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Lim JZM, Ng NSL, Thomas C. 2017. Prevention and treatment of diabetic foot ulcers. Journal of the Royal Society of Medicine 110:104−9

Hauck S, Zager P, Halfter N, Wandel E, Torregrossa M, et al. 2021. Collagen/hyaluronan based hydrogels releasing sulfated hyaluronan improve dermal wound healing in diabetic mice via reducing inflammatory macrophage activity. Bioactive Materials 6:4342−59

Li Y, Fu R, Duan Z, Zhu C, Fan D. 2022. Artificial nonenzymatic antioxidant Mxene nanosheet-anchored injectable hydrogel as a mild photothermal-controlled oxygen release platform for diabetic wound healing. ACS Nano 16:7486−502

Wang T, Li Y, Cornel EJ, Li C, Du J. 2021. Combined antioxidant-antibiotic treatment for effectively healing infected diabetic wounds based on polymer vesicles. ACS Nano 15:9027−38

Chen H, Cheng Y, Tian J, Yang P, Zhang X, et al. 2020. Dissolved oxygen from microalgae-gel patch promotes chronic wound healing in diabetes. Science Advances 6:eaba4311

Tu C, Lu H, Zhou T, Zhang W, Deng L, et al. 2022. Promoting the healing of infected diabetic wound by an anti-bacterial and nano-enzyme-containing hydrogel with inflammation-suppressing, ROS-scavenging, oxygen and nitric oxide-generating properties. Biomaterials 286:121597

Mao C, Xiang Y, Liu X, Cui Z, Yang X, et al. 2018. Repeatable photodynamic therapy with triggered signaling pathways of fibroblast cell proliferation and differentiation to promote bacteria-accompanied wound healing. ACS Nano 12:1747−59

Zhang Z, Wang J, Luo Y, Li C, Sun Y, et al. 2023. A pH-responsive ZC-QPP hydrogel for synergistic antibacterial and antioxidant treatment to enhance wound healing. Journal of Materials Chemistry B 11:9300−10

Dong R, Guo B. 2021. Smart wound dressings for wound healing. Nano Today 41:101290

Xu Z, Han S, Gu Z, Wu J. 2020. Advances and Impact of Antioxidant Hydrogel in Chronic Wound Healing. Advanced Healthcare Materials 9:1901502

Gopinath D, Ahmed MR, Gomathi K, Chitra K, Sehgal PK, et al. 2004. Dermal wound healing processes with curcumin incorporated collagen films. Biomaterials 25:1911−17

Peng Y, He D, Ge X, Lu Y, Chai Y, et al. 2021. Construction of heparin-based hydrogel incorporated with Cu5.4O ultrasmall nanozymes for wound healing and inflammation inhibition. Bio active Materials 6:3109−3124

Choi H, Kim B, Jeong SH, Kim TY, Kim DP, et al. 2023. Microalgae-based biohybrid microrobot for accelerated diabetic wound healing. Small 19:2204617

Yuan Y, Fan D, Shen S, Ma X. 2022. An M2 macrophage-polarized anti-inflammatory hydrogel combined with mild heat stimulation for regulating chronic inflammation and impaired angiogenesis of diabetic wounds. Chemical Engineering Journal 433:133859

Alfei S, Schito GC, Schito AM, Zuccari G. 2024. Reactive oxygen species (ROS)-mediated antibacterial oxidative therapies: available methods to generate ROS and a novel option proposal. International Journal of Molecular Sciences 25:7182

Lu Y, Li H, Wang J, Yao M, Peng Y, et al. 2021. Engineering bacteria-activated multifunctionalized hydrogel for promoting diabetic wound healing. Advanced Functional Materials 31:2105749

Shi T, Lu H, Zhu J, Zhou X, He C, et al. 2023. Naturally derived dual dynamic crosslinked multifunctional hydrogel for diabetic wound healing. Composites Part B - Engineering 257:110687

Hu B, Gao M, Boakye-Yiadom KO, Ho W, Yu W, et al. 2021. An intrinsically bioactive hydrogel with on-demand drug release behaviors for diabetic wound healing. Bioactive Materials 6:4592−606

Liang Y, He J, Guo B. 2021. Functional hydrogels as wound dressing to enhance wound healing. ACS Nano 15:12687−722

Hu C, Zhang F, Long L, Kong Q, Luo R, et al. 2020. Dual-responsive injectable hydrogels encapsulating drug-loaded micelles for on-demand antimicrobial activity and accelerated wound healing. Journal of Controlled Release 324:204−17

Hu J, Hu Q, He X, Liu C, Kong Y, et al. 2020. Stimuli-responsive hydrogels with antibacterial activity assembled from guanosine, aminoglycoside, and a bifunctional anchor. Advanced Healthcare Materials 9:1901329

Nonsuwan P, Matsugami A, Hayashi F, Hyon SH, Matsumura K. 2019. Controlling the degradation of an oxidized dextran-based hydrogel independent of the mechanical properties. Carbohydrate Polymers 204:131−41

Guan S, Zhang K, Cui L, Liang J, Li J, et al. 2022. Injectable gelatin/oxidized dextran hydrogel loaded with apocynin for skin tissue regeneration. Biomaterials Advances 133:112604

Wu Y, Wang Y, Long L, Hu C, Kong Q, et al. 2022. A spatiotemporal release platform based on pH/ROS stimuli-responsive hydrogel in wound repairing. Journal of Controlled Release 341:147−65

Albright V, Zhuk I, Wang YH, Selin V, van de Belt-Gritter B, et al. 2017. Self-defensive antibiotic-loaded layer-by-layer coatings: Imaging of localized bacterial acidification and pH-triggering of antibiotic release. Acta Biomaterialia 61:66−74

Fang X, Liu Y, Zhang M, Zhou S, Cui P, et al. 2022. Glucose oxidase loaded thermosensitive hydrogel as an antibacterial wound dressing. Journal of Drug Delivery Science and Technology 76:103791

Wang L, Chen G, Fan L, Chen H, Zhao Y, et al. 2023. Biomimetic enzyme cascade structural color hydrogel microparticles for diabetic wound healing management. Advanced Science 10:2206900

Qi W, Yan X, Fei J, Wang A, Cui Y, et al. 2009. Triggered release of insulin from glucose-sensitive enzyme multilayer shells. Bioma terials 30:2799−806

Wang Y, Wang J, Gao R, Liu X, Feng Z, et al. 2022. Biomimetic glycopeptide hydrogel coated PCL/nHA scaffold for enhanced cranial bone regeneration via macrophage M2 polarization-induced osteo-immunomodulation. Biomaterials 285:121538

Khoury LR, Slawinski M, Collison DR, Popa I. 2020. Cation-induced shape programming and morphing in protein-based hydrogels. Science Advances 6:eaba6112

Zhang Q, Liu Y, Yang G, Kong H, Guo L, et al. 2023. Recent advances in protein hydrogels: From design, structural and functional regulations to healthcare applications. Chemical Engineering Journal 451:138494

Jia Y, Li J. 2015. Molecular assembly of Schiff Base interactions: construction and application. Chemical Reviews 115:1597−621

Liu W, Liu S, Sun M, Guo F, Wang P, et al. 2024. Glycopeptide-based multifunctional nanofibrous hydrogel that facilitates the healing of diabetic wounds infected with methicillin-resistant Staphylococcus aureus. Acta Biomaterialia 181:161−75

Zhou X, Zhao B, Wang L, Yang L, Chen H, et al. 2023. A glucose-responsive nitric oxide release hydrogel for infected diabetic wounds treatment. Journal of Controlled Release 359:147−60

Hou F, Jiang W, Zhang Y, Tang J, Li D, et al. 2022. Biodegradable dual-crosslinked adhesive glue for fixation and promotion of osteogenesis. Chemical Engineering Journal 427:132000

Yin SH, Duan MP, Qian YR, Lv CY, Zang JC, et al. 2023. Regulatable and reversible native paramyosin hydrogels promote the wound healing of the skin in mice. Chemical Engineering Journal 462:142294

Zhang M, Chen G, Lei M, Lei J, Li D, et al. 2021. A pH-sensitive oxidized-dextran based double drug-loaded hydrogel with high antibacterial properties. International Journal of Biological Macromolecules 182:385−93

Yan S, Wang T, Feng L, Zhu J, Zhang K, et al. 2014. Injectable in situ self-cross-linking hydrogels based on poly(L-glutamic acid) and alginate for cartilage tissue engineering. Biomacromolecules 15:4495−508

Huang Y, Mu L, Zhao X, Han Y, Guo B. 2022. Bacterial growth-induced tobramycin smart release self-healing hydrogel for Pseudomonas aeruginosa-infected burn wound healing. ACS Nano 16:13022−36

Tan W, Long T, Wan Y, Li B, Xu Z, et al. 2023. Dual-drug loaded polysaccharide-based self-healing hydrogels with multifunctionality for promoting diabetic wound healing. Carbohydrate Polymers 312:120824

Lü SY, Gao CM, Xu XB, Bai X, Duan HG, et al. 2015. Injectable and Self-Healing Carbohydrate-Based Hydrogel for Cell Encapsulation. Acs Applied Materials & Interfaces 7:13029−37

Xue X, Hu Y, Deng Y, Su J. 2021. Recent advances in design of functional biocompatible hydrogels for bone tissue engineering. Advanced Functional Materials 31:2009432

Zhao Y, Li Z, Song S, Yang K, Liu H, et al. 2019. Skin-inspired antibacterial conductive hydrogels for epidermal sensors and diabetic foot wound dressings. Advanced Functional Materials 29:1901474

Bertsch P, Diba M, Mooney DJ, Leeuwenburgh SCG. 2023. Self-healing injectable hydrogels for tissue regeneration. Chemical Reviews 123:834−873

Fu YJ, Shi YF, Wang LY, Zhao YF, Wang RK, et al. 2023. All-Natural Immunomodulatory Bioadhesive Hydrogel Promotes Angiogenesis and Diabetic Wound Healing by Regulating Macrophage Heterogeneity. Advanced Science 10:2206771

Han X, Chen S, Cai Z, Zhu Y, Yi W, et al. 2023. A Diagnostic and Therapeutic Hydrogel to Promote Vascularization via Blood Sugar Reduction for Wound Healing. Advanced Functional Materials 33:2213008

Zhao L, Niu L, Liang H, Tan H, Liu C, et al. 2017. pH and glucose dual-responsive injectable hydrogels with insulin and fibroblasts as bioactive dressings for diabetic wound healing. ACS Applied Materials & Interfaces 9:37563−74

Wallace LA, Gwynne L, Jenkins T. 2019. Challenges and opportunities of pH in chronic wounds. Therapeutic Delivery 10:719−35

Shao Z, Yin T, Jiang J, He Y, Xiang T, et al. 2023. Wound microenvironment self-adaptive hydrogel with efficient angiogenesis for promoting diabetic wound healing. Bioactive Materials 20:561−73

Hao J, Liu CX, Zhou L, Wu N, Sun MY, et al. 2024. Enhancing diabetic wound healing with a pH/glucose dual-responsive hydrogel for ROS clearance and antibacterial activity. International Journal of Biological Macromolecules 272:132935

Zhu S, Zhao B, Li M, Wang H, Zhu J, et al. 2023. Microenvironment responsive nanocomposite hydrogel with NIR photothermal therapy, vascularization and anti-inflammation for diabetic infected wound healing. Bioactive Materials 26:306−320

Yang Y, Zhao X, Yu J, Chen X, Wang R, et al. 2021. Bioactive skin-mimicking hydrogel band-aids for diabetic wound healing and infectious skin incision treatment. Bioactive Materials 6:3962−75

Maleki A, He J, Bochani S, Nosrati V, Shahbazi MA, et al. 2021. Multifunctional photoactive hydrogels for wound healing acceleration. ACS Nano 15:18895−930

Thorn CR, Carvalho-Wodarz CdS, Horstmann JC, Lehr CM, Prestidge CA, Thomas N. 2021. Tobramycin liquid crystal nanoparticles eradicate cystic fibrosis-related pseudomonas aeruginosa biofilms. Small 17:2100531

Zi Y, Zhu M, Li X, Xu Y, Wei H, et al. 2018. Effects of carboxyl and aldehyde groups on the antibacterial activity of oxidized amylose. Carbohydrate Polymers 192:118−25

Furman BL. 2021. Streptozotocin-induced diabetic models in mice and rats. Current Protocols 1:e78

Deng M, Wu Y, Ren Y, Song H, Zheng L, et al. 2022. Clickable and smart drug delivery vehicles accelerate the healing of infected diabetic wounds. Journal of Controlled Release 350:613−29

Hu C, Long L, Cao J, Zhang S, Wang Y. 2021. Dual-crosslinked mussel-inspired smart hydrogels with enhanced antibacterial and angiogenic properties for chronic infected diabetic wound treatment via pH-responsive quick cargo release. Chemical Engineering Journal 411:128564

Li Y, Su L, Zhang Y, Liu Y, Huang F, et al. 2022. A guanosine-quadruplex hydrogel as cascade reaction container consuming endogenous glucose for infected wound treatment-a study in diabetic mice. Advanced Science 9:2103485

Wang Z, Dong Y, Wang Y. 2023. Collagen-based biomaterials for tissue engineering. ACS Biomaterials Science & Engineering 9:1132−50

Azevedo F, Pessoa A, Moreira G, Dos Santos M, Liberti E, et al. 2016. Effect of topical insulin on second-degree burns in diabetic rats. Biological Research for Nursing 18:181−92

Eming SA, Brachvogel B, Odorisio T, Koch M. 2007. Regulation of angiogenesis: wound healing as a model. Progress in Histochemistry and Cytochemistry 42:115−70

Liang Y, Li M, Yang Y, Qiao L, Xu H, et al. 2022. pH/Glucose dual responsive metformin release hydrogel dressings with adhesion and self-healing via dual-dynamic bonding for athletic diabetic foot wound healing. ACS Nano 16:3194−207

Wynn TA, Vannella KM. 2016. Macrophages in tissue repair, regeneration, and fibrosis. Immunity 44:450−62