Characterization of an ablative fractional CO<sub>2</sub> laser-induced wound-healing model based on in vitro 3D reconstructed skin.

He, Chunyan; Zhang, Wei; Tu, Yidong; Zhong, Lingyan; Wang, Ranran; Teng, Yao; Liao, I-Chien; Ding, Chunmei

Characterization of an ablative fractional CO₂ laser-induced wound-healing model based on in vitro 3D reconstructed skin.

He, Chunyan; Zhang, Wei; Tu, Yidong; Zhong, Lingyan; Wang, Ranran; Teng, Yao; Liao, I-Chien; Ding, Chunmei.

Affiliation

He C; L'Oreal Research and Innovation, SHANGHAI, China.
Zhang W; Shanghai Dermatology Hospital, SHANGHAI, China.
Tu Y; L'Oreal Research and Innovation, SHANGHAI, China.
Zhong L; L'Oreal Research and Innovation, SHANGHAI, China.
Wang R; L'Oreal Research and Innovation, SHANGHAI, China.
Teng Y; L'Oreal Research and Innovation, SHANGHAI, China.
Liao IC; L'Oreal Research and Innovation, CLARK, New Jersey, USA.
Ding C; L'Oreal Research and Innovation, SHANGHAI, China.

J Cosmet Dermatol ; 22(5): 1495-1506, 2023 May.

Article in En | MEDLINE | ID: mdl-36683276

Subject(s)

Carbon Dioxide; Skin; Humans; Wound Healing; Epidermis; Keratinocytes

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Skin / Carbon Dioxide Limits: Humans Language: En Journal: J Cosmet Dermatol Journal subject: DERMATOLOGIA Year: 2023 Document type: Article Affiliation country: China Country of publication: United kingdom

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