Association between collagen production and mechanical stretching in dermal extracellular matrix: In vivo effect of cross-linked hyaluronic acid filler. A randomised, placebo-controlled study

The effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical stress, causing biochemical changes in skin physiology. To ascertain the association between dermal mechanics modulated by a hyaluronic acid-based filler effect and m...

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Published in	Journal of dermatological science Vol. 69; no. 3; pp. 187 - 194
Main Authors	Turlier, Virginie, Delalleau, Alexandre, Casas, Christiane, Rouquier, Amandine, Bianchi, Pascale, Alvarez, Sandrine, Josse, Gwendal, Briant, Alain, Dahan, Serge, Saint-Martory, Christine, Theunis, Jennifer, Bensafi-Benaouda, Amel, Degouy, Arnaud, Schmitt, Anne-Marie, Redoulès, Daniel
Format	Journal Article
Language	English
Published	Netherlands Elsevier Ireland Ltd 01.03.2013
Subjects	Adult Aged Biopsy Collagen - metabolism Cross-Linking Reagents - pharmacology Dermatology Extracellular matrix Extracellular Matrix - physiology Female Fibroblasts Finite Element Analysis Gene Expression Regulation Humans Hyaluronic Acid - therapeutic use Hyaluronic acid fillers Matrix Metalloproteinases - metabolism Mechanical stretching Middle Aged Neocollagenesis Procollagen - metabolism Skin - drug effects Skin - metabolism Skin - pathology Skin Physiological Phenomena Stress, Mechanical Time Factors Tissue Inhibitor of Metalloproteinase-1 - metabolism Fibroblasts Extracellular matrix Hyaluronic acid fillers Mechanical stretching Neocollagenesis
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ISSN	0923-1811 1873-569X 1873-569X
DOI	10.1016/j.jdermsci.2012.12.006

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Abstract	The effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical stress, causing biochemical changes in skin physiology. To ascertain the association between dermal mechanics modulated by a hyaluronic acid-based filler effect and metabolism. Sixty females were randomised to receive a 0.5mL injection of HA gel or isotonic sodium chloride (control) in the arm. Skin biopsies were taken at baseline and after 1, 3 and 6 months. Protein and gene expression of procollagen, matrix metalloproteinases (MMP) and MMP tissue inhibitors (TIMP1) were measured blind by ELISA and qPCR, respectively. Injected volumes were measured by high-frequency ultrasound and radiofrequency analysis. Skin layer effects of injections were analysed by finite element digital modelling. One month after injection, the filler induced an increase in procollagen (p=0.0016) and TIMP-1 (p=0.0485) levels and relative gene expression of procollagen III and I isoforms compared with the controls. After 3 months, procollagen levels remained greater than in the controls (p=0.0005), whereas procollagen expression and TIMP-1 and MMP content were no longer different. Forty-three percent of the injected filler volume was found at 1 month, 26% after 3 months and 20% after 6 months. The ultrasound imaging technique limited the scope of the investigation and precluded an evaluation of the action of the filler at the hypodermic level. Integrating both mechanical and biological aspects, our results suggest that mechanical stress generated by cross-linked HA plays a role in dermal cell biochemical response.
AbstractList	The effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical stress, causing biochemical changes in skin physiology. To ascertain the association between dermal mechanics modulated by a hyaluronic acid-based filler effect and metabolism. Sixty females were randomised to receive a 0.5mL injection of HA gel or isotonic sodium chloride (control) in the arm. Skin biopsies were taken at baseline and after 1, 3 and 6 months. Protein and gene expression of procollagen, matrix metalloproteinases (MMP) and MMP tissue inhibitors (TIMP1) were measured blind by ELISA and qPCR, respectively. Injected volumes were measured by high-frequency ultrasound and radiofrequency analysis. Skin layer effects of injections were analysed by finite element digital modelling. One month after injection, the filler induced an increase in procollagen (p=0.0016) and TIMP-1 (p=0.0485) levels and relative gene expression of procollagen III and I isoforms compared with the controls. After 3 months, procollagen levels remained greater than in the controls (p=0.0005), whereas procollagen expression and TIMP-1 and MMP content were no longer different. Forty-three percent of the injected filler volume was found at 1 month, 26% after 3 months and 20% after 6 months. The ultrasound imaging technique limited the scope of the investigation and precluded an evaluation of the action of the filler at the hypodermic level. Integrating both mechanical and biological aspects, our results suggest that mechanical stress generated by cross-linked HA plays a role in dermal cell biochemical response. Abstract Background The effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical stress, causing biochemical changes in skin physiology. Objectives To ascertain the association between dermal mechanics modulated by a hyaluronic acid-based filler effect and metabolism. Methods Sixty females were randomised to receive a 0.5 mL injection of HA gel or isotonic sodium chloride (control) in the arm. Skin biopsies were taken at baseline and after 1, 3 and 6 months. Protein and gene expression of procollagen, matrix metalloproteinases (MMP) and MMP tissue inhibitors (TIMP1) were measured blind by ELISA and qPCR, respectively. Injected volumes were measured by high-frequency ultrasound and radiofrequency analysis. Skin layer effects of injections were analysed by finite element digital modelling. Results One month after injection, the filler induced an increase in procollagen ( p = 0.0016) and TIMP-1 ( p = 0.0485) levels and relative gene expression of procollagen III and I isoforms compared with the controls. After 3 months, procollagen levels remained greater than in the controls ( p = 0.0005), whereas procollagen expression and TIMP-1 and MMP content were no longer different. Forty-three percent of the injected filler volume was found at 1 month, 26% after 3 months and 20% after 6 months. Limitations The ultrasound imaging technique limited the scope of the investigation and precluded an evaluation of the action of the filler at the hypodermic level. Conclusions Integrating both mechanical and biological aspects, our results suggest that mechanical stress generated by cross-linked HA plays a role in dermal cell biochemical response. The effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical stress, causing biochemical changes in skin physiology.BACKGROUNDThe effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical stress, causing biochemical changes in skin physiology.To ascertain the association between dermal mechanics modulated by a hyaluronic acid-based filler effect and metabolism.OBJECTIVESTo ascertain the association between dermal mechanics modulated by a hyaluronic acid-based filler effect and metabolism.Sixty females were randomised to receive a 0.5mL injection of HA gel or isotonic sodium chloride (control) in the arm. Skin biopsies were taken at baseline and after 1, 3 and 6 months. Protein and gene expression of procollagen, matrix metalloproteinases (MMP) and MMP tissue inhibitors (TIMP1) were measured blind by ELISA and qPCR, respectively. Injected volumes were measured by high-frequency ultrasound and radiofrequency analysis. Skin layer effects of injections were analysed by finite element digital modelling.METHODSSixty females were randomised to receive a 0.5mL injection of HA gel or isotonic sodium chloride (control) in the arm. Skin biopsies were taken at baseline and after 1, 3 and 6 months. Protein and gene expression of procollagen, matrix metalloproteinases (MMP) and MMP tissue inhibitors (TIMP1) were measured blind by ELISA and qPCR, respectively. Injected volumes were measured by high-frequency ultrasound and radiofrequency analysis. Skin layer effects of injections were analysed by finite element digital modelling.One month after injection, the filler induced an increase in procollagen (p=0.0016) and TIMP-1 (p=0.0485) levels and relative gene expression of procollagen III and I isoforms compared with the controls. After 3 months, procollagen levels remained greater than in the controls (p=0.0005), whereas procollagen expression and TIMP-1 and MMP content were no longer different. Forty-three percent of the injected filler volume was found at 1 month, 26% after 3 months and 20% after 6 months.RESULTSOne month after injection, the filler induced an increase in procollagen (p=0.0016) and TIMP-1 (p=0.0485) levels and relative gene expression of procollagen III and I isoforms compared with the controls. After 3 months, procollagen levels remained greater than in the controls (p=0.0005), whereas procollagen expression and TIMP-1 and MMP content were no longer different. Forty-three percent of the injected filler volume was found at 1 month, 26% after 3 months and 20% after 6 months.The ultrasound imaging technique limited the scope of the investigation and precluded an evaluation of the action of the filler at the hypodermic level.LIMITATIONSThe ultrasound imaging technique limited the scope of the investigation and precluded an evaluation of the action of the filler at the hypodermic level.Integrating both mechanical and biological aspects, our results suggest that mechanical stress generated by cross-linked HA plays a role in dermal cell biochemical response.CONCLUSIONSIntegrating both mechanical and biological aspects, our results suggest that mechanical stress generated by cross-linked HA plays a role in dermal cell biochemical response.
Author	Schmitt, Anne-Marie Saint-Martory, Christine Delalleau, Alexandre Turlier, Virginie Josse, Gwendal Theunis, Jennifer Alvarez, Sandrine Rouquier, Amandine Briant, Alain Degouy, Arnaud Bensafi-Benaouda, Amel Redoulès, Daniel Dahan, Serge Bianchi, Pascale Casas, Christiane
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Keywords	Fibroblasts Extracellular matrix Hyaluronic acid fillers Mechanical stretching Neocollagenesis
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Snippet	The effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical stress, causing... Abstract Background The effects of hyaluronic acid (HA) injection on tissue collagen anabolism are suggested to be related to the induction of mechanical...
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SubjectTerms	Adult Aged Biopsy Collagen - metabolism Cross-Linking Reagents - pharmacology Dermatology Extracellular matrix Extracellular Matrix - physiology Female Fibroblasts Finite Element Analysis Gene Expression Regulation Humans Hyaluronic Acid - therapeutic use Hyaluronic acid fillers Matrix Metalloproteinases - metabolism Mechanical stretching Middle Aged Neocollagenesis Procollagen - metabolism Skin - drug effects Skin - metabolism Skin - pathology Skin Physiological Phenomena Stress, Mechanical Time Factors Tissue Inhibitor of Metalloproteinase-1 - metabolism
Title	Association between collagen production and mechanical stretching in dermal extracellular matrix: In vivo effect of cross-linked hyaluronic acid filler. A randomised, placebo-controlled study
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