1998
DOI: 10.1111/j.1469-7793.1998.519bn.x
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Chemoafferent degeneration and carotid body hypoplasia following chronic hyperoxia in newborn rats

Abstract: To define the role of environmental oxygen in regulating postnatal maturation of the carotid body afferent pathway, light and electron microscopic methods were used to compare chemoafferent neurone survival and carotid body development in newborn rats reared from birth in normoxia (21 % O2) or chronic hyperoxia (60 % O2). Four weeks of chronic hyperoxia resulted in a significant 41 % decrease in the number of unmyelinated axons in the carotid sinus nerve, compared with age‐matched normoxic controls. In contras… Show more

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Cited by 112 publications
(121 citation statements)
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“…The functional impairment is not due to alterations in pulmonary mechanics or gas exchange (135) or changes in the central integration of carotid chemoafferent inputs (62,134). Rather, carotid chemoreceptor development is impaired because the carotid bodies are hypoplastic (47,66), the number of chemoafferent neurons in the carotid sinus nerve is reduced (47), and carotid sinus nerve afferent responses to cyanide, asphyxia, and hypoxia are reduced (20,62,133). The sensitive developmental period for these changes is within the first 2 postnatal wk (15).…”
Section: Developmental Plasticitymentioning
confidence: 99%
“…The functional impairment is not due to alterations in pulmonary mechanics or gas exchange (135) or changes in the central integration of carotid chemoafferent inputs (62,134). Rather, carotid chemoreceptor development is impaired because the carotid bodies are hypoplastic (47,66), the number of chemoafferent neurons in the carotid sinus nerve is reduced (47), and carotid sinus nerve afferent responses to cyanide, asphyxia, and hypoxia are reduced (20,62,133). The sensitive developmental period for these changes is within the first 2 postnatal wk (15).…”
Section: Developmental Plasticitymentioning
confidence: 99%
“…Hyperoxic exposure in newborn rat pups is cytotoxic to peripheral arterial chemoreceptors as evidenced by hypoplasia of the carotid body and a 41% reduction in the number of chemoafferent neurons (8). The mechanisms leading to cytotoxic changes in the carotid body and the reduction in chemoreflexes after hyperoxicexposure during early postnatal development are unknown.…”
mentioning
confidence: 99%
“…Phrenic nerve responses to electrical stimulation of the carotid sinus nerve are virtually identical between hyperoxia-treated and control rats (33,57), suggesting that central integration of chemoafferent inputs is not impaired. On the other hand, normal phrenic responses to carotid sinus nerve stimulation are somewhat surprising because the number of chemoafferent neurons stimulated is reduced in hyperoxia-treated rats (29). Although this finding could reflect technical limitations of the approach, it may indicate that central neural integration of carotid chemoafferent activity is actually enhanced in adult rats raised in hyperoxia.…”
Section: Developmental Plasticity In Respiratory Control: Examplesmentioning
confidence: 41%
“…Given the enduring nature of developmental plasticity, structural changes are likely to be involved in many cases. For example, as described above, perinatal hyperoxia (29,109) and neonatal CIH (86) are associated with hypoplasia in the peripheral nervous system and CNS, respectively. The perinatal period is characterized by high rates of synaptogenesis, cellular proliferation, and apoptosis in structures associated with respiratory control (e.g., 104,109,115); these processes generally occur during narrow developmental windows, thereby defining potential critical periods for plasticity.…”
Section: Future Directions For the Study Of Developmental Plasticitymentioning
confidence: 99%
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