Anesthesiology
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Randomized Controlled Trial Comparative Study Clinical Trial
Pulmonary airway resistance with the endotracheal tube versus laryngeal mask airway in paralyzed anesthetized adult patients.
The hypothesis that airway resistance is less with the laryngeal mask airway than with the endotracheal tube was tested. ⋯ The laryngeal mask airway triggers less bronchoconstriction than does the endotracheal tube in paralyzed anesthetized adult patients. This may have implications for maintaining intraoperative pulmonary function and reducing the risk for atelectasis and pulmonary infection.
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Randomized Controlled Trial Comparative Study Clinical Trial
Endotracheal intubation, but not laryngeal mask airway insertion, produces reversible bronchoconstriction.
Tracheal intubation frequently results in an increase in respiratory system resistance that can be reversed by inhaled bronchodilators. The authors hypothesized that insertion of a laryngeal mask airway would be less likely to result in reversible bronchoconstriction than would insertion of an endotracheal tube. ⋯ Resistance decreased rapidly only in patients with endotracheal tubes after they received isoflurane, a potent bronchodilator, suggesting that reversible bronchoconstriction was present in patients with endotracheal tubes but not in those with laryngeal mask airways. A laryngeal mask airway is a better choice of airway to minimize airway reaction.
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Systemic air or gas embolism has been increasingly recognized as a complication of serious chest trauma and often presents with catastrophic circulatory and cerebral events. The classic findings are hemoptysis, sudden cardiac or cerebral dysfunction after initiation of PPV, air in retinal vessels, and air in arterial aspirations. The clinician must be wary of more subtle presentations. ⋯ HBOT is useful in managing cerebral air embolism and should be incorporated as soon as possible. Clinicians involved in trauma care must be familiar with SAE. By adopting a problem-based solution through innovative airway and ventilation management, anesthesiologists may significantly alter and improve the morbidity and mortality rate of SAE resulting from chest trauma.
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It is not known whether the lungs influence the early pharmacokinetics of muscle relaxants and, if they do, whether differences in pulmonary uptake contribute to the differences in potency and/or onset time among muscle relaxants. Because the lungs are uniquely positioned, receive the entire cardiac output, have a large capillary surface area, and can temporarily store various basic drugs, the authors determined whether substantial pulmonary first-pass uptake of muscle relaxants occurs. ⋯ There is no substantial pulmonary first-pass uptake of rocuronium, vecuronium, Org 9487, Org 7617, or d-tubocurarine in pigs. Therefore, differences in pulmonary first-pass uptake do not contribute to the differences in potency and/or onset time among muscle relaxants.
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Opiate receptors in the periaqueductal gray region and alpha2 adrenoceptors in the spinal cord of the rat mediate the antinociceptive properties of nitrous oxide (N2O). The availability of genetically altered mice facilitates the detection of the precise protein species involved in the transduction pathway. In this study, the authors establish the similarity between rats and mice in the antinociceptive action of N2O and investigate which alpha2 adrenoceptor subtypes mediate this response. ⋯ These data confirm that the antinociceptive response to an exogenous alpha2-agonist is mediated by an alpha2A adrenoceptor and that there appears to be a role for the alpha2B- or alpha2C-adrenoceptor subtypes, or both, in the analgesic response to N2O.