Promoting Oral Mucosal Wound Healing with a Hydrogel Adhesive Based on a Phototriggered S‐Nitrosylation Coupling Reaction

Zhang, Wenjie; Bao, Bingkun; Jiang, Fei; Zhang, Yiqing; Zhou, Renjie; Lu, Yuezhi; Lin, Sihan; Lin, Qiuning; Jiang, Xinquan; Zhu, Linyong

doi:10.1002/adma.202105667

Cited by 129 publications

(109 citation statements)

References 39 publications

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“…Various biomaterials have been used for skin tissue regeneration and repair, such as hydrogels [ 31 , 32 ], nanofibers [ 14 , 33 ]. However, the practical application of these biomaterials depends on their ability to meet the complicated functional requirements of the injured tissue.…”

Section: Introductionmentioning

confidence: 99%

An NIR photothermal-responsive hybrid hydrogel for enhanced wound healing

Jin

Guo

Gao

et al. 2022

Bioactive Materials

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Section: Introductionmentioning

confidence: 99%

An NIR photothermal-responsive hybrid hydrogel for enhanced wound healing

Jin

Guo

Gao

et al. 2022

Bioactive Materials

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“…[ 206,207 ] This is directly related to use and applications of mussel protein catecholic amino acid 3,4‐dihydroxyphenylalanine (DOPA) in mucoadhesion systems. [ 114,208 ] The catechol groups in DOPA can easily establish either covalent or noncovalent bonds over mucus.…”

Section: Future Perspectivesmentioning

confidence: 99%

Recent Advances in Mucoadhesive Interface Materials, Mucoadhesion Characterization, and Technologies

Bayer

2022

Adv Materials Inter

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Mucoadhesion is an extremely important field of adhesion science and the comprehensive understanding and modulation of mucoadhesion can lead to lifesaving materials and technologies. For instance, deadly cases of COVID‐19 (SARS‐CoV‐2) cytokine storm are associated with viral adhesion and overproduction of mucus, which obstructs the airways. Mucin is the key polymeric compound that is known as a family of high molecular weight, heavily glycosylated proteins in epithelial tissues. Mucoadhesion can occur in many different ways such as receptor specific and charge interactions, covalent or noncovalent bonds. New mucin‐mimic polymers that replicate its beneficial traits can prevent biofilm formation and biofouling not only in biotechnology but also in membrane technologies. This review addresses the latest understandings related to mucin's role in wet adhesion considering different physiological conditions and shows how this translates into interfacial polymer adhesion. Advances in mucoadhesion measurement techniques including the rheological aspects of polymer–mucin adhesive interactions are presented. Specific mucoadhesive systems are discussed such as hydrogel mucoadhesion, catechol/dopamine functionalization, and polymeric nanoparticles. This overview may expand the current understanding of mucoadhesion between soft materials but also contributes to elastocapillary phenomena in soft materials design and applications such as new membranes, drugs, pharmaceutical devices, and lubricated surfaces.

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“…With the development of anesthetics and drug delivery platform, needle-free topical anesthesia based on oral mucosa adhesion hydrogels has been tried to replace conventional local injection anesthesia in oral treatments to solve the problems of pain and side effects of injection. One of the major challenges of oral mucoadhesive hydrogels is the moist and highly dynamic oral environment 73 . The hydrogels need to exert the ability of firmly adhesion to the surface of the moist oral internal environment, resisting external forces without separating from the oral mucosa, and being thin and tensile to avoid discomfort of tongue and oral mucosa.…”

Section: Topical Oral Anesthesiamentioning

confidence: 99%