Nature Communications (Nov 2023)

Occlusive membranes for guided regeneration of inflamed tissue defects

  • Woojin Choi,
  • Utkarsh Mangal,
  • Jin-Young Park,
  • Ji-Yeong Kim,
  • Taesuk Jun,
  • Ju Won Jung,
  • Moonhyun Choi,
  • Sungwon Jung,
  • Milae Lee,
  • Ji-Yeong Na,
  • Du Yeol Ryu,
  • Jin Man Kim,
  • Jae-Sung Kwon,
  • Won-Gun Koh,
  • Sangmin Lee,
  • Patrick T. J. Hwang,
  • Kee-Joon Lee,
  • Ui-Won Jung,
  • Jae-Kook Cha,
  • Sung-Hwan Choi,
  • Jinkee Hong

DOI
https://doi.org/10.1038/s41467-023-43428-3
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract Guided bone regeneration aided by the application of occlusive membranes is a promising therapy for diverse inflammatory periodontal diseases. Symbiosis, homeostasis between the host microbiome and cells, occurs in the oral environment under normal, but not pathologic, conditions. Here, we develop a symbiotically integrating occlusive membrane by mimicking the tooth enamel growth or multiple nucleation biomineralization processes. We perform human saliva and in vivo canine experiments to confirm that the symbiotically integrating occlusive membrane induces a symbiotic healing environment. Moreover, we show that the membrane exhibits tractability and enzymatic stability, maintaining the healing space during the entire guided bone regeneration therapy period. We apply the symbiotically integrating occlusive membrane to treat inflammatory-challenged cases in vivo, namely, the open and closed healing of canine premolars with severe periodontitis. We find that the membrane promotes symbiosis, prevents negative inflammatory responses, and improves cellular integration. Finally, we show that guided bone regeneration therapy with the symbiotically integrating occlusive membrane achieves fast healing of gingival soft tissue and alveolar bone.