D.K. Ward scite author profile

D.K. Ward

5Publications

63Citation Statements Received

0Citation Statements Given

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Dartmouth College

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Hypoxia inhibits abdominal expiratory nerve activity

Fregosi¹,

Knuth²,

Ward³

et al. 1987

Journal of Applied Physiology

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Our purpose was to examine the influence of steady-state changes in chemical stimuli, as well as discrete peripheral chemoreceptor stimulation, on abdominal expiratory motor activity. In decerebrate, paralyzed, vagotomized, and ventilated cats that had bilateral pneumothoraces, we recorded efferent activity from a phrenic nerve and from an abdominal nerve (cranial iliohypogastric nerve, L1). All cats showed phasic expiratory abdominal nerve discharge at normocapnia [end-tidal PCO2 38 +/- 2 Torr], but small doses (2-6 mg/kg) of pentobarbital sodium markedly depressed this activity. Hyperoxic hypercapnia consistently enhanced abdominal expiratory activity and shortened the burst duration. Isocapnic hypoxia caused inhibition of abdominal nerve discharge in 11 of 13 cats. Carotid sinus nerve denervation (3 cats) exacerbated the hypoxic depression of abdominal nerve activity and depressed phrenic motor output. Stimulation of peripheral chemoreceptors with NaCN increased abdominal nerve discharge in 7 of 10 cats, although 2 cats exhibited marked inhibition. Four cats with intact neuraxis, but anesthetized with ketamine, yielded qualitatively similar results. We conclude that when cats are subjected to steady-state chemical stimuli in isolation (no interference from proprioceptive inputs), hypercapnia potentiates, but hypoxia attenuates, abdominal expiratory nerve activity. Mechanisms to explain the selective inhibition of expiratory motor activity by hypoxia are proposed, and physiological implications are discussed.

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Reflex inhibition of crural diaphragmatic activity by esophageal distention in cats

Oyer¹,

Knuth²,

Ward³

et al. 1989

Respiration Physiology

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Patterns of neural and muscular electrical activity in costal and crural portions of the diaphragm

Oyer

Knuth

Ward

et al. 1989

Journal of Applied Physiology

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To determine whether the central respiratory drives to costal and crural portions of the diaphragm differ from each other in response to chemical and mechanical feedbacks, activities of costal and crural branches of the phrenic nerve were recorded in decerebrate paralyzed cats, studied either with vagi intact and servo-ventilated in accordance with their phrenic nerve activity or vagotomized and ventilated conventionally. Costal and crural electromyograms (EMGs) were recorded in decerebrate spontaneously breathing cats. Hypercapnia and hypoxia resulted in significant increases in peak integrated costal, crural, and whole phrenic nerve activities when the vagi were either intact or cut. However, there were no consistent differences between costal and crural neural responses. Left crural EMG activity was increased significantly more than left costal EMG activity in response to hypercapnia and hypoxia. These results indicate that the central neural inputs to costal and crural portions of the diaphragm are similar in eupnea and in response to chemical and mechanical feedback in decerebrate paralyzed cats. The observed differences in EMG activities in spontaneously breathing animals must arise from modulation of central respiratory activity by mechanoreceptor feedback from respiratory muscles, likely the diaphragm itself.

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Influence of extreme hypercapnia on respiratory motor nerve activity in cats

Bartlett

Knuth

Ward

1987

Respiration Physiology

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Influence of extreme hypercapnia on respiratory motor nerve activity in cats

Bartlett

Knuth

Ward

1987

Respiration Physiology

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D.K. Ward

Hypoxia inhibits abdominal expiratory nerve activity

Reflex inhibition of crural diaphragmatic activity by esophageal distention in cats

Patterns of neural and muscular electrical activity in costal and crural portions of the diaphragm

Influence of extreme hypercapnia on respiratory motor nerve activity in cats

Influence of extreme hypercapnia on respiratory motor nerve activity in cats

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