In vivo determination of skin surface topography using an optical 3D device

Background/purpose: Topography of the skin surface is a mirror of the functional skin status. Therefore, its evaluation is of great interest for dermatological research. In the present study, a new optical measuring system was applied to evaluate human skin surface topography in vivo and non‐invasiv...

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Bibliographic Details
Published in:Skin research and technology 2004-11, Vol.10 (4), p.207-214
Main Authors: Jacobi, Ute, Chen, Mai, Frankowski, Gottfried, Sinkgraven, Ronald, Hund, Martina, Rzany, Berthold, Sterry, Wolfram, Lademann, Jürgen
Format: Article
Language:English
Subjects:
Adult
Aged
aging
body site
botulinum toxin A
Dermoscopy - instrumentation
Dermoscopy - methods
Equipment Design
Equipment Failure Analysis
Female
Humans
Image Interpretation, Computer-Assisted - instrumentation
Image Interpretation, Computer-Assisted - methods
Imaging, Three-Dimensional - instrumentation
Imaging, Three-Dimensional - methods
Male
Middle Aged
optical measurement
Skin - cytology
Skin Aging - pathology
skin surface topography
Surface Properties
Tomography, Optical - instrumentation
Tomography, Optical - methods
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Summary:Background/purpose: Topography of the skin surface is a mirror of the functional skin status. Therefore, its evaluation is of great interest for dermatological research. In the present study, a new optical measuring system was applied to evaluate human skin surface topography in vivo and non‐invasively, in order to determine elastotic and mimic wrinkles dependent on age, body site and therapy. Methods: The measurements were performed on the back (n=5), the flexor forearm (n=14) of volunteers in different age groups and on the face of women (n=4) participating in an anti‐wrinkle study. The evaluation of the three‐dimensional‐profiles was performed determining skin surface parameters (mean roughness (Ra), mean depth of roughness (Rz), maximum roughness (Rm) and waviness (Wt)) and applying Fourier analysis. Results: Significant increases in all surface parameters were obtained on the forearms with increasing age. Differences between the surface topographies of forearm and back were only expressed by the waviness and the Fourier analysis. The treatment with botulinum Toxin A led to a diminution of mimic wrinkles as reflected by the furrow profiles. Conclusions: The results show a significant dependence of the skin surface topography on the age of the volunteer and the body site measured. Particularly the waviness, the Fourier analysis and the furrow profiles reflect such dependencies. The system used also fulfils the requirements for the testing of therapies, as was demonstrated by the reduction of mimic wrinkles after treatment with botulinum Toxin A.
ISSN:0909-752X
1600-0846
DOI:10.1111/j.1600-0846.2004.00075.x