Flow‐IMPACT: A Pumpless, High‐Throughput 3D Cell Culture Platform for Investigation of Synergistic Angiogenic Effects (Adv. Mater. Technol. 11/2025) | Zendy

Park Seonghyuk | Zendy; Kim Youngtaek | Zendy; Lee Jungseub | Zendy; Jung Sangmin | Zendy; Hong Jongho | Zendy; Kim Suryong | Zendy; Lee SeungRyeol | Zendy; Song Jiyoung | Zendy; Park Siwan | Zendy; Oh Young Sun | Zendy; Ko Jihoon | Zendy; Jeon Noo Li | Zendy

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Flow‐IMPACT: A Pumpless, High‐Throughput 3D Cell Culture Platform for Investigation of Synergistic Angiogenic Effects (Adv. Mater. Technol. 11/2025)

Author(s) -

Park Seonghyuk,

Kim Youngtaek,

Lee Jungseub,

Jung Sangmin,

Hong Jongho,

Kim Suryong,

Lee SeungRyeol,

Song Jiyoung,

Park Siwan,

Oh Young Sun,

Ko Jihoon,

Jeon Noo Li

Publication year - 2025

Publication title -

advanced materials technologies

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.184

H-Index - 42

ISSN - 2365-709X

DOI - 10.1002/admt.202570060

Flow‐IMPACT In article number 2401526, Noo Li Jeon and co‐workers implement a pumpless microfluidic platform that stably reproduces interstitial flow within physiological velocity ranges. Such flow is achieved through engineered hydraulic resistance using serpentine channels and hydrogels. The study elucidates how flow‐mediated transport and mechanical cues regulate vascularization, providing a valuable framework for microenvironmental and tissue engineering research.

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