Experimental and Molecular Medicine (Apr 2018)

Brain and spinal cord injury repair by implantation of human neural progenitor cells seeded onto polymer scaffolds

  • Jeong Eun Shin,
  • Kwangsoo Jung,
  • Miri Kim,
  • Kyujin Hwang,
  • Haejin Lee,
  • Il-Sun Kim,
  • Bae Hwan Lee,
  • Il-Shin Lee,
  • Kook In Park

DOI
https://doi.org/10.1038/s12276-018-0054-9
Journal volume & issue
Vol. 50, no. 4
pp. 1 – 18

Abstract

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Tissue engineering: Repairing brain and spinal injuries Biodegradable scaffolds seeded with human fetal brain cells can help repair neurological injuries in rodents. A team led by Kook In Park and Il-Shin Lee from the Yonsei University College of Medicine in Seoul, South Korea, created a mesh of plastic fibers that they bathed in neural progenitor cells. Over the course of several days, these cells differentiated into different types of brain cells, including neurons and glia. The researchers implanted these cell-scaffold complexes into the sites of injury in two rodent models: newborn mice with oxygen deprivation to the brain, and adult rats with severed spinal cords. In both cases, the treatment helped the injured tissues heal and improved the neurological or motor function of the animals. The authors suggest these tissue-engineered structures could also help people with brain or spine injuries.