Ann-Christin Sandberg-Nordqvist scite author profile

Electrodes coated with the conducting polymer poly(3,4-ethylene dioxythiophene) (PEDOT) possess attractive electrochemical properties for stimulation or recording in the nervous system. Biomolecules, added as counter ions in electropolymerization, could further improve the biomaterial properties, eliminating the need for surfactant counter ions in the process. Such PEDOT/biomolecular composites, using heparin or hyaluronic acid, have previously been investigated electrochemically. In the present study, their biocompatibility is evaluated. An agarose overlay assay using L929 fibroblasts, and elution and direct contact tests on human neuroblastoma SH-SY5Y cells are applied to investigate cytotoxicity in vitro. PEDOT:heparin was further evaluated in vivo through polymer-coated implants in rodent cortex. No cytotoxic response was seen to any of the PEDOT materials tested. The examination of cortical tissue exposed to polymer-coated implants showed extensive glial scarring irrespective of implant material (Pt:polymer or Pt). However, quantification of immunological response, through distance measurements from implant site to closest neuron and counting of ED1+ cell density around implant, was comparable to those of platinum controls. These results indicate that PEDOT:heparin surfaces were non-cytotoxic and show no marked difference in immunological response in cortical tissue compared to pure platinum controls.

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The human LARGE gene from 22q12.3-q13.1 is a new, distinct member of the glycosyltransferase gene family

Peyrard

Seroussi

Sandberg-Nordqvist

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

120

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Ann-Christin Sandberg-Nordqvist

Toxicity evaluation of PEDOT/biomolecular composites intended for neural communication electrodes

The human LARGE gene from 22q12.3-q13.1 is a new, distinct member of the glycosyltransferase gene family

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