Highly Porous and Rigid, Full-thickness Human Skin Model from the Slime-webbed Fiber Scaffold

Collagen is the most prevalent scaffold material for in vitro skin models. The major limitation of collagen scaffold is its mechanical weakness, resulting in severe contraction during differentiation. Here, we presented a slime-webbed scaffold composed of perpendicularly stacked fibers with large po...

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Published in	Biotechnology and bioprocess engineering Vol. 28; no. 2; pp. 246 - 254
Main Authors	Kim, Jae Jung, Lee, Nam Keun, Ryu, Da Eun, Ko, Byoung Ho, Kim, Ju Hyeon, Rhee, Jin-Kyu, Sung, Jong Hwan
Format	Journal Article
Language	English
Published	Seoul The Korean Society for Biotechnology and Bioengineering 01.04.2023 Springer Nature B.V 한국생물공학회
Subjects	Biomarkers Biotechnology Cell culture Cell viability Chemicals Chemistry Chemistry and Materials Science Collagen Cosmetics Differentiation Fibers Fibroblasts Glycerol Industrial and Production Engineering Keratin Keratinocytes Mechanical properties Research Paper Scaffolds Skin skin (animal) Skin tests Slime 생물공학 human skin model fiber slime-webbing method
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Abstract	Collagen is the most prevalent scaffold material for in vitro skin models. The major limitation of collagen scaffold is its mechanical weakness, resulting in severe contraction during differentiation. Here, we presented a slime-webbed scaffold composed of perpendicularly stacked fibers with large pores. This slime-webbed scaffold did not contract while improving molecular transport and achieving comparable cell viability. Fibroblasts were seeded into the slime-webbed scaffold to mimic the dermal layer. In the epidermal layer, which was on top of this scaffold, keratinocytes expressed the differentiation biomarkers, keratin-5 and involucrin. Our slime-webbed scaffold-based human skin models overcome the critical limitations of collagen scaffold, suggesting a promising alternative skin model for consistent testing of drugs or cosmetic products.
AbstractList	Collagen is the most prevalent scaffold material for in vitro skin models. The major limitation of collagen scaffold is its mechanical weakness, resulting in severe contraction during differentiation. Here, we presented a slime-webbed scaffold composed of perpendicularly stacked fibers with large pores. This slime-webbed scaffold did not contract while improving molecular transport and achieving comparable cell viability. Fibroblasts were seeded into the slime-webbed scaffold to mimic the dermal layer. In the epidermal layer, which was on top of this scaffold, keratinocytes expressed the differentiation biomarkers, keratin-5 and involucrin. Our slime-webbed scaffold-based human skin models overcome the critical limitations of collagen scaffold, suggesting a promising alternative skin model for consistent testing of drugs or cosmetic products. Collagen is the most prevalent scaffold material for in vitro skin models. The major limitation of collagen scaffold is its mechanical weakness, resulting in severe contraction during differentiation. Here, we presented a slime-webbed scaffold composed of perpendicularly stacked fibers with large pores. This slime-webbed scaffold did not contract while improving molecular transport and achieving comparable cell viability. Fibroblasts were seeded into the slime-webbed scaffold to mimic the dermal layer. In the epidermal layer, which was on top of this scaffold, keratinocytes expressed the differentiation biomarkers, keratin-5 and involucrin. Our slime-webbed scaffold-based human skin models overcome the critical limitations of collagen scaffold, suggesting a promising alternative skin model for consistent testing of drugs or cosmetic products. Collagen is the most prevalent scaffold material for in vitro skin models. The major limitation of collagen scaffold is its mechanical weakness, resulting in severe contraction during differentiation. Here, we presented a slime-webbed scaffold composed of perpendicularly stacked fibers with large pores. This slime-webbed scaffold did not contract while improving molecular transport and achieving comparable cell viability. Fibroblasts were seeded into the slime-webbed scaffold to mimic the dermal layer. In the epidermal layer, which was on top of this scaffold, keratinocytes expressed the differentiation biomarkers, keratin-5 and involucrin. Our slime-webbed scaffold-based human skin models overcome the critical limitations of collagen scaffold, suggesting a promising alternative skin model for consistent testing of drugs or cosmetic products. KCI Citation Count: 0
Author	Rhee, Jin-Kyu Ryu, Da Eun Kim, Ju Hyeon Ko, Byoung Ho Kim, Jae Jung Lee, Nam Keun Sung, Jong Hwan
Author_xml	– sequence: 1 givenname: Jae Jung surname: Kim fullname: Kim, Jae Jung organization: Department of Chemical Engineering, Hongik University – sequence: 2 givenname: Nam Keun surname: Lee fullname: Lee, Nam Keun organization: Department of Food Science and Biotechnology, Ewha Womans University – sequence: 3 givenname: Da Eun surname: Ryu fullname: Ryu, Da Eun organization: Department of Chemical Engineering, Hongik University – sequence: 4 givenname: Byoung Ho surname: Ko fullname: Ko, Byoung Ho organization: Department of Chemical Engineering, Hongik University – sequence: 5 givenname: Ju Hyeon surname: Kim fullname: Kim, Ju Hyeon organization: Department of Chemical Engineering, Hongik University – sequence: 6 givenname: Jin-Kyu surname: Rhee fullname: Rhee, Jin-Kyu email: jkrhee@ewha.ac.kr organization: Department of Food Science and Biotechnology, Ewha Womans University, SuFAB Inc – sequence: 7 givenname: Jong Hwan surname: Sung fullname: Sung, Jong Hwan email: jhsung22@hongik.ac.kr organization: Department of Chemical Engineering, Hongik University
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SubjectTerms	Biomarkers Biotechnology Cell culture Cell viability Chemicals Chemistry Chemistry and Materials Science Collagen Cosmetics Differentiation Fibers Fibroblasts Glycerol Industrial and Production Engineering Keratin Keratinocytes Mechanical properties Research Paper Scaffolds Skin skin (animal) Skin tests Slime 생물공학
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Title	Highly Porous and Rigid, Full-thickness Human Skin Model from the Slime-webbed Fiber Scaffold
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