Abstract <p>In recent years, reconstructive surgery strategies have been supplemented with innovative approaches aimed at developing tissue-engineered structures using autologous tissues and biodegradable scaffolds and matrices, the purpose of which is to reduce the risk of postoperative complications, on the one hand, while ensuring accelerated restoration of the structure and functions of organs, on the other hand. The review systematizes modern scientific trends in the field of tissue engineering of the urethra, focused on creation of biocompatible and functionally active tissue-engineered structures using achievements of cellular technologies and materials science. Particular attention is paid to describing the mechanisms and ways of forming a complete and functional three-dimensional structure of the urethra, including the use of&#xa0;organoids. It is expected that this strategy will contribute to the development of personalized therapeutic approaches and improved clinical outcomes in the patients with urological diseases.</p>

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Tissue Engineering and Cell Technologies in the Treatment of Urethral Strictures

  • Natalia V. Rassomakhina,
  • Astemir R. Likhov,
  • Daria R. Shisterova,
  • Ulyana A. Apukhtina,
  • Veronika N. Volodina,
  • Igor O. Gritskov,
  • Gevorg R. Kasyan,
  • Viktoriya V. Zherdeva

摘要

Abstract

In recent years, reconstructive surgery strategies have been supplemented with innovative approaches aimed at developing tissue-engineered structures using autologous tissues and biodegradable scaffolds and matrices, the purpose of which is to reduce the risk of postoperative complications, on the one hand, while ensuring accelerated restoration of the structure and functions of organs, on the other hand. The review systematizes modern scientific trends in the field of tissue engineering of the urethra, focused on creation of biocompatible and functionally active tissue-engineered structures using achievements of cellular technologies and materials science. Particular attention is paid to describing the mechanisms and ways of forming a complete and functional three-dimensional structure of the urethra, including the use of organoids. It is expected that this strategy will contribute to the development of personalized therapeutic approaches and improved clinical outcomes in the patients with urological diseases.