Utilizing Robust Design to Optimize Composite Bioadhesive for Promoting Dermal Wound Repair

Pinnaratip, Rattapol; Zhang, Zhongtian; Smies, Ariana; Forooshani, Pegah Kord; Tang, Xiaoqing; Rajachar, Rupak M.; Lee, Bruce P.

doi:10.3390/polym15081905

Polymers

2023

DOI: 10.3390/polym15081905

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Utilizing Robust Design to Optimize Composite Bioadhesive for Promoting Dermal Wound Repair

Rattapol Pinnaratip

Zhongtian Zhang

Ariana Smies

et al.

Abstract: Catechol-modified bioadhesives generate hydrogen peroxide (H2O2) during the process of curing. A robust design experiment was utilized to tune the H2O2 release profile and adhesive performance of a catechol-modified polyethylene glycol (PEG) containing silica particles (SiP). An L9 orthogonal array was used to determine the relative contributions of four factors (the PEG architecture, PEG concentration, phosphate-buffered saline (PBS) concentration, and SiP concentration) at three factor levels to the performa… Show more

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2024

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Cited by 2 publications

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Advances in Adhesive Materials for Oral and Maxillofacial Soft Tissue Diseases

Cheng,

Xu,

Luo

et al. 2024

Macromolecular Bioscience

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Oral diseases represent a prevalent global health burden, profoundly affecting patients' quality of life. Given the involvement of oral mucosa and muscles in diverse physiological functions, coupled with clinical aesthetics considerations, repairing oral and maxillofacial soft tissue defects poses a formidable challenge. Wet‐adhesive materials are regarded as promising oral repair materials due to their unique advantages in easily overcoming physical and biological barriers in the oral cavity. This review first introduces the intricate wet‐state environment prevalent in the oral cavity, meticulously explaining the fundamental physical and chemical adhesion mechanisms that underpin adhesive materials. It then comprehensively summarizes the diverse types of adhesives utilized in stomatology, encompassing polysaccharide, protein, and synthetic polymer adhesive materials. The review further evaluates the latest research advancements in utilizing these materials to treat various oral and maxillofacial soft tissue diseases, including oral mucosal diseases, periodontitis, peri‐implantitis, oral and maxillofacial skin defects, and maxillofacial tumors. Finally, it also highlights the promising future prospects and pivotal challenges related to stomatology application of multifunctional adhesive materials.

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Advances in Adhesive Materials for Oral and Maxillofacial Soft Tissue Diseases

Cheng,

Xu,

Luo

et al. 2024

Macromolecular Bioscience

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In Vitro Biological Evaluation of an Alginate-Based Hydrogel Loaded with Rifampicin for Wound Care

Bibire,

Dănilă,

Yilmaz

et al. 2024

Pharmaceuticals

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We report a biocompatible hydrogel dressing based on sodium alginate-grafted poly(N-vinylcaprolactam) prepared by encapsulation of Rifampicin as an antimicrobial drug and stabilizing the matrix through the repeated freeze–thawing method. The hydrogel structure and polymer-drug compatibility were confirmed by FTIR, and a series of hydrogen-bond-based interactions between alginate and Rifampicin were identified. A concentration of 0.69% Rifampicin was found in the polymeric matrix using HPLC analysis and spectrophotometric UV–Vis methods. The hydrogel’s morphology was evaluated by scanning electron microscopy, and various sizes and shapes of pores, ranging from almost spherical geometries to irregular ones, with a smooth surface of the pore walls and high interconnectivity in the presence of the drug, were identified. The hydrogels are bioadhesive, and the adhesion strength increased after Rifampicin was encapsulated into the polymeric matrix, which suggests that these compositions are suitable for wound dressings. Antimicrobial activity against S. aureus and MRSA, with an increased effect in the presence of the drug, was also found in the newly prepared hydrogels. In vitro biological evaluation demonstrated the cytocompatibility of the hydrogels and their ability to stimulate cell multiplication and mutual cell communication. The in vitro scratch assay demonstrated the drug-loaded alginate-grafted poly(N-vinylcaprolactam) hydrogel’s ability to stimulate cell migration and wound closure. All of these results suggest that the prepared hydrogels can be used as antimicrobial materials for wound healing and care applications.

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Utilizing Robust Design to Optimize Composite Bioadhesive for Promoting Dermal Wound Repair

Cited by 2 publications

References 45 publications

Advances in Adhesive Materials for Oral and Maxillofacial Soft Tissue Diseases

Advances in Adhesive Materials for Oral and Maxillofacial Soft Tissue Diseases

In Vitro Biological Evaluation of an Alginate-Based Hydrogel Loaded with Rifampicin for Wound Care

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