Organ culture of mammalian skin and the effects of ultraviolet light and testosterone on melanocyte morphology and function

Glimcher, Mark Edward; García, Raúl I.; Szabó, George

doi:10.1002/jez.1402040210

Cited by 12 publications

(2 citation statements)

References 24 publications

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“…While the brightness of the facial image might be driven by many factors, previous research found that testosterone stimulates melanocyte structure and function leading to a darker skin. (This is also why males tend to have darker skin than females in a given population; Glimcher, Garcia, & Szabó, 1978;Jablonski & Chaplin, 2000. ) 7 Pearson product-moment correlation was used.…”

Section: Study 4: Human Judgesmentioning

confidence: 99%

Deep neural networks are more accurate than humans at detecting sexual orientation from facial images.

Wang

Kosinski

2018

Journal of Personality and Social Psychology

490

262

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29We show that faces contain much more information about sexual orientation than can be 30 perceived and interpreted by the human brain. We used deep neural networks to extract features 31 from 35,326 facial images. These features were entered into a logistic regression aimed at 32 classifying sexual orientation. Given a single facial image, a classifier could correctly distinguish 33 between gay and heterosexual men in 81% of cases, and in 71% of cases for women. Human 34 judges achieved much lower accuracy: 61% for men and 54% for women. The accuracy of the 35 algorithm increased to 91% and 83%, respectively, given five facial images per person. Facial 36 features employed by the classifier included both fixed (e.g., nose shape) and transient facial 37features (e.g., grooming style). Consistent with the prenatal hormone theory of sexual 38 orientation, gay men and women tended to have gender-atypical facial morphology, expression, 39 and grooming styles. Prediction models aimed at gender alone allowed for detecting gay males 40 with 57% accuracy and gay females with 58% accuracy. Those findings advance our 41 understanding of the origins of sexual orientation and the limits of human perception. 42Additionally, given that companies and governments are increasingly using computer vision 43 algorithms to detect people's intimate traits, our findings expose a threat to the privacy and safety 44 of gay men and women. 45

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Section: Study 4: Human Judgesmentioning

confidence: 99%

Deep neural networks are more accurate than humans at detecting sexual orientation from facial images.

Wang

Kosinski

2018

Journal of Personality and Social Psychology

490

262

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“…An asian Indian would require 3 times the sun exposure than light-skinned person to produce equivalent amount of vitamin D [17]. It is interesting to note that women of all population have lighter skin than men, presumably because of increased vitamin D needs during pregnancy and lactation [19]. Sunscreens block UV-B more than UV-A and sunscreens with sun protection factor (SPF) of 8 and 15 will decrease vitamin D synthetic capacity by 95% and 98%, respectively [20].…”

Section: Deficiency Of 'Sunshine Vitamin' In Sunny Countriesmentioning

confidence: 99%

Vitamin D and child health in the 21st century

Rathi¹,

Rathi²

2011

Indian Pediatr

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Testosterone and UVL‐B stimulation of epidermal melanocytes in rat scrotal skin

1979

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The effects of UVL-B and/or testosterone replacemnt therapy are compared in normal and castrated rats in order to determine whether testosterone is required for UVL-B (290-315 nm) stimulation of melanogenesis in the testosterone-dependent epidermal melanocyte system of the scrotal skin of black Long Evans rats. Testosterone is not a prerequisite for UVL-B stimulation of melanocytes as in both castrates and normal animals the melanocytes respond to UVL-B by increases in size, length and number of dendrites (dendriticness), and tyrosinase activity (intensity of Dopa reaction). Addition of testosterone to castrates does enhance the effects of UVL-B. However, UVL-B with or without testosterone cannot maintain normal melanogenesis in rats irradiated immediately after castration nor can it restore normal melanogenesis following long term castration. Bth the amount of UVL nergy/exposure and the number of exposures are important variables in stimulation of the epidermal melanocytes. Administration of a dose of UVL-B to castrates in a single exposure is ineffective, while the same overall dose spread over several exposures increases the size and dendriticness of melanocytes. Testosterone and UVL-B act synergistically in affecting melanogenesis although neither singly nor in combination are they able to fully restore normal melanogenesis.

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Organ culture of mammalian skin and the effects of ultraviolet light and testosterone on melanocyte morphology and function

Cited by 12 publications

References 24 publications

Deep neural networks are more accurate than humans at detecting sexual orientation from facial images.

Deep neural networks are more accurate than humans at detecting sexual orientation from facial images.

Vitamin D and child health in the 21st century

Testosterone and UVL‐B stimulation of epidermal melanocytes in rat scrotal skin

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