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Computer Algorithm Links Facial Masculinity to Autism

Summary: Researchers applied a computer algorithm to 3D facial images of children diagnosed with ASD. The algorithm detected both males and females with autism had more masculine features than children not on the spectrum.

Source: University of Western Australia.

A link between masculine facial features and autism has been discovered by researchers from The University of Western Australia, Telethon Kids Institute and Princess Margaret Hospital for Children.

The first-of-its-kind study used 3D photogrammetry to examine whether pre-pubescent boys and girls with an Autism Spectrum Disorder (ASD) displayed more masculine features compared to those without the condition. The research has been published today in Scientific Reports by the Nature Publishing Group.

Genetic factors are known to play a major role in ASD however there is growing evidence that hormonal factors also influence development of the condition.

A computer algorithm designed by UWA researchers was used to generate a gender score for a sample of 3D facial images to create a scale ranging from very masculine to very feminine. The gender scores were based on an analysis for 11 facial features such as breadth of a person’s nose, distance between the outer corners of the eyes, upper lip height and width of the mouth and were compared between an autistic group and a control group. A total 113 girls and 102 boys who were not autistic and 20 girls and 54 boys who were autistic were involved in the study. For each sex, increased facial masculinity was observed in the ASD group compared to the control group.

Further analysis revealed that increased facial masculinity in the group with autism correlated with more social communication difficulties as measured on the Autism Diagnostic Observation Scale.

UWA Research associate Syed Zulqarnain Gilani, from UWA’s School of Computer Science and Software Engineering said the extent of facial masculinity/femininity varied from one individual to another.

“We have developed an algorithm to measure this variation using 3D images of people, which calculates a metric for each face, which we refer to as the gender score,” Mr Gilani said.

“When we applied this algorithm to 3D faces of children diagnosed with an ASD, the results and trends were fascinating.”

Image shows 3D generated faces.

Creation of the ‘gender score’ for each face. The 11 selected features of each 3D face in Study 1 were projected in the LDA space which separates the two classes of males and females. We found the mean of both classes and the centre point between these means in the LDA space. These are shown in Fig. 2 as black triangles and a black cross. The 11 selected features of each face in Study 2 were then projected in the LDA space. The algorithm calculated the distance between the test face and the centre of the mean of the two classes (i.e., the black cross) and ascribed a ‘gender score’ as G = (1 − X)/2Y, scaled between 0 and 20. The further this test face is from the centre, the higher the masculinity or femininity. In this particular example, the test face (i.e., the pink diamond) lies between the centre point and the mean for females, which generated a ‘gender score’ that represents low femininity. The synthetic faces shown in the figure depict the varying masculinity of the same identity. NeuroscienceNews.com image is credited to Gilani et al./Scientific Reports.

The study is the first to report that the faces of boys and girls with ASD are more masculinised than the faces of typically developing children, according to research associate Diana Tan, from UWA’s School of Psychological Science.

“In our previous research, we found that a more masculinised facial profile was associated with increased exposure to prenatal testosterone,” Ms Tan said.

“The current findings highlight a possible connection between prenatal testosterone and ASD.

“A facial characteristic that is unique to ASD provides potential biological markers for this condition. In the long run, we hope to further explore the possibility for 3D facial images to be used as a complementary diagnostic tool to aid in the early identification of ASD.”

About this neuroscience research article

Source: Jess Reid – University of Western Australia
Image Source: NeuroscienceNews.com image is credited to Gilani et al./Scientific Reports.
Original Research: Full open access research for “Hypermasculinised facial morphology in boys and girls with Autism Spectrum Disorder and its association with symptomatology” by Diana Weiting Tan, Syed Zulqarnain Gilani, Murray T. Maybery, Ajmal Mian, Anna Hunt, Mark Walters & Andrew J. O. Whitehouse in Scientific Reports. Published online August 24 2017 doi:10.1038/s41598-017-09939-y

Cite This NeuroscienceNews.com Article
University of Western Australia “Computer Algorithm Links Facial Masculinity to Autism.” NeuroscienceNews. NeuroscienceNews, 25 August 2017.
<http://neurosciencenews.com/autism-facial-masculinity-7376/>.
University of Western Australia (2017, August 25). Computer Algorithm Links Facial Masculinity to Autism. NeuroscienceNew. Retrieved August 25, 2017 from http://neurosciencenews.com/autism-facial-masculinity-7376/
University of Western Australia “Computer Algorithm Links Facial Masculinity to Autism.” http://neurosciencenews.com/autism-facial-masculinity-7376/ (accessed August 25, 2017).

Abstract

Hypermasculinised facial morphology in boys and girls with Autism Spectrum Disorder and its association with symptomatology

Elevated prenatal testosterone exposure has been associated with Autism Spectrum Disorder (ASD) and facial masculinity. By employing three-dimensional (3D) photogrammetry, the current study investigated whether prepubescent boys and girls with ASD present increased facial masculinity compared to typically-developing controls. There were two phases to this research. 3D facial images were obtained from a normative sample of 48 boys and 53 girls (3.01–12.44 years old) to determine typical facial masculinity/femininity. The sexually dimorphic features were used to create a continuous ‘gender score’, indexing degree of facial masculinity. Gender scores based on 3D facial images were then compared for 54 autistic and 54 control boys (3.01–12.52 years old), and also for 20 autistic and 60 control girls (4.24–11.78 years). For each sex, increased facial masculinity was observed in the ASD group relative to control group. Further analyses revealed that increased facial masculinity in the ASD group correlated with more social-communication difficulties based on the Social Affect score derived from the Autism Diagnostic Observation Scale-Generic (ADOS-G). There was no association between facial masculinity and the derived Restricted and Repetitive Behaviours score. This is the first study demonstrating facial hypermasculinisation in ASD and its relationship to social-communication difficulties in prepubescent children.

“Hypermasculinised facial morphology in boys and girls with Autism Spectrum Disorder and its association with symptomatology” by Diana Weiting Tan, Syed Zulqarnain Gilani, Murray T. Maybery, Ajmal Mian, Anna Hunt, Mark Walters & Andrew J. O. Whitehouse in Scientific Reports. Published online August 24 2017 doi:10.1038/s41598-017-09939-y

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