Development of a "Blinking Artificial Skin Model" Replicating 20,000 Daily Movements for New Eye-Area Aging Evaluation
Nippon Menard Cosmetic has developed an artificial skin model that replicates the approximately 20,000 daily blinks of the human eye. The model enables evaluation of oxidative stress accumulation caused by dynamic stress.
📋 Article Processing Timeline
- 📰 Published: May 26, 2026 at 19:30
- 🔍 Collected: May 26, 2026 at 11:01
- 🤖 AI Analyzed: May 27, 2026 at 12:35 (25h 33m after Collected)
Nippon Menard Cosmetic Co., Ltd. has successfully developed a new artificial skin model that faithfully reproduces the human eye area and validates the impact of "blinking" using advanced stem cell culture technology.
While skin vitality is maintained by new cells generated from stem cells, facial skin undergoes constant stretching due to expression changes. The eye area is particularly unique, subjected to incessant dynamic stress from approximately 20,000 blinks per day.
In this research, the company integrated an artificial skin model, created based on 3D scans of the human eye area, with an electric mechanism that automatically repeats blinking. This innovation allows for the evaluation of reactive oxygen species (ROS) accumulation—a primary cause of skin aging—within an environment that mimics daily movements. A patent application has been filed for this technology (Patent App. 2026-072079).
Tests confirmed the model's high durability, showing no tissue damage or tearing even after 20,000 blinks. Furthermore, increased expression of oxidative stress markers was observed in areas with high blinking loads, enabling the evaluation of cell damage fluctuations corresponding to dynamic stress levels. Menard plans to utilize this model to elucidate localized aging mechanisms and evaluate the efficacy of skincare products and makeup durability.
While skin vitality is maintained by new cells generated from stem cells, facial skin undergoes constant stretching due to expression changes. The eye area is particularly unique, subjected to incessant dynamic stress from approximately 20,000 blinks per day.
In this research, the company integrated an artificial skin model, created based on 3D scans of the human eye area, with an electric mechanism that automatically repeats blinking. This innovation allows for the evaluation of reactive oxygen species (ROS) accumulation—a primary cause of skin aging—within an environment that mimics daily movements. A patent application has been filed for this technology (Patent App. 2026-072079).
Tests confirmed the model's high durability, showing no tissue damage or tearing even after 20,000 blinks. Furthermore, increased expression of oxidative stress markers was observed in areas with high blinking loads, enabling the evaluation of cell damage fluctuations corresponding to dynamic stress levels. Menard plans to utilize this model to elucidate localized aging mechanisms and evaluate the efficacy of skincare products and makeup durability.
FAQ
メナードが開発した新しい人工皮膚モデルの特徴は何ですか?
ヒトの目元の三次元形状を再現し、1日約2万回行われる「まばたき」の動的変化を全自動で再現できる電動機構を備えた点です。
このモデルではどのような評価が可能になりますか?
日常的なまばたき運動によって生じる動的ストレス環境下で、活性酸素の蓄積や酸化ストレスマーカーの発現など、皮膚老化のプロセスを評価できます。
モデルの作製にはどのような技術が使われていますか?
3Dスキャナーによる形状取得、表皮・真皮幹細胞の三次元培養技術、および長時間安定して駆動する電動機構が統合されています。
開発されたデバイスの耐久性はどの程度ですか?
約2万回のまばたき動作後も、皮膚組織の剥離や破れといった損傷は認められず、評価に耐え得る高い耐久性が確認されています。
今後の具体的な応用先はどこですか?
目元の老化メカニズムの解明、スキンケア製品の有効性評価、さらには化粧崩れの評価など、動的変化を伴う多様な評価系への応用が予定されています。