Graeme Clark Collection
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ItemPromoting neurite outgrowth from spiral ganglion neuron explants using polypyrrole/BDNF-coated electrodes(WILEY, 2009-10)Release of neurotrophin-3 (NT3) and brain-derived neurotrophic factor (BDNF) from hair cells in the cochlea is essential for the survival of spiral ganglion neurons (SGNs). Loss of hair cells associated with a sensorineural hearing loss therefore results in degeneration of SGNs, potentially reducing the performance of a cochlear implant. Exogenous replacement of either or both neurotrophins protects SGNs from degeneration after deafness. We previously incorporated NT3 into the conducting polymer polypyrrole (Ppy) synthesized with para-toluene sulfonate (pTS) to investigate whether Ppy/pTS/NT3-coated cochlear implant electrodes could provide both neurotrophic support and electrical stimulation for SGNs. Enhanced and controlled release of NT3 was achieved when Ppy/pTS/NT3-coated electrodes were subjected to electrical stimulation. Here we describe the release dynamics and biological properties of Ppy/pTS with incorporated BDNF. Release studies demonstrated slow passive diffusion of BDNF from Ppy/pTS/BDNF, with electrical stimulation significantly enhancing BDNF release over 7 days. A 3-day SGN explant assay found that neurite outgrowth from explants was 12.3-fold greater when polymers contained BDNF (p < 0.001), although electrical stimulation did not increase neurite outgrowth further. The versatility of Ppy to store and release neurotrophins, conduct electrical charge, and act as a substrate for nerve-electrode interactions is discussed for specialized applications such as cochlear implants.
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ItemConducting polymers, dual neurotrophins and pulsed electrical stimulation - Dramatic effects on neurite outgrowth(ELSEVIER SCIENCE BV, 2010-01-25)In this study the synergistic effect of delivering two neurotrophins simultaneously to encourage neuron survival and neurite elongation was explored. Neurotrophin-3 (NT-3) and brain-derived neurotrophic factor (BDNF) were incorporated into polypyrrole (PPy) during electrosynthesis and the amounts incorporated and released were determined using iodine-125 ((125)I) radio-labelled neurotrophins. Neurite outgrowth from cochlear neural explants grown on the conducting polymer was equivalent to that on tissue culture plastic but significantly improved with the incorporation of NT-3 and BDNF. Neurite outgrowth from explants grown on polymers containing both NT-3 and BDNF showed significant improvement over PPy doped only with NT-3, due to the synergistic effect of both neurotrophins. Neurite outgrowth was significantly improved when the polymer containing both neurotrophins was electrically stimulated. It is envisaged that when applied to the cochlear implant, these conducting and novel polymer films will provide a biocompatible substrate for storage and release of neurotrophins to help protect auditory neurons from degradation after sensorineural hearing loss and encourage neurite outgrowth towards the electrodes.