Polymeric Hydrogel Scaffolds: Skin Tissue Engineering and Regeneration

Varuna Naga Venkata Arjun Uppuluri , Shanmugarajan Thukani Sathanantham * , Sai Krishna Bhimavarapu, Lokesh Elumalai

Cited by CrossRef: 7

1- Xue J, Qin C, Wu C. 3D printing of cell-delivery scaffolds for tissue regeneration. 2023;10 [Crossref]

2- Li H, Zhao K, Jiang J, Zhu Q. Research progress on black phosphorus hybrids hydrogel platforms for biomedical applications. J Biol Eng. 2023;17(1) [Crossref]

3- Xu Y, Wu X, Zhang Y, Yu Y, Gan J, Tan Q. Engineered artificial skins: Current construction strategies and applications. Engineered Regeneration. 2023;4(4):438 [Crossref]

4- Feng W, Zhu C, Miao R, Li D, Xiong X, Wang R, Liu G, Ma J. Comparative Efficacy of Endogenous Stem Cells Recruiting Hydrogels and Stem Cell-loaded Hydrogels in Knee Cartilage Regeneration: A Meta- analysis. CSCR. 2024;19(7):993 [Crossref]

5- Jiang Y, Zhu C, Ma X, Fan D. Janus hydrogels: merging boundaries in tissue engineering for enhanced biomaterials and regenerative therapies. Biomater Sci. 2024; [Crossref]

6- Zhang Z, Bi F, Guo W. Research Advances on Hydrogel-Based Materials for Tissue Regeneration and Remineralization in Tooth. Gels. 2023;9(3):245 [Crossref]

7- Lecina-Tejero Ó, Pérez M, García-Gareta E, Borau C. The rise of mechanical metamaterials: Auxetic constructs for skin wound healing. J Tissue Eng. 2023;14 [Crossref]

8- Zahra D, Shokat Z, Ahmad A, Javaid A, Khurshid M, Ashfaq U, Nashwan A. Exploring the recent developments of alginate silk fibroin material for hydrogel wound dressing: A review. International Journal of Biological Macromolecules. 2023;248:125989 [Crossref]

9- Sun H, Ma H, Wang L, Liu Y, Hou T, Tang W, Yu Q, An M, Wen M. Biomimetic microchannel network with functional endothelium formed by sacrificial electrospun fibers inside 3D gelatin methacryloyl (GelMA) hydrogel models. J Zhejiang Univ Sci A. 2024;25(1):79 [Crossref]

10- A, Verma A, Mishra N, Singh N, Singh P, Nisha R, Pal R, Saraf S. Polymeric Gel Scaffolds and Biomimetic Environments for Wound Healing. CPD. 2023;29(40):3221 [Crossref]

11- Ivory-Cousins T, Nurzynska A, Klimek K, Baines D, Truszkiewicz W, Pałka K, Douglas T. Whey Protein Isolate/Calcium Silicate Hydrogels for Bone Tissue Engineering Applications—Preliminary In Vitro Evaluation. Materials. 2023;16(19):6484 [Crossref]

12- Benítez-Martínez J, Garnica-Palafox I, Rodríguez-Hernández A, Pérez-Calixto D, Vázquez-Victorio G, Hernádez-Gordillo A, Sánchez-Arévalo F. Physicochemical characterization and biological response of PDMS/CS/PVA/GEN semi-interpenetrating networks as a function of CS/PVA/GEN ratio for tissue engineering. Appl Phys A. 2023;129(8) [Crossref]

13- Yuan H, Liu W, Fu Y, Wu J, Chen S, Wang X. Clinical Applicable Carboxymethyl Chitosan with Gel-Forming and Stabilizing Properties Based on Terminal Sterilization Methods of Electron Beam Irradiation. ACS Omega. 2024;9(16):18599 [Crossref]

14- Syed M, Khan M, Zahari M, Beg M, Abdullah N. A review on current trends and future prospectives of electrospun biopolymeric nanofibers for biomedical applications. European Polymer Journal. 2023;197:112352 [Crossref]

15- Huang Y, Chen Y, Cheng G, Li W, Zhang H, Yu C, Fang J, Zuo J, Li Y, Xu L, Sun D. A TA/Cu2+ Nanoparticle Enhanced Carboxymethyl Chitosan-Based Hydrogel Dressing with Antioxidant Properties and Promoting Wound Healing. IJN. 2024;Volume 19:231 [Crossref]