Pulmonary pharmacology & therapeutics
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Pulm Pharmacol Ther · Jan 2005
ReviewPharmacotherapy in complicated parapneumonic pleural effusions and thoracic empyema.
Parapneumonic pleural effusions (PPE) and pleural empyema (PE) present a frequently diagnostic and therapeutic challenge in clinical practice. Although pleural diseases have received increased attention during the past decade, there are still many unanswered questions concerning the diagnosis and treatment of PPE and PE. A lack of controlled studies concerning the management of PPE and PE was noted in recent guidelines. ⋯ Recently, there has been interest in other intrapleural agents including combination drugs consisting of streptokinase and streptodornase-alpha, Dnase. Factors to be considered in evaluating whether or not intrapleural instillation of fibrinolytics is effective include an assessment of clinical responses. This review discusses the use of fibrinolytic agents as a novel therapeutic options for treating the various stages of parapneumonic effusions and empyemas.
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Pulm Pharmacol Ther · Jan 2005
Effect of histamine, albuterol and deep inspiration on airway and lung tissue mechanics in cynomolgus monkeys.
Forced oscillation is a technique that has been used to measure airway and lung tissue impedance. To evaluate airway and lung tissue impedance in a colony of cynomolgus monkeys housed at Schering-Plough Research Institute, a forced oscillation technique was used to measure Newtonian resistance (R(N)), tissue damping (G), tissue elastance (H) and lung hysteresivity (eta). Functional residual capacity (FRC) was also measured to correlate the lung impedance data with FRC. ⋯ Aerosolized albuterol (0.003-3mg/ml) produced a concentration-dependent reversal of the increases in R(N), G, H and eta induced by histamine with the greatest reversal seen on R(N). Deep inspiration, performed after the aerosolized albuterol exposure, also reversed the histamine-induced changes in R(N), G, and H with the complete reversal seen on the increase in H. These results demonstrate that significant correlations exist between airway and lung tissue impedance and FRC and that airway and lung tissue mechanics contribute significantly to inherent bronchoconstrictor reactivity and to the bronchodilator response to a beta-adrenergic agonist and deep inspiration in cynomolgus monkeys.