Newcomb–Benford’s Law in Neuromuscular Transmission: Validation in Hyperkalemic Conditions

IF 0.9 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Stats Pub Date : 2023-10-09 DOI:10.3390/stats6040066

Adriano Silva, Sergio Floquet, Ricardo Lima

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Abstract

Recently, we demonstrated the validity of the anomalous numbers law, known as Newcomb–Benford’s law, in mammalian neuromuscular transmission, considering different extracellular calcium. The present work continues to examine how changes in extracellular physiological artificial solution can modulate the first digit law in the context of spontaneous acetylcholine release at the neuromuscular junction. Using intracellular measurements, we investigated if the intervals of miniature potentials collected at the neuromuscular junction obey the law in a hyperkalemic environment. When bathed in standard Ringer’s solution, the experiments provided 22,582 intervals extracted from 14 recordings. On the other hand, 690,385 intervals were obtained from 12 experiments in a modified Ringer’s solution containing a high potassium concentration. The analysis showed that the intervals, harvested from recordings at high potassium, satisfactorily obeyed Newcomb–Benford’s law. Furthermore, our data allowed us to uncover a conformity fluctuation as a function of the number of intervals of the miniature potentials. Finally, we discuss the biophysical implications of the present findings.

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神经肌肉传递中的Newcomb-Benford定律:在高钾血症条件下的验证

最近，我们证明了反常数字定律的有效性，即Newcomb-Benford定律，在哺乳动物神经肌肉传递中，考虑到不同的细胞外钙。目前的工作继续研究细胞外生理人工溶液的变化如何在神经肌肉交界处自发释放乙酰胆碱的情况下调节第一指规律。利用细胞内测量，我们研究了在高钾环境下，神经肌肉连接处收集的微型电位的间隔是否服从规律。当浸泡在标准林格溶液中时，实验提供了从14个录音中提取的22,582个间隔。另一方面，在含有高钾浓度的改良林格氏溶液中，从12个实验中得到了690,385个区间。分析表明，在高钾条件下记录的间隔，令人满意地符合纽库姆-本福德定律。此外，我们的数据使我们能够揭示作为微型电位间隔数的函数的一致性波动。最后，我们讨论了本研究结果的生物物理意义。

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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来源期刊

Stats

CiteScore

0.60

自引率

0.00%

发文量

审稿时长

7 weeks