Quantitative evaluation of facial sagging in different body postures using a three‐dimensional imaging technique

Background The possible contribution of head flexion posture while using a smartphone to the formation of “smartphone face,” is an increasing concern. Smartphone face describes the facial changes in a stooped posture receiving more gravitational pull on the jowl area. Aims In this study, we quantifi...

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Published in	Journal of cosmetic dermatology Vol. 20; no. 8; pp. 2583 - 2592
Main Authors	Park, June Whan, Lee, Myeongryeol, Kim, Jihyun, Kim, Eunjoo
Format	Journal Article
Language	English
Published	England 01.08.2021
Subjects	facial sagging gravity smartphone face three‐dimensional image technique three-dimensional image technique facial sagging smartphone face gravity
Online Access	Get full text
ISSN	1473-2130 1473-2165 1473-2165
DOI	10.1111/jocd.13880

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Abstract	Background The possible contribution of head flexion posture while using a smartphone to the formation of “smartphone face,” is an increasing concern. Smartphone face describes the facial changes in a stooped posture receiving more gravitational pull on the jowl area. Aims In this study, we quantified facial sagging in different postural changes using a three‐dimensional imaging technique. Methods Faces of 21 young (30.45 ± 2.81 yo, n = 11) and old (59.50 ± 3.37 yo, n = 10) Korean female subjects were scanned in different body postures including standing, supine, and head flexion (30°, 45°). The landmark displacements and volumetric changes in facial areas were assessed and correlated with skin elasticity. In addition, 22 Korean female subjects (45.45 ± 3.81 yo) were recruited to test the anti‐gravity effect of facial cream A, which was formulated with Stem III complex™, for 8 weeks. Results The landmarks shifted inferior‐laterally with the supine posture, while the upper face shifted more laterally and the lower face shifted more inferiorly. With a head flexion posture, facial sagging occurred mainly toward the anterior direction with more prominent changes in the lower face. The changes were greater in the older group, and skin elasticity exhibited negative correlation with the shifting distances. A significant decrease in facial sagging was noted after an 8‐week treatment of facial cream A. Conclusion The use of a three‐dimensional imaging technique could accurately assess the gravity‐induced facial changes in different postures. The head flexion posture particularly gives more gravitational pull to the lower face, which could contribute to the drooping jawline.
AbstractList	The possible contribution of head flexion posture while using a smartphone to the formation of "smartphone face," is an increasing concern. Smartphone face describes the facial changes in a stooped posture receiving more gravitational pull on the jowl area. In this study, we quantified facial sagging in different postural changes using a three-dimensional imaging technique. Faces of 21 young (30.45 ± 2.81 yo, n = 11) and old (59.50 ± 3.37 yo, n = 10) Korean female subjects were scanned in different body postures including standing, supine, and head flexion (30°, 45°). The landmark displacements and volumetric changes in facial areas were assessed and correlated with skin elasticity. In addition, 22 Korean female subjects (45.45 ± 3.81 yo) were recruited to test the anti-gravity effect of facial cream A, which was formulated with Stem III complex™, for 8 weeks. The landmarks shifted inferior-laterally with the supine posture, while the upper face shifted more laterally and the lower face shifted more inferiorly. With a head flexion posture, facial sagging occurred mainly toward the anterior direction with more prominent changes in the lower face. The changes were greater in the older group, and skin elasticity exhibited negative correlation with the shifting distances. A significant decrease in facial sagging was noted after an 8-week treatment of facial cream A. The use of a three-dimensional imaging technique could accurately assess the gravity-induced facial changes in different postures. The head flexion posture particularly gives more gravitational pull to the lower face, which could contribute to the drooping jawline. The possible contribution of head flexion posture while using a smartphone to the formation of "smartphone face," is an increasing concern. Smartphone face describes the facial changes in a stooped posture receiving more gravitational pull on the jowl area.BACKGROUNDThe possible contribution of head flexion posture while using a smartphone to the formation of "smartphone face," is an increasing concern. Smartphone face describes the facial changes in a stooped posture receiving more gravitational pull on the jowl area.In this study, we quantified facial sagging in different postural changes using a three-dimensional imaging technique.AIMSIn this study, we quantified facial sagging in different postural changes using a three-dimensional imaging technique.Faces of 21 young (30.45 ± 2.81 yo, n = 11) and old (59.50 ± 3.37 yo, n = 10) Korean female subjects were scanned in different body postures including standing, supine, and head flexion (30°, 45°). The landmark displacements and volumetric changes in facial areas were assessed and correlated with skin elasticity. In addition, 22 Korean female subjects (45.45 ± 3.81 yo) were recruited to test the anti-gravity effect of facial cream A, which was formulated with Stem III complex™, for 8 weeks.METHODSFaces of 21 young (30.45 ± 2.81 yo, n = 11) and old (59.50 ± 3.37 yo, n = 10) Korean female subjects were scanned in different body postures including standing, supine, and head flexion (30°, 45°). The landmark displacements and volumetric changes in facial areas were assessed and correlated with skin elasticity. In addition, 22 Korean female subjects (45.45 ± 3.81 yo) were recruited to test the anti-gravity effect of facial cream A, which was formulated with Stem III complex™, for 8 weeks.The landmarks shifted inferior-laterally with the supine posture, while the upper face shifted more laterally and the lower face shifted more inferiorly. With a head flexion posture, facial sagging occurred mainly toward the anterior direction with more prominent changes in the lower face. The changes were greater in the older group, and skin elasticity exhibited negative correlation with the shifting distances. A significant decrease in facial sagging was noted after an 8-week treatment of facial cream A.RESULTSThe landmarks shifted inferior-laterally with the supine posture, while the upper face shifted more laterally and the lower face shifted more inferiorly. With a head flexion posture, facial sagging occurred mainly toward the anterior direction with more prominent changes in the lower face. The changes were greater in the older group, and skin elasticity exhibited negative correlation with the shifting distances. A significant decrease in facial sagging was noted after an 8-week treatment of facial cream A.The use of a three-dimensional imaging technique could accurately assess the gravity-induced facial changes in different postures. The head flexion posture particularly gives more gravitational pull to the lower face, which could contribute to the drooping jawline.CONCLUSIONThe use of a three-dimensional imaging technique could accurately assess the gravity-induced facial changes in different postures. The head flexion posture particularly gives more gravitational pull to the lower face, which could contribute to the drooping jawline. Background The possible contribution of head flexion posture while using a smartphone to the formation of “smartphone face,” is an increasing concern. Smartphone face describes the facial changes in a stooped posture receiving more gravitational pull on the jowl area. Aims In this study, we quantified facial sagging in different postural changes using a three‐dimensional imaging technique. Methods Faces of 21 young (30.45 ± 2.81 yo, n = 11) and old (59.50 ± 3.37 yo, n = 10) Korean female subjects were scanned in different body postures including standing, supine, and head flexion (30°, 45°). The landmark displacements and volumetric changes in facial areas were assessed and correlated with skin elasticity. In addition, 22 Korean female subjects (45.45 ± 3.81 yo) were recruited to test the anti‐gravity effect of facial cream A, which was formulated with Stem III complex™, for 8 weeks. Results The landmarks shifted inferior‐laterally with the supine posture, while the upper face shifted more laterally and the lower face shifted more inferiorly. With a head flexion posture, facial sagging occurred mainly toward the anterior direction with more prominent changes in the lower face. The changes were greater in the older group, and skin elasticity exhibited negative correlation with the shifting distances. A significant decrease in facial sagging was noted after an 8‐week treatment of facial cream A. Conclusion The use of a three‐dimensional imaging technique could accurately assess the gravity‐induced facial changes in different postures. The head flexion posture particularly gives more gravitational pull to the lower face, which could contribute to the drooping jawline.
Author	Kim, Jihyun Park, June Whan Lee, Myeongryeol Kim, Eunjoo
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Snippet	Background The possible contribution of head flexion posture while using a smartphone to the formation of “smartphone face,” is an increasing concern.... The possible contribution of head flexion posture while using a smartphone to the formation of "smartphone face," is an increasing concern. Smartphone face...
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Title	Quantitative evaluation of facial sagging in different body postures using a three‐dimensional imaging technique
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