Hydrogel Membranes in Organ-On-A-Chip Devices: A Review

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Hydrogel Membranes in Organ-On-A-Chip Devices: A Review Publisher Pubmed

Gnatowski P^{1, 2} ; Ansariaghmiuni M³ ; Pilat E¹ ; Poostchi M¹ ; Kucinskalipka J¹ ; Yazdi MK^{4, 5} ; Ryl J^{4, 5} ; Ashrafizadeh M⁶ ; Mottaghitalab F⁷ ; Farokhi M⁸ ; Saeb MR⁹ ; Baczek T⁹ ; Chen C¹⁰ ; Lu Q¹⁰

Source: Colloids and Surfaces B: Biointerfaces Published:2025

Abstract

Organ-on-a-chip (OoC) devices represent advanced in vitro models enabling to mimic the human tissue architecture function and physiology, providing a promising alternative to the traditional animal testing methods. These devices combine the microfluidics with soft materials, specifically hydrogel membranes (HMs) for mimicking the extracellular matrix (ECM) and biological barriers, such as the blood-brain barrier (BBB). Hydrogels are ideal biomaterials for OoC systems because of their tunable properties, biocompatibility, biodegradability, and microscale self-assembly. The integration of HMs with OoC devices provides an effective way to develop dynamic, biologically relevant environments for supporting living cells targeted at drug discovery, disease modeling, and personalized medicine. Recent advancements in fabrication technologies such as additive manufacturing (3D printing), photolithography, and bioprinting have additionally advanced development of such systems. This review aims to outline the role of HMs in OoC platforms, highlighting their material properties, self-assembly behavior, and also challenges associated with their fabrication. Additionally, we visualize and discuss the latest progress made in utilizing HMs for applications in tissue engineering, drug development, and biosensing, with a focus on their interface dynamics and structural self-organization. The future perspective on OoC technology has also been patterned in order to provide a broader image on integration of OoC and HMs with personalized medicine and advanced drug delivery systems. © 2025 Elsevier B.V.

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Style	Citing Format
MLA	Gnatowski P, et al.. "Hydrogel Membranes in Organ-On-A-Chip Devices: A Review." Colloids and Surfaces B: Biointerfaces, vol. 251, no. , 2025, pp. -.
APA	Gnatowski P, Ansariaghmiuni M, Pilat E, Poostchi M, Kucinskalipka J, Yazdi MK, Ryl J, Ashrafizadeh M, Mottaghitalab F, Farokhi M, Saeb MR, Baczek T, Chen C, Lu Q (2025). Hydrogel Membranes in Organ-On-A-Chip Devices: A Review. Colloids and Surfaces B: Biointerfaces, 251(), -.
Chicago	Gnatowski P, Ansariaghmiuni M, Pilat E, Poostchi M, Kucinskalipka J, Yazdi MK, Ryl J, et al.. "Hydrogel Membranes in Organ-On-A-Chip Devices: A Review." Colloids and Surfaces B: Biointerfaces 251, no. (2025): -.
Harvard	Gnatowski P et al. (2025) 'Hydrogel Membranes in Organ-On-A-Chip Devices: A Review', Colloids and Surfaces B: Biointerfaces, 251(), pp. -.
Vancouver	Gnatowski P, Ansariaghmiuni M, Pilat E, Poostchi M, Kucinskalipka J, Yazdi MK, et al.. Hydrogel Membranes in Organ-On-A-Chip Devices: A Review. Colloids and Surfaces B: Biointerfaces. 2025;251():-.
BibTex	@article{ author = {Gnatowski P and Ansariaghmiuni M and Pilat E and Poostchi M and Kucinskalipka J and Yazdi MK and Ryl J and Ashrafizadeh M and Mottaghitalab F and Farokhi M and Saeb MR and Baczek T and Chen C and Lu Q}, title = {Hydrogel Membranes in Organ-On-A-Chip Devices: A Review}, journal = {Colloids and Surfaces B: Biointerfaces}, volume = {251}, number = {}, pages = {-}, year = {2025} }
RIS	TY - JOUR AU - Gnatowski P AU - Ansariaghmiuni M AU - Pilat E AU - Poostchi M AU - Kucinskalipka J AU - Yazdi MK AU - Ryl J AU - Ashrafizadeh M AU - Mottaghitalab F AU - Farokhi M AU - Saeb MR AU - Baczek T AU - Chen C AU - Lu Q TI - Hydrogel Membranes in Organ-On-A-Chip Devices: A Review JO - Colloids and Surfaces B: Biointerfaces VL - 251 IS - SP - EP - PY - 2025 ER -

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