Materials Today Bio (Apr 2023)

Nanocellulose composite wound dressings for real-time pH wound monitoring

  • Olof Eskilson,
  • Elisa Zattarin,
  • Linn Berglund,
  • Kristiina Oksman,
  • Kristina Hanna,
  • Jonathan Rakar,
  • Petter Sivlér,
  • Mårten Skog,
  • Ivana Rinklake,
  • Rozalin Shamasha,
  • Zeljana Sotra,
  • Annika Starkenberg,
  • Magnus Odén,
  • Emanuel Wiman,
  • Hazem Khalaf,
  • Torbjörn Bengtsson,
  • Johan P.E. Junker,
  • Robert Selegård,
  • Emma M. Björk,
  • Daniel Aili

Journal volume & issue
Vol. 19
p. 100574

Abstract

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The skin is the largest organ of the human body. Wounds disrupt the functions of the skin and can have catastrophic consequences for an individual resulting in significant morbidity and mortality. Wound infections are common and can substantially delay healing and can result in non-healing wounds and sepsis. Early diagnosis and treatment of infection reduce risk of complications and support wound healing. Methods for monitoring of wound pH can facilitate early detection of infection. Here we show a novel strategy for integrating pH sensing capabilities in state-of-the-art hydrogel-based wound dressings fabricated from bacterial nanocellulose (BC). A high surface area material was developed by self-assembly of mesoporous silica nanoparticles (MSNs) in BC. By encapsulating a pH-responsive dye in the MSNs, wound dressings for continuous pH sensing with spatiotemporal resolution were developed. The pH responsive BC-based nanocomposites demonstrated excellent wound dressing properties, with respect to conformability, mechanical properties, and water vapor transmission rate. In addition to facilitating rapid colorimetric assessment of wound pH, this strategy for generating functional BC-MSN nanocomposites can be further be adapted for encapsulation and release of bioactive compounds for treatment of hard-to-heal wounds, enabling development of novel wound care materials.

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