Edward H. Vidruk scite author profile

We tested the hypothesis that unanesthetized rats exhibit ventilatory long-term facilitation (LTF) after intermittent, but not continuous, hypoxia. Minute ventilation (VE) and carbon dioxide production (VCO(2)) were measured in unanesthetized, unrestrained male Sprague-Dawley rats via barometric plethysmography before, during, and after exposure to continuous or intermittent hypoxia. Hypoxia was either isocapnic [inspired O(2) fraction (FI(O(2))) = 0.08--0.09 and inspired CO(2) fraction (FI(CO(2))) = 0.04] or poikilocapnic (FI(O(2)) = 0.11 and FI(CO(2)) = 0.00). Sixty minutes after intermittent hypoxia, VE or VE/VCO(2) was significantly greater than baseline in both isocapnic and poikilocapnic conditions. In contrast, 60 min after continuous hypoxia, VE and VE/VCO(2) were not significantly different from baseline values. These data demonstrate ventilatory LTF after intermittent hypoxia in unanesthetized rats. Ventilatory LTF appeared similar in its magnitude (after accounting for CO(2) feedback), time course, and dependence on intermittent hypoxia to phrenic LTF previously observed in anesthetized, vagotomized, paralyzed rats.

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Attenuation of the hypoxic ventilatory response in adult rats following one month of perinatal hyperoxia.

Ling

Olson

Vidruk

et al. 1996

The Journal of Physiology

109

116

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1. This study was designed to test the hypothesis that perinatal suppression of peripheral arterial chemoreceptor inputs attenuates the hypoxic ventilatory response in adult rats. Perinatal suppression of peripheral chemoreceptor activity was achieved by exposing rats to hyperoxia throughout the first month of life. 2. Late-gestation pregnant rats were housed in a 60% 02 environment, exposing the pups to hyperoxia from several days prior to birth until they were returned to normoxia on postnatal day 28. These perinatally treated rats were then reared to adulthood (3-5 months old) in normoxia. In addition to the mother rats, adult male rats were also exposed to hyperoxia, creating an adult-treated control group. Two to four months after the hyperoxic exposure, treated rats were compared with untreated male rats of similar age. 3. A whole-body, flow-through plethysmograph was used to measure hypoxic and hypercapnic ventilatory responses of the unanaesthetized adult rats. In moderate hypoxia (arterial oxygen partial pressure, Pa02 -48 mmHg), VE (minute ventilation) and the ratio VE/VGO2(ventilation relative to CO2 production) increased by 16-7 + 4 0 and 35-4 + 3 4%, respectively, in perinatal-treated rats (means + S.E.M.), but increased more in untreated control rats (51-4 + 2-8 and 83-1 + 4.3%; both P < 10-6).4. In contrast to the impaired hypoxic ventilatory response, ventilatory responses to hypercapnia (5 % C02) were similar between untreated control and perinatal-treated rats. 5. Impaired hypoxic responsiveness was unique to the perinatal-treated rats since hypoxic ventilatory responses were not attenuated in adult-treated rats. 6. The results indicate that ventilatory responses to hypoxaemia are greatly attenuated in adult rats that had experienced hyperoxia during their first month of life, and suggest that normal hypoxic ventilatory control mechanisms are susceptible to developmental plasticity.

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Estimation of arterial PO2, PCO2, pH, and lactate from arterialized venous blood

Forster¹,

Dempsey²,

Thomson³

et al. 1972

Journal of Applied Physiology

285

123

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Chemoafferent degeneration and carotid body hypoplasia following chronic hyperoxia in newborn rats

Erickson¹,

Mayer²,

Jawa³

et al. 1998

The Journal of Physiology

112

111

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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 contrast, the number of myelinated axons was unaffected by hyperoxic exposure. Chemoafferent neurones, located in the glossopharyngeal petrosal ganglion, already exhibited degenerative changes following 1 week of hyperoxia from birth, indicating that even a relatively short hyperoxic exposure was sufficient to derange normal chemoafferent development. In contrast, no such changes were observed in the vagal nodose ganglion, demonstrating that the effect of high oxygen levels was specific to sensory neurones in the carotid body afferent pathway. Moreover, petrosal ganglion neurones were sensitive to hyperoxic exposure only during the early postnatal period. Chemoafferent degeneration in chronically hyperoxic animals was accompanied by marked hypoplasia of the carotid body. In view of previous findings from our laboratory that chemoafferent neurones require trophic support from the carotid body for survival after birth, we propose that chemoafferent degeneration following chronic hyperoxia is due specifically to the loss of target tissue in the carotid body.

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Developmental plasticity of the hypoxic ventilatory response

Ling

Olson

Vidruk

et al. 1997

Respiration Physiology

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Edward H. Vidruk

Ventilatory long-term facilitation in unanesthetized rats

Attenuation of the hypoxic ventilatory response in adult rats following one month of perinatal hyperoxia.

Estimation of arterial PO2, PCO2, pH, and lactate from arterialized venous blood

Chemoafferent degeneration and carotid body hypoplasia following chronic hyperoxia in newborn rats

Developmental plasticity of the hypoxic ventilatory response

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