Comparison of electroreceptor organ functioning in vivo and in vitro

Primary sensory neuron : the international interdisciplinary journal reporting basic and clinical research on sensory receptors and primary afferent neurons Pub Date : 1997-01-01 DOI:10.1163/092996397750131838

R. Peters, D. Kraaij, F. Bretschneider

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Abstract

We compared the functioning of catfish electroreceptors in vivo and in vitro by recording the resting discharge and the sensitivity of organs before and immediately after skin patch excision. The in vitro preparation functions for several hours and can be used to assess synaptic functioning and other aspects of sensory transduction. However, both the sensitivity and the resting discharge rate are lower in vitro than in vivo. The sensitivity reduction can be caused by shunting of the stimulus current in the recording chamber, but the reduction of the spontaneous activity cannot. This is most likely due to hypoxia in the excised skin patch. In addition, interspike interval histograms showed mild anomalies in the firing pattern in vitro, as indicated by the parameters λ and r of fitted Γ distributions. We conclude that (i) in vitro recording is best suited for neuropharmacological research, and (ii) in vivo recording is better suited for long-term studies and analyses of stochastical spike processes.

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体内和体外电感受器功能的比较

我们通过记录皮肤贴片切除前后的静息放电和器官敏感性，比较了鲶鱼体内和体外电感受器的功能。体外制备功能数小时，可用于评估突触功能和感觉转导的其他方面。但体外敏感性和静息放电率均低于体内。记录腔内刺激电流的分流可以引起灵敏度的降低，但自发活动的降低却不能。这很可能是由于切除的皮肤斑块缺氧所致。此外，从拟合Γ分布的λ和r参数可以看出，在体外实验中，脉冲间隔直方图显示出轻微的异常。我们得出结论:(1)体外记录最适合神经药理学研究，(2)体内记录更适合随机峰值过程的长期研究和分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Primary sensory neuron : the international interdisciplinary journal reporting basic and clinical research on sensory receptors and primary afferent neurons

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