Functional connectivity among ventrolateral medullary respiratory neurones and responses during fictive cough in the cat

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Functional connectivity among ventrolateral medullary respiratory neurones and responses during fictive cough in the cat

R. Shannon, D. M. Baekey, K. F. Morris, Z. Li and B. G. Lindsey

Department of Physiology and Biophysics and Neuroscience Program, University of South Florida Health Sciences Center, Tampa, FL 33612-4799, USA

This study tested predictions from a network model of ventrolateral medullary respiratory neurone interactions for the generation of the cough motor pattern observed in inspiratory and expiratory pump muscles.
Data were from 34 mid-collicularly decerebrated, paralysed, artificially ventilated cats. Cough-like patterns (fictive cough) in efferent phrenic and lumbar nerve activities were elicited by mechanical stimulation of the intrathoracic trachea. Neurones in the ventral respiratory group, including the Bötzinger and pre-Bötzinger complexes, were monitored simultaneously with microelectrode arrays. Spike trains were analysed for evidence of functional connectivity and responses during fictive cough with cycle-triggered histograms, autocorrelograms, cross-correlograms, and spike-triggered averages of phrenic and recurrent laryngeal nerve activities.
Significant cross-correlogram features were detected in 151 of 1988 pairs of respiratory modulated neurones. There were 59 central peaks, 5 central troughs, 11 offset peaks and 2 offset troughs among inspiratory neurone pairs. Among expiratory neurones there were 23 central peaks, 8 offset peaks and 4 offset troughs. Correlations between inspiratory and expiratory neurones included 20 central peaks, 10 central troughs and 9 offset troughs. Spike-triggered averages of phrenic motoneurone activity had 51 offset peaks and 5 offset troughs.
The concurrent responses and multiple short time scale correlations support parallel and serial network interactions proposed in our model for the generation of the cough motor pattern in the respiratory pump muscles. Inferred associations included the following. (a) Excitation of augmenting inspiratory (I-Aug) neurones and phrenic motoneurones by I-Aug neurones. (b) Inhibition of augmenting expiratory (E-Aug) neurones by decrementing inspiratory (I-Dec) neurones. (c) Inhibition of I-Aug, I-Dec and E-Aug neurones by E-Dec neurones. (d) Inhibition of I-Aug and I-Dec neurones and phrenic motoneurones by E-Aug neurones. The data also confirm previous results and support hypotheses in current network models for the generation of the eupnoeic pattern.

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				J. Widdicombe and G. Fontana Cough: what's in a name? Eur. Respir. J., July 1, 2006; 28(1): 10 - 15. [Abstract] [Full Text] [PDF]

				M. Krolo, V. Tonkovic-Capin, A. G. Stucke, E. A. Stuth, F. A. Hopp, C. Dean, and E. J. Zuperku Subtype Composition and Responses of Respiratory Neurons in the Pre-Botzinger Region to Pulmonary Afferent Inputs in Dogs J Neurophysiol, May 1, 2005; 93(5): 2674 - 2687. [Abstract] [Full Text] [PDF]

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				T. E. Dick and K. F. Morris Quantitative analysis of cardiovascular modulation in respiratory neural activity J. Physiol., May 1, 2004; 556(3): 959 - 970. [Abstract] [Full Text] [PDF]

				K. F. Morris, D. M. Baekey, S. C. Nuding, T. E. Dick, R. Shannon, and B. G. Lindsey Plasticity in Respiratory Motor Control: Invited Review: Neural network plasticity in respiratory control J Appl Physiol, March 1, 2003; 94(3): 1242 - 1252. [Abstract] [Full Text] [PDF]

				F. Roda, C. Gestreau, and A. L. Bianchi Discharge Patterns of Hypoglossal Motoneurons During Fictive Breathing, Coughing, and Swallowing J Neurophysiol, April 1, 2002; 87(4): 1703 - 1711. [Abstract] [Full Text] [PDF]

				D. C. Bolser and P. W. Davenport Volume-timing relationships during cough and resistive loading in the cat J Appl Physiol, August 1, 2000; 89(2): 785 - 790. [Abstract] [Full Text] [PDF]