Respiratory physiology & neurobiology
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Respir Physiol Neurobiol · Aug 2003
The effect of diffusion in the respiratory tree on the alveolar amplitude response technique (AART).
Theoretical data for the alveolar amplitude response technique (AART) (J. Appl. Physiol. 41 (1976) 419-424) for assessing lung function was simulated using a single path lung model. ⋯ The data was inserted into previously published parameter recovery techniques that may be used to estimate dead-space volume, alveolar volume and cardiac output. These parameter recovery techniques are based on much simpler mathematical models that do not allow stratified inhomogeneities in gas concentrations. It was found that: (i) recovered dead-space volume depended significantly on the ventilation pattern and on the distribution of volume within of the conducting airways; (ii) alveolar volume was recovered to a good degree of accuracy; and (iii) the recovered value of cardiac output was highly dependent on both the choice of inert gas and parameter recovery technique.
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Respir Physiol Neurobiol · Aug 2003
Hypothermia-induced respiratory arrest and recovery in neonatal rats.
To examine the changes in breathing that occur during progressive hypothermia and rewarming in neonatal rats, we cooled and rewarmed rat pups during the first 6 days of life. During cooling, breathing stopped when rectal temperature (Tr) fell below 10.7+/-0.24 degrees C, and recovered spontaneously during rewarming when Tr reached 13.3+/-0.38 degrees C, regardless of age. During cooling, breathing frequency declined progressively, whereas tidal volume increased until Tr fell below 15 degrees C whence it declined to, but never below, normothermic levels. ⋯ There were no effects of age observed over the range studied on the changes in respiratory variables associated with hypothermia or rewarming. Breathing restarted spontaneously on rewarming with no evidence that gasping was required to initiate this process. The overall breathing pattern was episodic during the early stages of rewarming, however, suggesting that the respiratory rhythm is only periodically expressed during the initial stages of recovery from hypothermia.