Journal of Biological Engineering (Oct 2023)

Novel ultra-stretchable and self-healing crosslinked poly (ethylene oxide)-cationic guar gum hydrogel

  • Sergio Alberto Bernal-Chávez,
  • Sergio Alcalá-Alcalá,
  • Zainab M. Almarhoon,
  • Aknur Turgumbayeva,
  • Eda Sönmez Gürer,
  • Ma. De Los Dolores Campos-Echeverria,
  • Hernán Cortés,
  • Alejandra Romero-Montero,
  • María Luisa Del Prado-Audelo,
  • Javad Sharifi-Rad,
  • Gerardo Leyva-Gómez

DOI
https://doi.org/10.1186/s13036-023-00376-2
Journal volume & issue
Vol. 17, no. 1
pp. 1 – 16

Abstract

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Abstract Hydrogels are three-dimensional structures with specific features that render them useful for biomedical applications, such as tissue engineering scaffolds, drug delivery systems, and wound dressings. In recent years, there has been a significant increase in the search for improved mechanical properties of hydrogels derived from natural products to extend their applications in various fields, and there are different methods to obtain strengthened hydrogels. Cationic guar gum has physicochemical properties that allow it to interact with other polymers and generate hydrogels. This study aimed to develop an ultra-stretchable and self-healing hydrogel, evaluating the influence of adding PolyOX [poly(ethylene oxide)] on the mechanical properties and the interaction with cationic guar gum for potential tissue engineering applications. We found that variations in PolyOX concentrations and pH changes influenced the mechanical properties of cationic guar gum hydrogels. After optimization experiments, we obtained a novel hydrogel, which was semi-crystalline, highly stretchable, and with an extensibility area of approximately 400 cm2, representing a 33-fold increase compared to the hydrogel before being extended. Moreover, the hydrogel presented a recovery of 96.8% after the self-healing process and a viscosity of 153,347 ± 4,662 cP. Therefore, this novel hydrogel exhibited optimal mechanical and chemical properties and could be suitable for a broad range of applications in different fields, such as tissue engineering, drug delivery, or food storage.

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