慢性皮质内电极阵列:初步结果。

P K Campbell, R A Normann, K W Horch, S S Stensaas
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引用次数: 0

摘要

两组电极阵列分别由直径25微米或50微米的聚四氟乙烯绝缘铂铱线和聚四氟乙烯制成,用于慢性皮质内电刺激。在猫的急性和慢性植入后进行皮质组织学研究。虽然两种排列配置的植入都会造成一些神经损伤,但每种直径的金属丝都有一组独特的问题。采用50微米电极和引线的阵列在植入时倾向于保持电极间距,但经皮引线存在残余应力,使得阵列植入困难。带有25微米电极和导线的阵列在植入时电极间距会发生变化,但在手术中更容易操作。两种阵列在植入后都有一定的移动。结论是,这种几何形状的慢性皮质内刺激电极阵列应该具有以下特性:1)穿透电极和支撑基板必须是坚硬的(以保持植入后电极间的间距),2)经皮导线必须非常灵活(以避免植入后阵列移动)。
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A chronic intracortical electrode array: preliminary results.

Two sets of electrode arrays made of either 25- or 50-microns-diameter Teflon-insulated platinum-iridium wire and Teflon have been developed for chronic intracortical electrical stimulation. Cortical histological studies were performed following acute and chronic implantation in cats. While some neural damage resulted from the implantations of either array configuration, a unique set of problems was associated with each diameter wire. Arrays with 50-microns electrodes and lead wires tended to maintain interelectrode spacing upon implantation, but the percutaneous leads retained residual stress which made array implantation difficult. Arrays with 25-microns electrodes and lead wires suffered from changes in interelectrode spacing upon implantation, but were much easier to manipulate during surgery. Both array configurations demonstrated some movement after implantation. It is concluded that a chronic intracortical stimulating electrode array of this geometry should have the following properties: 1) the penetrating electrodes and supporting substrate must be stiff (to maintain interelectrode spacings upon implantation), and 2) the percutaneous leads must be extremely flexible (to avoid array movement after implantation).

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