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Query: UMLS:C0020440 (
hypercapnia
)
7,939
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We studied the influence of central and peripheral chemoreceptor stimulation on the activities of the phrenic and internal intercostal (iic) nerves in decerebrate, vagotomized, and paralyzed cats with bilateral pneumothoraces. Whole iic nerves of the rostral thorax (T2-T5) usually discharged during neural inspiration, whereas those of the caudal thorax (T7-
T11
) were primarily active during neural expiration. Filaments of rostral iic nerves that terminated in iic muscles generally discharged during expiration, suggesting that inspiratory activity recorded in whole iic nerves may have innervated other structures, possibly parasternal muscles. All nerves were phasically active at hyperoxic normocapnia and increased their activities systematically with
hypercapnia
. Isocapnic hypoxia or intra-arterial NaCN injection consistently increased phrenic and inspiratory iic nerve activities. In contrast, expiratory iic nerve discharges were either decreased (10 cats) or increased (7 cats) by hypoxia. Furthermore, expiratory responses to NaCN were highly variable and could not be predicted from the corresponding response to hypoxia. The results show that central and peripheral chemoreceptor stimulation can affect inspiratory and expiratory motoneuron activities differentially. The variable effects of hypoxia on expiratory iic nerve activity may reflect a relatively weak influence of carotid body afferents on expiratory bulbospinal neurons. However, the possibility that the magnitude of expiratory motoneuron activity is influenced by the intensity of the preceding centrally generated inspiratory discharge is also discussed.
...
PMID:Internal intercostal nerve discharges in the cat: influence of chemical stimuli. 270
We studied the role of spinal afferent pathways in the hyperpnea of electrically induced muscle contractions (ExE). The ventilatory (VE) and arterial CO2 partial pressure (PaCO2) responses were measured at rest and during two levels of ExE in awake human paraplegic subjects with clinically complete lesions of the spinal cord (range T4-
T11
). We hypothesized that if peripheral neural drive is critical to a normal ventilatory response, then ExE in the absence of intact pathways should cause a lower ventilatory response resulting in
hypercapnia
at the onset of ExE. ExE was induced by stimulation of the quadriceps and hamstring muscles that approximately doubled the resting level of CO2 production (VCO2). PaCO2 during work transitions and in the latter stages of ExE did not differ significantly from that at rest. Arterial pH progressively declined over time during ExE (P less than 0.01) as a result of increased lactate concentration (P less than 0.01). The linear relationship between VE and VCO2 was similar to that found for normal human subjects during ExE (P = 0.73). These data suggest that VE and presumably alveolar ventilation (VA) can be appropriately matched to VCO2 during low-intensity muscle contractions of the lower extremities in the absence of intact spinal afferent pathways. Moreover, since it is unlikely that postulated "central command" mechanisms were initiated during ExE in these paraplegic subjects, the data provide support for our previous conclusion that central command is not obligatory for matching VA to VCO2 (J. Appl. Physiol. 64: 218-225, 1988).
...
PMID:Is the hyperpnea of muscular contractions critically dependent on spinal afferents? 312 25
