Geometrical analysis of bursting pacemaker neurons generated by computational models: comparison to in vitro pre-Botzinger complex bursting neurons.

Cordovez JM; Wilson CG; Solomon IC

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Geometrical analysis of bursting pacemaker neurons generated by computational models: comparison to in vitro pre-Botzinger complex bursting neurons.

机译：计算模型产生的爆破起搏器神经元的几何分析：与体外前僵菌复合物爆破神经元的比较。

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Despite an incredible amount of progress toward understanding respiratory rhythm generation through the use of reduced mathematical models, controversy exists concerning the role of various ionic conductances in generating bursting behavior. Moreover, the dynamical behavior of these model neurons has not been examined. Here, we have used two well described pre-Botzinger complex (pre-BotC) pacemaker neuron models to investigate their dynamical features. Based on our observations, we identify one of the models to better represent the general characteristics of the bursting dynamics and propose additional modifications to better capture the dynamics of our own experimental recordings.

机译：尽管通过使用减少的数学模型来了解呼吸节律的令人难以置信的进展，但有关各种离子电导在产生爆破行为时的作用存在争议。此外，尚未检查这些模型神经元的动态行为。在这里，我们使用了两种良好描述的前Botzinger综合体（前Botc）起搏器神经元模型来研究其动态特征。基于我们的观察，我们确定了一个模型，以更好地代表爆破动力学的一般特征，并提出额外的修改，以更好地捕捉我们自己的实验记录的动态。

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《Advances in Experimental Medicine and Biology》 |2010年第null期|共4页
作者
Cordovez JM; Wilson CG; Solomon IC;
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Department of Physiology and Biophysics Stony Brook University Stony Brook NY USA.;

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正文语种 eng
中图分类基础医学;
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1. Geometrical analysis of bursting pacemaker neurons generated by computational models: comparison to in vitro pre-Botzinger complex bursting neurons. [J] . Cordovez JM, Wilson CG, Solomon IC Advances in Experimental Medicine and Biology . 2010,第Null期

机译：计算模型产生的爆破起搏器神经元的几何分析：与体外前僵菌复合物爆破神经元的比较。
2. The effect of hyperpolarizing inputs on the dynamics of a bursting pacemaker neuron model in the pre-Botzinger complex. [J] . Shirahata T Neuroscience Letters: An International Multidisciplinary Journal Devoted to the Rapid Publication of Basic Research in the Brain Sciences . 2010,第1期

机译：超极化输入对前Botzinger复合体中爆发性起搏器神经元模型动力学的影响。
3. Computational modeling of bursting pacemaker neurons in the pre-B6tzinger complex [J] . N.A. Shevtsova, K. Ptak, D.R. McCrimmon, Neurocomputing . 2003,第Jun期

机译：前B6tzinger复合体中爆发性起搏器神经元的计算模型
4. Computational modeling of bursting pacemaker neurons in the pre-B6tzinger complex [C] . N.A. Shevtsova, K. Ptak, D.R. McCrimmon, Computational neuroscience meeting . 2003

机译：在B6Tzinger复合体中爆发起搏器神经元的计算模拟
5. A non-autonomous bursting model for neurons. [D] . Latulippe, Joe Jean-Marc. 2007

机译：神经元的非自主爆发模型。
6. The effects of calcium++ on bursting neurons. A modeling study. [O] . R E Plant 1978

机译：钙++对爆发性神经元的影响。建模研究。
7. Oxytocin-induced postinhibitory rebound firing facilitates bursting activity in oxytocin neurons. : GABAergic activity facilitates bursting firing [O] . Israel, Jean-Marc, Poulain, Dominique,, Oliet, Stéphane, 2008

机译：催产素诱导的抑制后反弹激发促进催产素神经元的爆发活动。：GABA能活动促进爆发性射击

Geometrical analysis of bursting pacemaker neurons generated by computational models: comparison to in vitro pre-Botzinger complex bursting neurons.

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