Rok 2023

• Electrically Conductive Carbon‐based (Bio)‐nanomaterials for Cardiac Tissue Engineering

  Publikacja

  • N. Jalilinejad
  • M. Rabiee
  • N. Baheiraei
  • R. Ghahremanzadeh
  • R. Salarian
  • N. Rabiee
  • O. Akhavan
  • P. Zarrintaj
  • A. Hejna
  • M. Saeb... i 4 innych

  - Bioengineering & Translational Medicine - Rok 2023

  A proper self-regenerating capability is lacking in human cardiac tissue which along with the alarming rate of deaths associated with cardiovascular disorders makes tissue engineering critical. Novel approaches are now being investigated in order to speedily overcome the challenges in this path. Tissue engineering has been revolutionized by the advent of nanomaterials, and later by the application of carbon-based nanomaterials...

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Rok 2022

• Mussel‐inspired biomaterials: From chemistry to clinic

  Publikacja

  • A. Taghizadeh
  • M. Taghizadeh
  • M. K. Yazdi
  • P. Zarrintaj
  • J. D. Ramsey
  • F. Seidi
  • F. J. Stadler
  • H. Lee
  • M. Saeb
  • M. Mozafari

  - Bioengineering & Translational Medicine - Rok 2022

  After several billions of years, nature still makes decisions on its own to identify, develop, and direct the most effective material for phenomena/challenges faced. Likewise, and inspired by the nature, we learned how to take steps in developing new technologies and materials innovations. Wet and strong adhesion by Mytilidae mussels (among which Mytilus edulis—blue mussel and Mytilus californianus—California mussel are the most...

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• Polylysine for Skin Regeneration: A Review of Recent Advances and Perspectives

  Publikacja

  • P. Zarrintaj
  • S. Ghorbani
  • M. Barani
  • N. P. Singh Chauhan
  • M. Khodadadi Yazdi
  • M. Saeb
  • J. D. Ramsey
  • M. R. Hamblin
  • M. Mozafari
  • E. Mostafavi

  - Bioengineering & Translational Medicine - Rok 2022

  There have been several attempts to find promising biomaterials for skin regeneration, among which polylysine (a homopolypeptide) has shown benefits in the regeneration and treatment of skin disorders. This class of biomaterials has shown exceptional abilities due to their macromolecular structure. Polylysine-based biomaterials can not only be used as tissue engineering scaffolds for skin regeneration, but also as drug carriers...

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