Real-Time In Vitro Assessment of Aerosol Delivery During Mechanical Ventilation.

Background: A new real-time method for assessing factors determining aerosol delivery is described. Methods: A breath-enhanced jet nebulizer operated in a ventilator/heated humidifier system was tested during bolus and continuous infusion aerosol delivery. 99mTc (technetium)/saline was either injected (3 or 6 mL) or infused over time into the nebulizer. A shielded gamma ratemeter was oriented to count radioaerosol accumulating on an inhaled mass (IM) filter at the airway opening of a test lung. Radioactivity measured at 2-10-minute intervals was expressed as % nebulizer charge (bolus) or % syringe activity per minute infused. All circuit parts were measured and imaged by gamma camera to determine mass balance. Results: Ratemeter activity quantitatively reflected immediate changes in IM: 3 and 6 mL bolus IM% = 16.1 and 18.8% in 6 and 14 minutes, respectively; infusion IM% = 0.64 + 0.13 (run time, min), R2 0.999. Effect of nebulizer priming and system anomalies were readily detected in real time. Mass balance (basis = dose infused in 90 minutes): IM 39.2%, breath-enhanced jet nebulizer residual 35.5%, circuit parts including humidifier 23.4%, and total recovery 98.1%. Visual analysis of circuit component images identified sites of increased deposition. Conclusion: Real-time ratemeter measurement with gamma camera imaging provides operational feedback during in vitro testing procedures and yields a detailed analysis of the parameters influencing drug delivery during mechanical ventilation. This method of analysis facilitates assessment of device function and influence of circuit parameters on drug delivery.

Respiratory care protocol development and impact.

Respiratory care (RC) protocols are widely regarded as the most appropriate method for properly allocating and delivering most forms of respiratory therapy. The use of protocols has increased steadily over the past 15 years, but, despite the successes and modest implementation of RC protocols across the country, there is room for improvement in adopting RC protocols for the effective use of respiratory care services. It also seems that many physicians have yet to be won over, and RC managers need to take the first step toward protocol development and implementation. This article addresses some of the issues surrounding the development of respiratory care protocols and the impact that their implementation may have based on experience gained to date.