
Peter Claes
@ast
Peter Claes
@en
Peter Claes
@es
Peter Claes
@nl
prefLabel
Peter Claes
@ast
Peter Claes
@en
Peter Claes
@es
Peter Claes
@nl
P106
P1153
9274666400
P2456
P31
P496
0000-0001-9489-9819