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. 2023 Nov;35(47):e2304638.
doi: 10.1002/adma.202304638. Epub 2023 Oct 19.

Mechano-Activated Cell Therapy for Accelerated Diabetic Wound Healing

Yufeng Shou  1   2 Zhicheng Le  1   2 Hong Sheng Cheng  3 Qimin Liu  4 Yi Zhen Ng  5 David Laurence Becker  3   5 Xianlei Li  1   2 Ling Liu  2   6 Chencheng Xue  1   2 Natalie Jia Ying Yeo  3 Runcheng Tan  7 Jessalyn Low  1 Arun R K Kumar  2   8 Kenny Zhuoran Wu  1 Hua Li  9 Christine Cheung  3   10 Chwee Teck Lim  1   2   11 Nguan Soon Tan  3   12 Yongming Chen  7 Zhijia Liu  7 Andy Tay  1   2   6
Affiliations

Mechano-Activated Cell Therapy for Accelerated Diabetic Wound Healing

Yufeng Shou et al. Adv Mater. 2023 Nov.

Abstract

Chronic diabetic wounds are a significant global healthcare challenge. Current strategies, such as biomaterials, cell therapies, and medical devices, however, only target a few pathological features and have limited efficacy. A powerful platform technology combining magneto-responsive hydrogel, cells, and wireless magneto-induced dynamic mechanical stimulation (MDMS) is developed to accelerate diabetic wound healing. The hydrogel encapsulates U.S. Food and Drug Administration (FDA)-approved fibroblasts and keratinocytes to achieve ∼3-fold better wound closure in a diabetic mouse model. MDMS acts as a nongenetic mechano-rheostat to activate fibroblasts, resulting in ∼240% better proliferation, ∼220% more collagen deposition, and improved keratinocyte paracrine profiles via the Ras/MEK/ERK pathway to boost angiogenesis. The magneto-responsive property also enables on-demand insulin release for spatiotemporal glucose regulation through increasing network deformation and interstitial flow. By mining scRNAseq data, a mechanosensitive fibroblast subpopulation is identified that can be mechanically tuned for enhanced proliferation and collagen production, maximizing therapeutic impact. The "all-in-one" system addresses major pathological factors associated with diabetic wounds in a single platform, with potential applications for other challenging wound types.

Keywords: cell therapy; diabetic wounds; dynamic mechanical stimulation; magnetic hydrogels; regenerative medicine.

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