三维生物电子人体皮肤模型实现皮肤屏障功能动态监测

IF 10.7 1区生物学 Q1 BIOPHYSICS

Biosensors and Bioelectronics Pub Date : 2025-06-06 DOI:10.1016/j.bios.2025.117673

Sihui Xu , Kunal Das Mahapatra , Nicolas Maïno , Onur Parlak

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引用次数: 0

摘要

人体皮肤的复杂性为药物测试、疾病建模和生物传感等应用复制其结构和功能提出了重大挑战。现有的模型，如2D细胞培养，无法复制皮肤的分层结构和屏障特性，而动物研究引起了伦理问题，而且成本高昂。在这里，我们提出了一个3D表皮皮肤模型，旨在复制人类皮肤的多层结构，并集成了有机电化学晶体管（OECTs），用于实时无创监测皮肤屏障完整性。这里所代表的模型使研究人类皮肤的结构和功能方面成为可能。通过与oect相结合，我们可以动态评估皮肤屏障功能，与传统方法（如经上皮电阻（TEER））相比，显示出更高的灵敏度和时间分辨率。这种创新的方法将3D皮肤模型与先进的生物电子技术相结合，为皮肤研究提供了一个强大的工具，坚持道德标准，同时提供了对皮肤生理学的宝贵见解。

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Dynamic monitoring of skin barrier function enabled by 3D bioelectronic human skin model

The complexity of human skin poses significant challenges in replicating its structure and function for applications such as drug testing, disease modeling, and biosensing. Existing models, like 2D cell cultures, are unable to replicate the layered structure and barrier properties of the skin, while animal studies raise ethical concerns and are costly. Here we present a 3D epidermal skin model, designed to replicate the multilayered architecture of human skin, and integrated with organic electrochemical transistors (OECTs) for real-time non-invasive monitoring of skin barrier integrity. The model represented herein enables the study of both structural and functional aspects of human skin. By interfacing with OECTs, we can dynamically assess skin barrier function, demonstrating higher sensitivity and temporal resolution compared to traditional methods like transepithelial electrical resistance (TEER). This innovative approach merges 3D skin models with advanced bioelectronic technologies, offering a powerful tool for skin research that adheres to ethical standards while offering valuable insights into skin physiology.

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来源期刊

Biosensors and Bioelectronics 工程技术-电化学

CiteScore

20.80

自引率

7.10%

发文量

1006

审稿时长

29 days

期刊介绍： Biosensors & Bioelectronics, along with its open access companion journal Biosensors & Bioelectronics: X, is the leading international publication in the field of biosensors and bioelectronics. It covers research, design, development, and application of biosensors, which are analytical devices incorporating biological materials with physicochemical transducers. These devices, including sensors, DNA chips, electronic noses, and lab-on-a-chip, produce digital signals proportional to specific analytes. Examples include immunosensors and enzyme-based biosensors, applied in various fields such as medicine, environmental monitoring, and food industry. The journal also focuses on molecular and supramolecular structures for enhancing device performance.