Villalobos Joel, Fallon James B, Nayagam David A X, Shivdasani Mohit N, Luu Chi D, Allen Penelope J, Shepherd Robert K, Williams Chris E
Bionics Institute, East Melbourne, VIC 3002, Australia.
J Neural Eng. 2014 Aug;11(4):046017. doi: 10.1088/1741-2560/11/4/046017. Epub 2014 Jun 26.
The research goal is to develop a wide-field retinal stimulating array for prosthetic vision. This study aimed at evaluating the efficacy of a suprachoroidal electrode array in evoking visual cortex activity after long term implantation.
A planar silicone based electrode array (8 mm × 19 mm) was implanted into the suprachoroidal space in cats (ntotal = 10). It consisted of 20 platinum stimulating electrodes (600 μm diameter) and a trans-scleral cable terminated in a subcutaneous connector. Three months after implantation (nchronic = 6), or immediately after implantation (nacute = 4), an electrophysiological study was performed. Electrode total impedance was measured from voltage transients using 500 μs, 1 mA pulses. Electrically evoked potentials (EEPs) and multi-unit activity were recorded from the visual cortex in response to monopolar retinal stimulation. Dynamic range and cortical activation spread were calculated from the multi-unit recordings.
The mean electrode total impedance in vivo following 3 months was 12.5 ± 0.3 kΩ. EEPs were recorded for 98% of the electrodes. The median evoked potential threshold was 150 nC (charge density 53 μC cm(-2)). The lowest stimulation thresholds were found proximal to the area centralis. Mean thresholds from multiunit activity were lower for chronic (181 ± 14 nC) compared to acute (322 ± 20 nC) electrodes (P < 0.001), but there was no difference in dynamic range or cortical activation spread.
Suprachoroidal stimulation threshold was lower in chronic than acute implantation and was within safe charge limits for platinum. Electrode-tissue impedance following chronic implantation was higher, indicating the need for sufficient compliance voltage (e.g. 12.8 V for mean impedance, threshold and dynamic range). The wide-field suprachoroidal array reliably activated the retina after chronic implantation.
本研究目标是研发一种用于视觉假体的宽视野视网膜刺激阵列。本研究旨在评估脉络膜上电极阵列长期植入后诱发视觉皮层活动的效果。
将一个平面硅基电极阵列(8毫米×19毫米)植入猫的脉络膜上腔(n总计 = 10)。它由20个铂刺激电极(直径600微米)和一根经巩膜电缆组成,电缆终端连接到皮下连接器。植入三个月后(n慢性 = 6)或植入后立即(n急性 = 4)进行电生理研究。使用500微秒、1毫安的脉冲,通过电压瞬变测量电极总阻抗。记录视觉皮层对单极视网膜刺激产生的电诱发电位(EEP)和多单元活动。根据多单元记录计算动态范围和皮层激活范围。
三个月后体内电极平均总阻抗为12.5±0.3千欧。98%的电极记录到了EEP。诱发电位阈值中位数为150纳库(电荷密度53微库/平方厘米)。在中央凹区域附近发现最低刺激阈值。与急性电极(322±20纳库)相比,慢性电极(181±14纳库)的多单元活动平均阈值更低(P<0.001),但动态范围或皮层激活范围没有差异。
慢性植入时脉络膜上刺激阈值低于急性植入,且在铂的安全电荷限制范围内。慢性植入后电极 - 组织阻抗更高,表明需要足够的顺应电压(例如,对于平均阻抗、阈值和动态范围为12.8伏)。慢性植入后宽视野脉络膜上阵列可靠地激活了视网膜。
