Advanced Science (Jul 2022)

A Subdural Bioelectronic Implant to Record Electrical Activity from the Spinal Cord in Freely Moving Rats

  • Bruce Harland,
  • Zaid Aqrawe,
  • Maria Vomero,
  • Christian Boehler,
  • Ernest Cheah,
  • Brad Raos,
  • Maria Asplund,
  • Simon J. O'Carroll,
  • Darren Svirskis

DOI
https://doi.org/10.1002/advs.202105913
Journal volume & issue
Vol. 9, no. 20
pp. n/a – n/a

Abstract

Read online

Abstract Bioelectronic devices have found use at the interface with neural tissue to investigate and treat nervous system disorders. Here, the development and characterization of a very thin flexible bioelectronic implant inserted along the thoracic spinal cord in rats directly in contact with and conformable to the dorsal surface of the spinal cord are presented. There is no negative impact on hind‐limb functionality nor any change in the volume or shape of the spinal cord. The bioelectronic implant is maintained in rats for a period of 12 weeks. The first subdural recordings of spinal cord activity in freely moving animals are presented; rats are plugged in via a recording cable and allowed to freely behave and move around on a raised platform. Recordings contained multiple distinct voltage waveforms spatially localize to individual electrodes. This device has great potential to monitor electrical signaling in the spinal cord after an injury and in the future, this implant will facilitate the identification of biomarkers in spinal cord injury and recovery, while enabling the delivery of localized electroceutical and chemical treatments.

Keywords