The relationship between skin stretching/contraction and pathologic scarring: The important role of mechanical forces in keloid generation

Keloids tend to occur on highly mobile sites with high tension. This study was designed to determine whether body surface areas exposed to large strain during normal activities correlate with areas that show high rates of keloid generation after wounding. Eight adult Japanese volunteers were enrolle...

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Published inWound repair and regeneration Vol. 20; no. 2; pp. 149 - 157
Main Authors Ogawa, Rei, Okai, Kazuhisa, Tokumura, Fumio, Mori, Kazuyuki, Ohmori, Yasutaka, Huang, Chenyu, Hyakusoku, Hiko, Akaishi, Satoshi
Format Journal Article
LanguageEnglish
Published United States Blackwell Publishing Ltd 01.03.2012
Subjects
Adult
Asian Continental Ancestry Group
Biomechanical Phenomena
Humans
Keloid - etiology
Keloid - pathology
Keloid - physiopathology
Male
Mechanotransduction, Cellular
Skin - injuries
Skin - pathology
Skin - physiopathology
Tensile Strength
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Summary:Keloids tend to occur on highly mobile sites with high tension. This study was designed to determine whether body surface areas exposed to large strain during normal activities correlate with areas that show high rates of keloid generation after wounding. Eight adult Japanese volunteers were enrolled to study the skin stretching/contraction rates of nine different body sites. Skin stretching/contraction was measured by marking eight points on each region and measuring the change in location of the marked points after typical movements. The distribution of 1,500 keloids on 483 Japanese patients was mapped. The parietal region and anterior lower leg were associated with the least stretching/contraction, while the suprapubic region had the highest stretching/contraction rate. With regard to keloid distribution, there were 733 on the anterior chest region (48.9%) and 403 on the scapular regions (26.9%). No keloids were reported on the scalp or anterior lower leg. Because these sites are rarely subjected to skin stretching/contraction, it appears that mechanical force is an important trigger that drives keloid generation even in patients who are genetically predisposed to keloids. Thus, mechanotransduction studies are useful for developing clinical approaches that reduce the skin tension around wounds or scars for the prevention and treatment of not only keloids but also hypertrophic scars.
Bibliography:ark:/67375/WNG-1H91TZCQ-4
istex:B214BC43AAF0B8AF17CA7C6BFB3547C05DCDFD13
ArticleID:WRR766
Figure S1. Skin stretching/contraction rates of the nine body sites. The stretching/contraction rates of the marked points in four directions (horizontal [H], vertical [V], oblique-left [OL], and oblique-right [OR], as shown in Figure ) were measured for the nine body sites (shown as 1-9 in Figure ) after specific movements (shown in b, c, and d of Figure ) were performed. The colored bars indicate the degree of skin stretching (positive % on the vertical axis) or contraction (negative % on the vertical axis) when the specific movements denoted as b (blue), c (red), or d (green) were performed. These data show that the parietal region (1) and the anterior lower leg (9) are the least mobile sites.
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ISSN:1067-1927
1524-475X
1524-475X
DOI:10.1111/j.1524-475X.2012.00766.x