2023
DOI: 10.1002/adfm.202304950
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Organoid‐Loaded Cryomicroneedles for Biomimic Hair Regeneration

Bowen Zheng,
Lunan Yang,
Sining Feng
et al.

Abstract: Organoids have attracted extensive attention in the field of hair follicle (HF) tissue engineering and regeneration. However, HF organoid implantation faces a number of difficulties, such as low viability ratios, invasive trauma, and complicated procedures. To overcome these issues, a convenient and minimally invasive delivery approach with high efficiency and cell viability is required. Here, HF organoid‐loaded methacrylated gelatin‐cryomicroneedles (GelMA‐cryoMNs) that are capable of efficient transdermal de… Show more

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Cited by 5 publications
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“…In vitro 3D printing can precisely introduce complex adnexal structures within biomaterial tissue engineering matrix, and arrange cells into a biomimetic micropattern that simulated the tissue structures of dermis and hair follicles [ 100 ]. Zheng et al developed an HF organoid-loaded methacrylated gelatin-cryomicroneedles which could easily delivery the HF organoids under the skin [ 101 ]. Bio-3D printing and microneedle technologies have the advantages of high structural accuracy and precise customization of microstructures, and proving a promising strategy for HF regeneration.…”
Section: Biomimetic Biomaterials For Skin Appendage Regenerationmentioning
confidence: 99%
“…In vitro 3D printing can precisely introduce complex adnexal structures within biomaterial tissue engineering matrix, and arrange cells into a biomimetic micropattern that simulated the tissue structures of dermis and hair follicles [ 100 ]. Zheng et al developed an HF organoid-loaded methacrylated gelatin-cryomicroneedles which could easily delivery the HF organoids under the skin [ 101 ]. Bio-3D printing and microneedle technologies have the advantages of high structural accuracy and precise customization of microstructures, and proving a promising strategy for HF regeneration.…”
Section: Biomimetic Biomaterials For Skin Appendage Regenerationmentioning
confidence: 99%