Confocal Raman spectroscopy: In vivo measurement of physiological skin parameters – A pilot study

•Depth concentration profiles for skin parameters were generated in vivo by CRS.•The curve profiles of in vivo data could be visualised within a few minutes.•The correlation between skin and blood cholesterol levels was investigated. In vivo application of confocal Raman spectroscopy (CRS) allows no...

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Veröffentlicht in:Journal of dermatological science Jg. 88; H. 3; S. 280 - 288
Hauptverfasser: Binder, Lisa, SheikhRezaei, Safoura, Baierl, Andreas, Gruber, Lukas, Wolzt, Michael, Valenta, Claudia
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Netherlands Elsevier B.V 01.12.2017
Schlagworte:
Adult
Cholesterol
Cholesterol - analysis
Confocal raman spectroscopy
Female
Forearm
Humans
Male
Middle Aged
Non-invasive measurement
Pilot Projects
Skin - chemistry
Skin Physiological Phenomena
Spectrum Analysis, Raman - methods
Stratum corneum
Water - analysis
Young Adult
SC
Stratum corneum
CRS
NMF
Confocal raman spectroscopy
Cholesterol
Non-invasive measurement
TC
ISSN:0923-1811, 1873-569X, 1873-569X
Online-Zugang:Volltext
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Abstract •Depth concentration profiles for skin parameters were generated in vivo by CRS.•The curve profiles of in vivo data could be visualised within a few minutes.•The correlation between skin and blood cholesterol levels was investigated. In vivo application of confocal Raman spectroscopy (CRS) allows non-invasive depth measurement of the skin. Thereby obtained knowledge of the skin composition is essential to reliably assess the actual skin state. Besides other components, the skin cholesterol concentration is of interest; however, little is known about its connection to the cholesterol concentration quantified in venous blood. In this study, the skin composition of the volar forearm was characterised in vivo using CRS. In particular, the potential of CRS as a non-invasive method to determine cholesterol levels was validated. Raman spectra of the volar forearm of 15 participants were recorded twice within two weeks. Depth concentration profiles for major skin components were generated. Stratum corneum (SC) thickness was calculated from water concentration profiles. In order to examine the usability of dermal CRS for cholesterol level determination, results were compared to fasting total cholesterol values in venous blood as determined by an enzymatic method. Depth concentration profiles for the skin components of interest showed a comparable curve progression for the participants. It was possible to link changes in concentration to physiological processes. Moreover, age-related differences could be found. Several novel mathematical approaches for the comparison of the skin cholesterol content and the blood cholesterol concentration have been developed. However, no correlation passed the Bonferroni multiple testing correction. CRS serves as useful tool for the in vivo monitoring of skin components and hydration. Concentration depth profiles provide information about the current skin condition. No distinct correlation between the skin and blood cholesterol concentration was found within the scope of the present study. Concerning this matter, the heterogeneous distribution of cholesterol in the skin may be a factor influencing these results.
AbstractList In vivo application of confocal Raman spectroscopy (CRS) allows non-invasive depth measurement of the skin. Thereby obtained knowledge of the skin composition is essential to reliably assess the actual skin state. Besides other components, the skin cholesterol concentration is of interest; however, little is known about its connection to the cholesterol concentration quantified in venous blood.BACKGROUNDIn vivo application of confocal Raman spectroscopy (CRS) allows non-invasive depth measurement of the skin. Thereby obtained knowledge of the skin composition is essential to reliably assess the actual skin state. Besides other components, the skin cholesterol concentration is of interest; however, little is known about its connection to the cholesterol concentration quantified in venous blood.In this study, the skin composition of the volar forearm was characterised in vivo using CRS. In particular, the potential of CRS as a non-invasive method to determine cholesterol levels was validated.OBJECTIVEIn this study, the skin composition of the volar forearm was characterised in vivo using CRS. In particular, the potential of CRS as a non-invasive method to determine cholesterol levels was validated.Raman spectra of the volar forearm of 15 participants were recorded twice within two weeks. Depth concentration profiles for major skin components were generated. Stratum corneum (SC) thickness was calculated from water concentration profiles. In order to examine the usability of dermal CRS for cholesterol level determination, results were compared to fasting total cholesterol values in venous blood as determined by an enzymatic method.METHODSRaman spectra of the volar forearm of 15 participants were recorded twice within two weeks. Depth concentration profiles for major skin components were generated. Stratum corneum (SC) thickness was calculated from water concentration profiles. In order to examine the usability of dermal CRS for cholesterol level determination, results were compared to fasting total cholesterol values in venous blood as determined by an enzymatic method.Depth concentration profiles for the skin components of interest showed a comparable curve progression for the participants. It was possible to link changes in concentration to physiological processes. Moreover, age-related differences could be found. Several novel mathematical approaches for the comparison of the skin cholesterol content and the blood cholesterol concentration have been developed. However, no correlation passed the Bonferroni multiple testing correction.RESULTSDepth concentration profiles for the skin components of interest showed a comparable curve progression for the participants. It was possible to link changes in concentration to physiological processes. Moreover, age-related differences could be found. Several novel mathematical approaches for the comparison of the skin cholesterol content and the blood cholesterol concentration have been developed. However, no correlation passed the Bonferroni multiple testing correction.CRS serves as useful tool for the in vivo monitoring of skin components and hydration. Concentration depth profiles provide information about the current skin condition. No distinct correlation between the skin and blood cholesterol concentration was found within the scope of the present study. Concerning this matter, the heterogeneous distribution of cholesterol in the skin may be a factor influencing these results.CONCLUSIONCRS serves as useful tool for the in vivo monitoring of skin components and hydration. Concentration depth profiles provide information about the current skin condition. No distinct correlation between the skin and blood cholesterol concentration was found within the scope of the present study. Concerning this matter, the heterogeneous distribution of cholesterol in the skin may be a factor influencing these results.
•Depth concentration profiles for skin parameters were generated in vivo by CRS.•The curve profiles of in vivo data could be visualised within a few minutes.•The correlation between skin and blood cholesterol levels was investigated. In vivo application of confocal Raman spectroscopy (CRS) allows non-invasive depth measurement of the skin. Thereby obtained knowledge of the skin composition is essential to reliably assess the actual skin state. Besides other components, the skin cholesterol concentration is of interest; however, little is known about its connection to the cholesterol concentration quantified in venous blood. In this study, the skin composition of the volar forearm was characterised in vivo using CRS. In particular, the potential of CRS as a non-invasive method to determine cholesterol levels was validated. Raman spectra of the volar forearm of 15 participants were recorded twice within two weeks. Depth concentration profiles for major skin components were generated. Stratum corneum (SC) thickness was calculated from water concentration profiles. In order to examine the usability of dermal CRS for cholesterol level determination, results were compared to fasting total cholesterol values in venous blood as determined by an enzymatic method. Depth concentration profiles for the skin components of interest showed a comparable curve progression for the participants. It was possible to link changes in concentration to physiological processes. Moreover, age-related differences could be found. Several novel mathematical approaches for the comparison of the skin cholesterol content and the blood cholesterol concentration have been developed. However, no correlation passed the Bonferroni multiple testing correction. CRS serves as useful tool for the in vivo monitoring of skin components and hydration. Concentration depth profiles provide information about the current skin condition. No distinct correlation between the skin and blood cholesterol concentration was found within the scope of the present study. Concerning this matter, the heterogeneous distribution of cholesterol in the skin may be a factor influencing these results.
In vivo application of confocal Raman spectroscopy (CRS) allows non-invasive depth measurement of the skin. Thereby obtained knowledge of the skin composition is essential to reliably assess the actual skin state. Besides other components, the skin cholesterol concentration is of interest; however, little is known about its connection to the cholesterol concentration quantified in venous blood. In this study, the skin composition of the volar forearm was characterised in vivo using CRS. In particular, the potential of CRS as a non-invasive method to determine cholesterol levels was validated. Raman spectra of the volar forearm of 15 participants were recorded twice within two weeks. Depth concentration profiles for major skin components were generated. Stratum corneum (SC) thickness was calculated from water concentration profiles. In order to examine the usability of dermal CRS for cholesterol level determination, results were compared to fasting total cholesterol values in venous blood as determined by an enzymatic method. Depth concentration profiles for the skin components of interest showed a comparable curve progression for the participants. It was possible to link changes in concentration to physiological processes. Moreover, age-related differences could be found. Several novel mathematical approaches for the comparison of the skin cholesterol content and the blood cholesterol concentration have been developed. However, no correlation passed the Bonferroni multiple testing correction. CRS serves as useful tool for the in vivo monitoring of skin components and hydration. Concentration depth profiles provide information about the current skin condition. No distinct correlation between the skin and blood cholesterol concentration was found within the scope of the present study. Concerning this matter, the heterogeneous distribution of cholesterol in the skin may be a factor influencing these results.
Author Baierl, Andreas
SheikhRezaei, Safoura
Wolzt, Michael
Binder, Lisa
Gruber, Lukas
Valenta, Claudia
Author_xml – sequence: 1
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  givenname: Lukas
  surname: Gruber
  fullname: Gruber, Lukas
  organization: University of Vienna, Department of Pharmaceutical Technology and Biopharmaceutics, Althanstraße 14, 1090 Vienna, Austria
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  surname: Valenta
  fullname: Valenta, Claudia
  email: claudia.valenta@univie.ac.at
  organization: University of Vienna, Department of Pharmaceutical Technology and Biopharmaceutics, Althanstraße 14, 1090 Vienna, Austria
BackLink https://www.ncbi.nlm.nih.gov/pubmed/28826690$$D View this record in MEDLINE/PubMed
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Issue 3
Keywords SC
Stratum corneum
CRS
NMF
Confocal raman spectroscopy
Cholesterol
Non-invasive measurement
TC
Language English
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Snippet •Depth concentration profiles for skin parameters were generated in vivo by CRS.•The curve profiles of in vivo data could be visualised within a few...
In vivo application of confocal Raman spectroscopy (CRS) allows non-invasive depth measurement of the skin. Thereby obtained knowledge of the skin composition...
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SubjectTerms Adult
Cholesterol
Cholesterol - analysis
Confocal raman spectroscopy
Female
Forearm
Humans
Male
Middle Aged
Non-invasive measurement
Pilot Projects
Skin - chemistry
Skin Physiological Phenomena
Spectrum Analysis, Raman - methods
Stratum corneum
Water - analysis
Young Adult
Title Confocal Raman spectroscopy: In vivo measurement of physiological skin parameters – A pilot study
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https://dx.doi.org/10.1016/j.jdermsci.2017.08.002
https://www.ncbi.nlm.nih.gov/pubmed/28826690
https://www.proquest.com/docview/1931252438
Volume 88
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