解剖方法对海马切片电生理特性的影响。

Oruen : the CNS journal Pub Date : 2017-12-01
Liana Roberts Stein, Charles F Zorumski, Yukitoshi Izumi
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引用次数: 0

摘要

长期以来,啮齿动物海马切片制备一直是研究药理和遗传操作电生理效应的重要工具。切片可以用几种不同的切片方法制备,包括组织斩刀、振动刀和旋转切片机。为了研究切片方法如何影响切片的完整性,我们用这三种方法制作了海马切片,并比较了它们的组织学和电生理反应。虽然所有三种方法产生组织学改变,时间过程是最慢的切片产生与旋转切片机。此外,尽管在这三种方法生成的切片中都观察到树突场epsp的成对脉冲促进,但在旋转生成的切片中很少观察到在斩波和振动原子生成的切片中常见的群体峰值的成对脉冲增强,这表明不受抑制程度较低。为了保持海马体切片的完整性,旋转切片机可能比其他两种设备提供优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Dissection method affects electrophysiological properties of hippocampal slices.

Dissection method affects electrophysiological properties of hippocampal slices.

Dissection method affects electrophysiological properties of hippocampal slices.

Dissection method affects electrophysiological properties of hippocampal slices.

The rodent hippocampal slice preparation has long been a critical tool for studying the electrophysiological effects of pharmacological and genetic manipulations. Slices can be prepared with several different slicing methods including the tissue chopper, vibratome, and rotary slicer. To examine how slicing methods affect slice integrity, we generated hippocampal slices by these three methods and compared their histology and electrophysiological responses. Although all three methods generate histological alterations, the time course is slowest in slices generated with a rotary slicer. Furthermore, although paired-pulse facilitation in dendritic field EPSPs was observed in slices generated by all three methods, paired-pulse potentiation in population spikes, which is common in chopper- and vibratome-generated slices was seldom observed in rotary-generated slices, suggesting less disinhibiton. For preservation of hippocampal slice integrity, the rotary slicer may offer advantages over the other two devices.

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