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Engineering cell-derived extracellular matrix for peripheral nerve regeneration.

Yingxi Xu1, Xianbo Liu2, Muhammad Arslan Ahmad3

  • 1Department of Clinical Nutrition, Shengjing Hospital of China Medical University, Shenyang, China.

Materials Today. Bio
|July 9, 2024
PubMed
Summary
This summary is machine-generated.

Cell-derived extracellular matrices (cd-ECMs) offer a promising biomaterial for nerve repair, overcoming limitations of tissue-derived ECMs. This review explores cd-ECMs

Keywords:
BiomaterialsCell-derived extracellular matrixPeripheral nerve regenerationStem cellsTissue engineering

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Area of Science:

  • Biomaterials Science
  • Regenerative Medicine
  • Neuroscience

Background:

  • Extracellular matrices (ECMs) are crucial for nerve repair, with both tissue-derived (ts-ECMs) and cell-derived (cd-ECMs) forms offering biomaterial potential.
  • Cell-derived ECMs (cd-ECMs) can mimic native nerve microenvironments and avoid ts-ECMs' limitations, offering advantages in preparation and customization.
  • cd-ECMs are increasingly recognized for their potential in neuroregenerative medicine and treating peripheral nerve injuries.

Purpose of the Study:

  • To comprehensively review the functional characteristics and cellular interaction mechanisms of cd-ECMs in nerve regeneration.
  • To focus on the preparation, engineering optimization, and scalability of cd-ECMs for neuroregenerative applications.
  • To summarize current applications of cd-ECMs in peripheral nerve tissue engineering and discuss future clinical translation.

Main Methods:

  • Review of current literature on cell-derived extracellular matrices for nerve regeneration.
  • Analysis of preparation methods, including in vitro cell culturing and decellularization techniques.
  • Examination of engineering strategies for optimizing cd-ECM functional properties and scalability.

Main Results:

  • cd-ECMs can be prepared under pathogen-free conditions, with mild decellularization removing immunogenic components.
  • These biomaterials demonstrate customizable functional properties, making them attractive for neuroregenerative medicine.
  • Various cell sources and applications in peripheral nerve tissue engineering have been reported.

Conclusions:

  • cd-ECMs present a promising avenue for effective peripheral nerve injury treatment due to their unique advantages.
  • Further research into preparation, optimization, and scalability is needed to address current limitations.
  • Clinical translation of cd-ECMs holds significant potential for advancing neuroregenerative therapies.