2017
DOI: 10.1186/s12896-017-0410-1
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Computer face-matching technology using two-dimensional photographs accurately matches the facial gestalt of unrelated individuals with the same syndromic form of intellectual disability

Abstract: BackgroundMassively parallel genetic sequencing allows rapid testing of known intellectual disability (ID) genes. However, the discovery of novel syndromic ID genes requires molecular confirmation in at least a second or a cluster of individuals with an overlapping phenotype or similar facial gestalt. Using computer face-matching technology we report an automated approach to matching the faces of non-identical individuals with the same genetic syndrome within a database of 3681 images [1600 images of one of 10… Show more

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Cited by 42 publications
(50 citation statements)
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“…We used computerized face-matching technology to specifically evaluate the cohort to assess if a characteristic facial gestalt was evident across individuals with pathogenic or likely pathogenic variants across our original and this expanded clinical cohort (Supp. Figure S4) (Dudding-Byth, et al, 2017). Although a clearly recognizable facial gestalt was not obvious, there are some similarities.…”
Section: Discussionmentioning
confidence: 99%
“…We used computerized face-matching technology to specifically evaluate the cohort to assess if a characteristic facial gestalt was evident across individuals with pathogenic or likely pathogenic variants across our original and this expanded clinical cohort (Supp. Figure S4) (Dudding-Byth, et al, 2017). Although a clearly recognizable facial gestalt was not obvious, there are some similarities.…”
Section: Discussionmentioning
confidence: 99%
“…For diagnoses with sufficiently distinct facial phenotypes, algorithms employing machine learning generally fare well in prioritizing potential diagnoses, sometimes with even better accuracy than that of seasoned geneticists. 19,25,26 Another not-yet-exploited utility of these tech-nologies is their potential to detect similarities of novel phenotypes to known disorders and to thereby identify a potential molecular etiology, such as the disruption of a signaling pathway or a specific cellular compartment. In our case, DeepGestalt recognized the facial similarity of individuals with the LEMD2 mutation c.1436C>T to individuals with another nuclear envelopathy, HGPS.…”
Section: Subcutaneous Tissuementioning
confidence: 99%
“…Facial recognition software is able to objectively detect subtle features which might be difficult to identify by eye. [16][17][18] In the past, facial recognition software has been used to objectively measure dysmorphic features in individuals with various syndromes. [17][18][19] We collected and analyzed photographs of 13 out of 14 children.…”
mentioning
confidence: 99%
“…[16][17][18] In the past, facial recognition software has been used to objectively measure dysmorphic features in individuals with various syndromes. [17][18][19] We collected and analyzed photographs of 13 out of 14 children. The three affected parents were deliberately excluded to avoid a bias caused by facial features that were shared with their children and unrelated to the variant identified.…”
mentioning
confidence: 99%