A Bioinspired Medical Adhesive Derived from Skin Secretion of <i>Andrias davidianus</i> for Wound Healing

Deng, Jun; Tang, Yingying; Zhang, Qing; Wang, Chao; Liao, Min Chiao; Ji, Ping; Song, Jinlin; Luo, Gaoxing; Chen, Luo; Ran, Xiaohong; Wei, Ziquan; Zheng, Liwen; Dang, Ruyi; Liu, Xiang; Zhang, Hongmei; Zhang, Yu Shrike; Zhang, Ximu; Tan, Hong

doi:10.1002/adfm.201809110

Cited by 139 publications

(121 citation statements)

References 61 publications

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“…No serious tissue toxicity or inflammation was observed in the surrounding skin tissue from the H&E staining (Figure 4c). We also examined the systemic toxicity of the PL‐Cat/Fe/ODex hydrogel [ 5 ] after eight weeks and the results showed that no toxicity was detected in the main organs (Figure 4d). The results indicate that the PL‐Cat/Fe/ODex hydrogel is safe when applied in vivo.…”

Section: Resultsmentioning

confidence: 99%

“…Full thickness skin incision [ 5 ] was used as wound model to test the wound closure performance of the PL‐Cat/Fe/ODex hydrogel. First, the ability to repeatedly close the incision was evaluated.…”

Section: Resultsmentioning

confidence: 99%

“…As illustrated in Figure 5e, after adding DFO, the hydrogel that formed on the skin of the rats can also be dissolved quickly (within 10 min). It normally at least takes several days for wounds to heal after they were closed [ 5,36 ] and during this post‐wound closure time, the closed wounds may be broken by unexpected force or may need additional treatments. As shown by the clinical study, some wounds of the patient showed infection or seroma during the post‐wound closure time, and these closed wounds need to be facilely reopened and further handled.…”

Section: Resultsmentioning

confidence: 99%

“…[ 3,4 ] Sutureless wound closure, which mainly utilizes bioadhesives, is able to close the wounds by bonding the tissues around the wounds and has shown superiority in producing less pain and scars, enabling quick use and facilitating easy acceptance by patients in comparison with conventional sutures and staples. [ 5–7 ] In the past few years, various bioadhesives have been developed, showing adequate ability in wound closure. These bioadhesives can be conveniently applied through injection and have sufficient adhesive strength as well as low toxicity.…”

Section: Introductionmentioning

confidence: 99%

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Bioinspired Double‐Dynamic‐Bond Crosslinked Bioadhesive Enables Post‐Wound Closure Care

Chen

et al. 2020

Adv Funct Materials

142

122

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Most existing bioadhesives, even those showing superiority in wound closure effectiveness, do not assist in the post-wound closure process. A bioinspired, in situ formed, double-dynamic-bond crosslinked hydrogel bioadhesive that is capable of efficiently closing open wounds and enabling post-wound closure care is reported. Catechol-modified ε-poly-l-lysine and oxidized dextran are employed as natural polymer backbones and they are in situ crosslinked using Schiff 's base dynamic bond and catecholFe coordinate dynamic bond through a process inspired by that used to cure marine mussel glue, forming a hydrogel bioadhesive. The unique double-dynamic-bond crosslinked structure endows the bioadhesive with higher mechanical and adhesive strength while retaining quick dissociation and good self-healing capacities. Accordingly, the bioadhesive can exhibit multiple desirable functions, such as dissolution on demand, repeatable adhesiveness, adhesive and mechanical strength sufficient for wound closure, injectability, and good biocompatibility (DREAMING). After efficiently closing skin incisions, the bioadhesive can be facilely removed or repeatedly close the reopened wounds, thus enabling post-wound closure care. On the basis of favorable functions in wound closure and the ability to enable post-wound closure care, the bioadhesive demonstrates great potential in dealing with skin wounds.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Bioinspired Double‐Dynamic‐Bond Crosslinked Bioadhesive Enables Post‐Wound Closure Care

Chen

et al. 2020

Adv Funct Materials

142

122

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“…Especially, the adhesive dressing can avoid the secondary damage due to the fragility of soft tissue and localized stress and subsequent removal of non‐degradable sutures or staples, and simplify operation procedures, shorten recovery times, and improve patient care quality. [ 19 ] Catechol group contained substances have good biocompatibility and free radical scavenging ability, which can also show good tissue adhesiveness, self‐healing, and photothermal capacity after complexing with Fe 3+ . Combining the catechol–Fe 3+ coordination cross‐linked synthetic flexible polymer with UPy hydrogen bonding cross‐linked gelatin can prepare synthetic–natural hybrid physical double‐network hydrogel adhesive, integrating the flexible network of synthetic polymer, healing efficiency of natural gelatin, [ 1 ] antioxidant activity, photothermal sterilization, self‐healing and on demand photothermal removal.…”

Section: Introductionmentioning

confidence: 99%

Physical Double‐Network Hydrogel Adhesives with Rapid Shape Adaptability, Fast Self‐Healing, Antioxidant and NIR/pH Stimulus‐Responsiveness for Multidrug‐Resistant Bacterial Infection and Removable Wound Dressing

Zhao

Liang

Huang

et al. 2020

Adv Funct Materials

601

479

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3+ coordination cross-linked poly(glycerol sebacate)-copoly(ethylene glycol)-g-catechol and quadruple hydrogen bonding crosslinked ureido-pyrimidinone modified gelatin. It possesses excellent anti-oxidation, NIR/pH responsiveness, and shape adaptation. Additionally, the hydrogel presents rapid self-healing, good tissue adhesion, degradability, photothermal antibacterial activity, and NIR irradiation and/or acidic solution washing-assisted removability. In vivo experiments prove that the hydrogels have good hemostasis of skin trauma and high killing ratio for methicillin-resistant staphylococcus aureus (MRSA) and achieve better wound closure and healing of skin incision than medical glue and surgical suture. In particular, they can significantly promote full-thickness skin defect wound healing by regulating inflammation, accelerating collagen deposition, promoting granulation tissue formation, and vascularization. These on-demand dissolvable and antioxidant physical double-network hydrogel adhesives are excellent multifunctional dressings for treating in vivo MRSA infection, wound closure, and wound healing.

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Insights into Multifunctional Smart Hydrogels in Wound Healing Applications

De,

Das,

Prasad

et al. 2023

Advanced Materials and Manufacturing Techniques for Biomedical Applications

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A Bioinspired Medical Adhesive Derived from Skin Secretion of Andrias davidianus for Wound Healing

Cited by 139 publications

References 61 publications

Bioinspired Double‐Dynamic‐Bond Crosslinked Bioadhesive Enables Post‐Wound Closure Care

Bioinspired Double‐Dynamic‐Bond Crosslinked Bioadhesive Enables Post‐Wound Closure Care

Physical Double‐Network Hydrogel Adhesives with Rapid Shape Adaptability, Fast Self‐Healing, Antioxidant and NIR/pH Stimulus‐Responsiveness for Multidrug‐Resistant Bacterial Infection and Removable Wound Dressing

Insights into Multifunctional Smart Hydrogels in Wound Healing Applications

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