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Microelectrode implants, inflammatory response and long-lasting effects on NADPH diaphorase neurons in the rat frontal cortex.
Guimaraes, Joanilson S; Lemos, Nelson Alessandretti M; Freire, Marco Aurelio M; Pereira, Antonio; Ribeiro, Sidarta.
Affiliation
  • Guimaraes JS; University of Amazonia, Santarém, PA, Brazil.
  • Lemos NAM; Faculty of Health Sciences, University of the State of Rio Grande do Norte, Mossoró, RN, Brazil.
  • Freire MAM; Faculty of Health Sciences, University of the State of Rio Grande do Norte, Mossoró, RN, Brazil.
  • Pereira A; Institute of Technology, Federal University of Pará, Belém, PA, Brazil.
  • Ribeiro S; Brain Institute, Federal University of Rio Grande do Norte, Natal, RN, Brazil. sidartaribeiro@neuro.ufrn.br.
Exp Brain Res ; 240(10): 2569-2580, 2022 Oct.
Article in En | MEDLINE | ID: mdl-35947168
At present, one of the main therapeutic challenges comprises the development of technologies to improve the life quality of people suffering from different types of body paralysis, through the reestablishment of sensory and motor functions. In this regard, brain-machine interfaces (BMI) offer hope to effectively mitigate body paralysis through the control of paralyzed body parts by brain activity. Invasive BMI use chronic multielectrode implants to record neural activity directly from the brain tissue. While such invasive devices provide the highest amount of usable neural activity for BMI control, they also involve direct damage to the nervous tissue. In the cerebral cortex, high levels of the enzyme NADPH diaphorase (NADPH-d) characterize a particular class of interneurons that regulates neuronal excitability and blood supply. To gain insight into the biocompatibility of invasive BMI, we assessed the impact of chronic implanted tungsten multielectrode bundles on the distribution and morphology of NADPH-d-reactive neurons in the rat frontal cortex. NADPH-d neuronal labeling was correlated with glial response markers and with indices of healthy neuronal activity measured by electrophysiological recordings performed up to 3 months after multielectrode implantation. Chronic electrode arrays caused a small and quite localized structural disturbance on the implanted site, with neuronal loss and glial activation circumscribed to the site of implant. Electrodes remained viable during the entire period of implantation. Moreover, neither the distribution nor the morphology of NADPH-d neurons was altered. Overall, our findings provide additional evidence that tungsten multielectrodes can be employed as a viable element for long-lasting therapeutic BMI applications.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Tungsten / NADPH Dehydrogenase Limits: Animals / Humans Language: En Journal: Exp Brain Res Year: 2022 Document type: Article Affiliation country: Brazil Country of publication: Germany

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Tungsten / NADPH Dehydrogenase Limits: Animals / Humans Language: En Journal: Exp Brain Res Year: 2022 Document type: Article Affiliation country: Brazil Country of publication: Germany