Journal of aerosol medicine and pulmonary drug delivery
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J Aerosol Med Pulm Drug Deliv · Aug 2014
Comparative StudyIn vitro characterization of the OptiChamber Diamond valved holding chamber.
Use of a valved holding chamber (VHC) in conjunction with a pressurized metered dose inhaler (pMDI) can reduce issues relating to poor actuation-inhalation coordination and potentially improve the lung deposition of aerosol, compared with use of a pMDI alone. However, the performance of a VHC is influenced by different device-related factors, including the size and shape of the VHC and the material it is manufactured from (conventional versus antistatic). This study aimed to provide an in vitro characterization of an antistatic VHC, the OptiChamber Diamond VHC, comparing the aerodynamic particle size distribution of aerosol delivered via this VHC with results from a second antistatic VHC and a conventional VHC. ⋯ The two antistatic VHCs were equivalent for both pMDI brands. Aerosol delivered from the antistatic VHCs at 15 L/min had a higher proportion of fine particles compared with the conventional VHC.
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J Aerosol Med Pulm Drug Deliv · Aug 2014
Observational StudyAn instrumented valved holding chamber with facemask to measure application forces and flow in young asthmatic children.
Pressurized metered dose inhalers (pMDIs), combined with a valved holding chamber (VHC) and facemask, are often used for young asthmatic children. When using a VHC with facemask, a tight seal between the facemask and the patient's face is crucial for efficient pulmonary aerosol delivery. Realistic parameters for in vitro bench testing are not well known. A custom instrumented OptiChamber Diamond VHC, known as the Facemask Datalogger, was developed to measure the real-time application of force and the air flow through the VHC and facemask. ⋯ The Facemask Datalogger is useful for measuring application force and air flow in vivo. Mean application force was lower than assumed in other studies. Older children emptied the VHC faster, with fewer breaths and better cooperation. The data from this study can be used in the future development and testing of new facemasks and VHCs.
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J Aerosol Med Pulm Drug Deliv · Jun 2014
ReviewPediatric in vitro and in silico models of deposition via oral and nasal inhalation.
Respiratory tract deposition models provide a useful method for optimizing the design and administration of inhaled pharmaceutical aerosols, and can be useful for estimating exposure risks to inhaled particulate matter. As aerosol must first pass through the extrathoracic region prior to reaching the lungs, deposition in this region plays an important role in both cases. Compared to adults, much less extrathoracic deposition data are available with pediatric subjects. ⋯ Computational fluid dynamics simulations allow for the quantification of local deposition patterns and an in-depth examination of aerosol behavior in the respiratory tract. Recent studies have used both in vitro and in silico deposition measurements in realistic pediatric airway geometries to some success. This article reviews the current understanding of pediatric in vitro and in silico deposition modeling via oral and nasal inhalation.
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J Aerosol Med Pulm Drug Deliv · Jun 2014
Improved metered dose inhaler technique when a coordination cap is used.
Patients often experience problems using metered dose inhalers (MDIs), particularly poor coordination between inhalation start and dose actuation (TsIn: time difference between the start of an inhalation and the actuation of a dose), and fast peak inspiratory flow (PIF). We investigated if a coordination cap (CAP), with instruction to prolong inhalation, solved these problems. ⋯ The cap with its effect of increasing resistance to airflow combined with the instruction to prolong inhalation time significantly decreased the inhalation flow.
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J Aerosol Med Pulm Drug Deliv · Jun 2014
Hood nebulization: effects of head direction and breathing mode on particle inhalability and deposition in a 7-month-old infant model.
Aerosol drug delivery to infants is a strong function of their behavior. Infants can be active during medication administration, changing head position or breathing mode. The objective was to evaluate the influence of the head direction and breathing mode on the hood drug delivery in a 7-month-old girl airway model by using an approach that couples imaging with computational fluid dynamics (CFD). Three head directions, i.e., face up, face side, and sitting (face front), and two breathing modes, i.e., oronasal and nasal breathing, were studied. ⋯ The face-side position has less facial-ocular deposition than the face-up position, while still achieving similar lung delivery efficiency. Because aerosols deposited around the eyes may cause irritation to the eyes, the face-side position appears to be a better option than the face-up position for comfort and safety reasons.