Resp Care
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Randomized Controlled Trial Comparative Study Clinical Trial
Counseling about turbuhaler technique: needs assessment and effective strategies for community pharmacists.
Optimal effects of asthma medications are dependent on correct inhaler technique. In a telephone survey, 77/87 patients reported that their Turbuhaler technique had not been checked by a health care professional. In a subsequent pilot study, 26 patients were randomized to receive one of 3 Turbuhaler counseling techniques, administered in the community pharmacy. ⋯ After 2 weeks, optimal technique was achieved by 0/7 patients receiving standard verbal counseling (A), 2/8 receiving verbal counseling augmented with emphasis on Turbuhaler position during priming (B), and 7/9 receiving augmented verbal counseling plus physical demonstration (C) (Fisher's exact test for A vs C, p = 0.006). Satisfactory technique (4 essential steps correct) also improved (A: 3/8 to 4/7; B: 2/9 to 5/8; and C: 1/9 to 9/9 patients) (A vs C, p = 0.1). Counseling in Turbuhaler use represents an important opportunity for community pharmacists to improve asthma management, but physical demonstration appears to be an important component to effective Turbuhaler training for educating patients toward optimal Turbuhaler technique.
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Randomized Controlled Trial Comparative Study Clinical Trial
Noninvasive positive-pressure ventilation in patients with milder chronic obstructive pulmonary disease exacerbations: a randomized controlled trial.
To determine the effect of the addition of noninvasive positive-pressure ventilation (NPPV) to standard medical therapy on length of hospital stay among patients presenting with mild exacerbations of chronic obstructive pulmonary disease (COPD) requiring hospitalization. ⋯ The effectiveness and cost-effectiveness of the addition of NPPV to standard therapy in milder COPD exacerbations remains unclear. P(aCO(2)) related to this increased WOB that requires intervention with some form of assisted ventilation. All patients developing an exacerbation of COPD that requires hospitalization have an increased WOB and, we hypothesize, potentially develop some degree of associated respiratory muscle fatigue. We further hypothesize that adding intermittent NPPV during the initial days of hospital stay would afford respiratory muscle rest for patients with milder COPD exacerbations and that this rest would allow these patients to recover more quickly and to be discharged home earlier. The objective of this trial was to determine whether the addition of NPPV to standard therapy during the first 3 days of admission in milder COPD exacerbations could decrease length of hospital stay.
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Comparative Study
Evaluation of resistance in 8 different heat-and-moisture exchangers: effects of saturation and flow rate/profile.
When endotracheal intubation is required during ventilatory support, the physiologic mechanisms of heating and humidifying the inspired air related to the upper airways are bypassed. The task of conditioning the air can be partially accomplished by heat-and-moisture exchangers (HMEs). ⋯ Resistance was little affected by saturation in hygroscopic models, when compared to the hydrophobic or hygroscopic/hydrophobic HME. Changes in inspiratory flow did not cause relevant alterations in resistance.
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American Heart Association/American College of Cardiology guidelines recommend a compression-to-ventilation ratio (C/V ratio) of 15:2 during cardiopulmonary resuscitation (CPR) for out-of-the-hospital cardiac arrest. Recent data have shown that frequent ventilations are unnecessary and may be harmful during CPR, since each positive-pressure ventilation increases intrathoracic pressure and may increase intracranial pressure and decrease venous blood return to the right heart and thereby decrease both the cerebral and coronary perfusion pressures. ⋯ In a porcine model of ventricular fibrillation cardiac arrest, reducing the ventilation frequency during CPR by increasing the C/V ratio from 15:2 to 15:1 resulted in improved vital-organ perfusion pressures, higher end-tidal CO(2) levels, and no change in arterial oxygen content or acid-base balance.
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Editorial Comment
Is there too much "pulmonary" in cardiopulmonary resuscitation?