Abstract

The tongue muscles participate in such diverse activities as breathing, swallowing, speech and mastication, and are thus critical for homeostasis. Fibers from eight different muscles insert into the mammaliantongue and control its movement, shape and stiffness, but the control of tongue muscle motor units has been largely ignored. Our goal is to explore how the central nervous system controls a patterned behavior (drive controlled by the respiratory central pattern generator, CPG) that involves multiple muscles acting on a single mechanical structure, by addressing the following issues: 1) motoneurons driving tongue protrudor and retractor muscles receive significant common synaptic input even though they have opposite mechanical actions on the tongue, suggesting that agonist-antagonist co-activation controlstongue stiffness;2) respiratory-related input to tongue and """"""""primary"""""""" inspiratory muscles (diaphragm, intercostals) is derived from independent sources;3) Models predict that motor unit spike trains become more variable as synaptic input to the cell is increased. This can be tested by measuring the change in spike train variability when excitatory synaptic input is superimposed on the underlying input emanating from the respiratory CPG;4} Motor units innervating tongue muscles with respiratory related activity fall into two functional populations;those that rate code when drive to the muscle increases, and those that do not. Wepropose that the firing rate of motor units that do not rate code saturates despite increases in synaptic input;and we will test this hypothesis;5) Individual motor units within a muscle comprise at least four, task-specific sub- populations (inspiratory, expiratory, tonic and expiratory-inspiratory units), and the task specificity of a given unit depends on its contractile properties. Experiments will be done in anesthetized, spontaneously breathing adult rats. Techniques used include single motor unit electrophysiology, cross correlation analysis and the measurement of ventilatory output. The results of these experimentswill contribute to the knowledge base needed to develop treatment strategies for obstructive sleep apnea, swallowingdisorders, and oro-facial motor deficits.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC007692-04
Application #
7751905
Study Section
Motor Function, Speech and Rehabilitation Study Section (MFSR)
Program Officer
Shekim, Lana O
Project Start
2007-01-01
Project End
2011-12-31
Budget Start
2010-01-01
Budget End
2010-12-31
Support Year
4
Fiscal Year
2010
Total Cost
$311,528
Indirect Cost

  Institution

Name
University of Arizona
Department
Physiology
Type
Schools of Medicine
DUNS #
806345617
City
Tucson
State
AZ
Country
United States
Zip Code
85721

  Publications

Powell, Gregory L; Rice, Amber; Bennett-Cross, Seres J et al. (2014) Respiration-related discharge of hyoglossus muscle motor units in the rat. J Neurophysiol 111:361-8
Fregosi, Ralph F; Ludlow, Christy L (2014) Activation of upper airway muscles during breathing and swallowing. J Appl Physiol (1985) 116:291-301
Rice, Amber; Fuglevand, Andrew J; Laine, Christopher M et al. (2011) Synchronization of presynaptic input to motor units of tongue, inspiratory intercostal, and diaphragm muscles. J Neurophysiol 105:2330-6
Fregosi, Ralph F; Bailey, E Fiona; Fuller, David D (2011) Respiratory muscles and motoneurons. Respir Physiol Neurobiol 179:1-2
Fregosi, Ralph F (2011) Influence of tongue muscle contraction and transmural pressure on nasopharyngeal geometry in the rat. J Appl Physiol (1985) 111:766-74
Fregosi, Ralph F (2011) Respiratory related control of hypoglossal motoneurons--knowing what we do not know. Respir Physiol Neurobiol 179:43-7
Sandhu, M S; Lee, K Z; Fregosi, R F et al. (2010) Phrenicotomy alters phrenic long-term facilitation following intermittent hypoxia in anesthetized rats. J Appl Physiol (1985) 109:279-87
Huang, Yu-Hsien; Brown, Amanda Rose; Cross, Seres J B et al. (2010) Influence of prenatal nicotine exposure on development of the ventilatory response to hypoxia and hypercapnia in neonatal rats. J Appl Physiol (1985) 109:149-58
Pilarski, Jason Q; Fregosi, Ralph F (2009) Prenatal nicotine exposure alters medullary nicotinic and AMPA-mediated control of respiratory frequency in vitro. Respir Physiol Neurobiol 169:1-10
Fregosi, Ralph F; Pilarski, Jason Q (2008) Prenatal nicotine exposure and development of nicotinic and fast amino acid-mediated neurotransmission in the control of breathing. Respir Physiol Neurobiol 164:80-6

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