Variability in motor control: supraspino-spinal interactions underlie fractal locomotor rhythms

机译：运动控制中的变化：分形运动节律的基础上，上-脊髓相互作用。

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The motor control system in vertebrates is highly organized and well coordinated. At the same time, the motor rhythms show temporal variability. The gait rhythm in human subjects has been shown to have long-range positive correlations, reflecting a fractal nature. The mechanisms underlying these observations are unknown. Using in-vitro brain-spinal cord preparations of the lamprey, in which fictive locomotor rhythms can be generated, we show that the locomotor rhythm has a Hurst exponent that indicates presence of long-term positive correlations. Interrupting the mixed positive and negative feedforward-feedback loops between the brain and the spinal cord eliminates these long-term correlations. Hence, we conclude that mixed feedback supraspino-spinal interactions likely underlie fractal locomotor rhythms.

机译：脊椎动物的运动控制系统具有高度的组织性和良好的协调性。同时，运动节律表现出时间变化。已证明人类受试者的步态节奏具有长期的正相关性，反映了分形的性质。这些观察结果的机制尚不清楚。使用可产生虚拟运动节律的七lamp鳗的体外脑脊髓制剂，我们显示运动节律具有Hurst指数，表明存在长期正相关。中断大脑与脊髓之间正反混合的正反馈回路和负反馈回路，就消除了这些长期相关性。因此，我们得出结论，分形运动节律可能是混合反馈超上-脊柱相互作用的基础。

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《Engineering in Medicine and Biology Society, 2003. Proceedings of the 25th Annual International Conference of the IEEE》|2003年|p.3826-3829|共4页
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Jung R.; Wang H.;
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中图分类无线电电子学、电信技术;
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neurophysiology; biocontrol; fractals; gait analysis; brain; feedback; feedforward; temporal variability; motor control system; supraspino-spinal interactions underlie fractal locomotor rhythms; motor rhythms; gait rhythm; long-range positive correlation;

机译：神经生理学;生物控制;分形;步态分析;大脑;反馈;前馈;时间变异性;运动控制系统;分形运动节律;运动节律;步态节律;远程正相关的基础;

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1. Variability analyses suggest that supraspino-spinal interactions provide dynamic stability in motor control. [J] . Wang H, Jung R Brain research . 2002,第1a2期

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2. Social Interactions and the Circadian Rhythm in Locomotor Activity in the Cockroach Leucophaea maderae [J] . Knadler JJ, Page TL Chronobiology international . 2009,第3期

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3. Binocular interactions in the entrainment and phase shifting of locomotor activity rhythms in Syrian hamsters [J] . Park JH, Paul MJ, Butler MP, Journal of biological rhythms . 2005,第1期

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4. SWATH analysis of patient-derived iPSC to motor neurons for the discovery of protein network perturbations that underlie motor neuron diseases [C] . Andrea D. Matlock, Berhan Mandefro, Loren Ornelas, ASMS Conference on Mass Spectrometry and Allied Topics . 2015

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6. Social Interactions and the Circadian Rhythm in Locomotor Activity in the Cockroach Leucophaea maderae [O] . Joseph J. Knadler, Terry L. Page -1

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Variability in motor control: supraspino-spinal interactions underlie fractal locomotor rhythms

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