Janice T. Meier scite author profile

Gargaglioni LH, Meier JT, Branco LG, Milsom WK. Role of midbrain in the control of breathing in anuran amphibians. Am J Physiol Regul Integr Comp Physiol 293: R447-R457, 2007. First published April 9, 2007; doi:10.1152/ajpregu.00793.2006.-The present study was designed to explore systematically the midbrain of unanesthetized, decerebrate anuran amphibians (bullfrogs), using chemical and electrical stimulation and midbrain transections to identify sites capable of exciting and inhibiting breathing. Ventilation was measured as fictive motor output from the mandibular branch of the trigeminal nerve and the laryngeal branch of the vagus nerve. The results of our transection studies suggest that, under resting conditions, the net effect of inputs from sites within the rostral half of the midbrain is to increase fictive breathing frequency, whereas inputs from sites within the caudal half of the midbrain have no net effect on fictive breathing frequency but appear to act on the medullary central rhythm generator to produce episodic breathing. The results of our stimulation experiments indicate that the principal sites in the midbrain that are capable of exciting or inhibiting the fictive frequency of lung ventilation, and potentially clustering breaths into episodes, appear to be those primarily involved in visual and auditory integration, motor functions, and attentional state.control of ventilation; central nervous system; mesencephalon; frog; Rana catesbeiana IN ALL VERTEBRATES, THE MIDBRAIN links the sensory, motor, and integrative components of the pons and medulla with those of the forebrain. The midbrain contains three major regions: the tectum, the tegmentum, and the isthmus. These regions contain nuclei intrinsic to each, as well as ascending and descending fiber tracts that pass through them (2

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Pulmonary vagal modulation of ventilation in toads (Bufo marinus)

Reid

Milsom

Meier

et al. 2000

Respiration Physiology

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This study examined the role of pulmonary vagal feedback on hypercapnic chemosensitivity and breathing pattern formation in cane toads (Bufo marinus). Decerebrate, paralysed toads were uni-directionally ventilated with air, 2.5% CO(2) or 5.0% CO(2) with the lungs inflated or deflated, before and after pulmonary vagotomy. Motor output from the mandibular branch of the trigeminal nerve served as an index of fictive breathing. As respiratory drive was increased, breathing frequency increased and breaths were clustered into discrete episodes separated by periods of apnea. Lung deflation tended to enhance episodic breathing while inflation biased the system towards apnea at low levels of respiratory drive and a pattern of continuous, small breaths at higher levels of respiratory drive. Following bilateral pulmonary vagotomy there was no increase in ventilation during hypercapnia and lung inflation/deflation had no effect on breathing pattern. In isolated brainstem-spinal cord preparations from the same animals, all variables associated with fictive breathing were unaffected by changes in superfusate pH from 8.0 to 7.6. The breathing pattern from the in vitro preparations was highly variable. This study demonstrates a crucial role for vagal feedback in modulating respiration and the respiratory responses to hypercapnia in B. marinus.

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Modulation of respiratory rhythm and pattern in rana catesbeiana the bullfrog

Meier¹

2000

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Janice T. Meier

The influence of descending inputs on breathing pattern formation in the isolated bullfrog brainstem-spinal cord

Central respiratory pattern generation in the bullfrog, Rana catesbeiana

Role of midbrain in the control of breathing in anuran amphibians

Pulmonary vagal modulation of ventilation in toads (Bufo marinus)

Modulation of respiratory rhythm and pattern in rana catesbeiana the bullfrog

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