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Nasal sprayed particle deposition in a human nasal cavity under different inhalation conditions.


ABSTRACT: Deposition of polydisperse particles representing nasal spray application in a human nasal cavity was performed under transient breathing profiles of sniffing, constant flow, and breath hold. The LES turbulence model was used to describe the fluid phase. Particles were introduced into the flow field with initial spray conditions, including spray cone angle, insertion angle, and initial velocity. Since nasal spray atomizer design determines the particle conditions, fifteen particle size distributions were used, each defined by a log-normal distribution with a different volume mean diameter (Dv50). Particle deposition in the anterior region was approximately 80% when Dv50 > 50?m, and this decreased to 45% as Dv50 decreased to 10? m for constant and sniff breathing conditions. The decrease in anterior deposition was countered with increased deposition in the middle and posterior regions. The significance of increased deposition in the middle region for drug delivery shows there is potential for nasal delivered drugs to reach the highly vascularised mucosal walls in the main nasal passages. For multiple targeted deposition sites, an optimisation equation was introduced where deposition results of any two targeted sites could be combined and a weighting between 0 to 1 was applied to each targeted site, representing the relative importance of each deposition site.

SUBMITTER: Calmet H 

PROVIDER: S-EPMC6730903 | biostudies-literature | 2019

REPOSITORIES: biostudies-literature

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Nasal sprayed particle deposition in a human nasal cavity under different inhalation conditions.

Calmet Hadrien H   Inthavong Kiao K   Eguzkitza Beatriz B   Lehmkuhl Oriol O   Houzeaux Guillaume G   Vázquez Mariano M  

PloS one 20190906 9


Deposition of polydisperse particles representing nasal spray application in a human nasal cavity was performed under transient breathing profiles of sniffing, constant flow, and breath hold. The LES turbulence model was used to describe the fluid phase. Particles were introduced into the flow field with initial spray conditions, including spray cone angle, insertion angle, and initial velocity. Since nasal spray atomizer design determines the particle conditions, fifteen particle size distribut  ...[more]

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