Development of novel pH image sensor for in-vivo apprication

Shin Nanasaki, Hiroshi Horiuchi, H. Inada, Y. Nakamura, F. Dasai, T. Iwata, K. Takahashi, J. Nabekura, K. Sawada
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引用次数: 3

Abstract

A needle type pH image sensor with 32×128 pixels for in-vivo application was developed. The pixel pitch of the sensor is 23 μm and the time resolution is about 20msec (50flame/sec). To insert in the brain of a mouse, the geometry was modified to needle structure with 1.76×11.46 mm and 100 μm thickness. The needle type pH image sensor was covered by parylene C with a thickness of 4 μm without pH sensing area for waterproofing. In this study, we observed dynamic change of pH immediately after insert the sensor into cortex. Interestingly, we found that cortical pH is depth-dependent. Furthermore, pH in superficial layer was decreased by pharmacological manipulation and sensory stimulation whereas pH in deep layer increased. Finally, we found that spike-like responses are caused by pharmacological and sensory stimulation.
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新型体内应用pH图像传感器的研制
研制了一种具有32×128像素的针型pH值图像传感器。传感器的像素间距为23 μm,时间分辨率约为20msec(50焰/秒)。为了插入小鼠大脑,将几何形状修改为1.76×11.46 mm和100 μm厚度的针状结构。针状pH图像传感器采用厚度为4 μm的聚对二甲苯C包覆,无pH感测区防水。在本研究中,我们观察了传感器插入皮层后pH值的动态变化。有趣的是,我们发现皮层pH值与深度有关。药理作用和感官刺激使浅层pH值降低,深层pH值升高。最后,我们发现峰状反应是由药物和感觉刺激引起的。
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