Sub-micrometer particle production by pressurized metered dose inhalers.

Evidence from both the air pollution and inhaled aerosol therapy fields suggests that the physiological impact of fine and ultrafine aerosols (defined as those below 1000 and 100 nm aerodynamic diameter, respectively) may be greater than their mass or volume of active agent alone might suggest. Traditionally, Andersen impactors and liquid impingers have been used for the sizing of particles produced by pressurized metered dose inhalers (pMDIs). However, these fail adequately to size particles in the ultrafine range (<100 nm aerodynamic diameter). In this paper, we report on a method of sizing pMDI particles down to 10 nm, using an electrical low pressure impactor (size range 30 nm to 10 microm) and a scanning mobility particle sizer (size range 3-150 nm). A range of pMDI drug formulations were assessed, including Flixotide (HFA-fluticasone propionate, GSK [Glaxo Smith Klein]), Salbulin (HFA-salbutamol sulphate, 3M), Qvar (HFA-beclomethasone dipropionate, 3M), Ventolin (HFA-salbutamol sulphate, GSK), Atrovent Forte (CFC-ipratropium bromide, Boehringer Ingelheim), Becotide (CFC-beclomethasone dipropionate, GSK), Pulmicort (CFC-budesonide, Astra Zeneca), and Serevent (CFC-Salmeterol xinafoate, GSK). All devices yielded high numbers of fine and ultrafine particles, with number median aerodynamic diameters (NMAD) of Qvar 68 nm, Becotide 73 nm, Salbulin 85 nm, and Pulmicort 89 nm, and %<100 nm Qvar 76%, Becotide 65%, Salbulin 61%, and Pulmicort 60%. We found a general trend of HFA-propelled pMDIs to produce smaller particles than the CFC units, but this trend was not statistically significant. These findings support previous published work, which suggests that significant bioactivity of pMDIs may reside in the ultrafine fraction.

[1]  N. Fuchs,et al.  On the stationary charge distribution on aerosol particles in a bipolar ionic atmosphere , 1963 .

[2]  K. Brown,et al.  In-vitro characterisation of metered dose inhaler versus dry powder inhaler glucocorticoid products: influence of inspiratory flow rates. , 2000, Journal of pharmacy & pharmaceutical sciences : a publication of the Canadian Society for Pharmaceutical Sciences, Societe canadienne des sciences pharmaceutiques.

[3]  C. Leach Relevance of radiolabeled steroid inhalation studies to clinical outcomes. , 1998, Journal of aerosol medicine : the official journal of the International Society for Aerosols in Medicine.

[4]  R. Elton,et al.  Particulate air pollution and the blood , 1999, Thorax.

[5]  Jorma Keskinen,et al.  PERFORMANCE EVALUATION OF THE ELECTRICAL LOW-PRESSURE IMPACTOR (ELPI) , 2000 .

[6]  J. Fink,et al.  Metered-dose inhalers, dry powder inhalers, and transitions. , 2000, Respiratory care.

[7]  P. Diot,et al.  Validation of laser diffraction method as a substitute for cascade impaction in the European Project for a Nebulizer Standard. , 2001, Journal of aerosol medicine : the official journal of the International Society for Aerosols in Medicine.

[8]  W. MacNee,et al.  Ultrafine (nanometre) particle mediated lung injury , 1998 .

[9]  K. T. Whitby,et al.  Aerosol classification by electric mobility: apparatus, theory, and applications , 1975 .

[10]  Bahman Asgharian,et al.  Mucociliary clearance of insoluble particles from the tracheobronchial airways of the human lung , 2001 .

[11]  G. Oberdörster,et al.  Pulmonary retention of ultrafine and fine particles in rats. , 1992, American journal of respiratory cell and molecular biology.

[12]  A. Wiedensohler,et al.  An approximation of the bipolar charge distribution for particles in the submicron size range , 1988 .

[13]  David M. Brown,et al.  Ultrafine particles: mechanisms of lung injury , 2000, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[14]  Jolyon P. Mitchell,et al.  Size analysis of a pressurized metered dose inhaler-delivered solution formulation by an Aerosizer-LD time-of-flight aerosol particle size spectrometer. , 2002, Journal of aerosol medicine : the official journal of the International Society for Aerosols in Medicine.

[15]  Philippe Rogueda Novel hydrofluoroalkane suspension formulations for respiratory drug delivery , 2005, Expert opinion on drug delivery.

[16]  Mandip Singh,et al.  Inhalation delivery of anticancer agents via HFA-based metered dose inhaler using methotrexate as a model drug. , 2002, Journal of aerosol medicine : the official journal of the International Society for Aerosols in Medicine.

[17]  B. Lipworth,et al.  Dose-response for adrenal suppression with hydrofluoroalkane formulations of fluticasone propionate and beclomethasone dipropionate. , 2001, British journal of clinical pharmacology.

[18]  N. Kenya Montreal Protocol Parties: Adjustments and Amendments to the Montreal Protocol on Substances that Deplete the Ozone Layer , 1991, International Legal Materials.

[19]  Icrp Human Respiratory Tract Model for Radiological Protection , 1994 .