Numerical evaluation of spray position for improved nasal drug delivery.
Topical intra-nasal sprays are amongst the most commonly prescribed therapeutic options for sinonasal diseases in humans. However, inconsistency and ambiguity in instructions show a lack of definitive knowledge on best spray use techniques. In this study, we have identified a new usage strategy for nasal sprays available over-the-counter, that registers an average 8-fold improvement in topical delivery of drugs at diseased sites, when compared to prevalent spray techniques. The protocol involves re-orienting the spray axis to harness inertial motion of particulates and has been developed using computational fluid dynamics simulations of respiratory airflow and droplet transport in medical imaging-based digital models. Simulated dose in representative models is validated through in vitro spray measurements in 3D-printed anatomic replicas using the gamma scintigraphy technique. This work breaks new ground in proposing an alternative user-friendly strategy that can significantly enhance topical delivery inside human nose. While these findings can eventually translate into personalized spray usage instructions and hence merit a change in nasal standard-of-care, this study also demonstrates how relatively simple engineering analysis tools can revolutionize everyday healthcare. Finally, with respiratory mucosa as the initial coronavirus infection site, our findings are relevant to intra-nasal vaccines that are in-development, to mitigate the COVID-19 pandemic.
Duke Scholars
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Related Subject Headings
- Viral Vaccines
- SARS-CoV-2
- Pneumonia, Viral
- Paranasal Sinuses
- Pandemics
- Nebulizers and Vaporizers
- Nasal Sprays
- Nasal Mucosa
- Nasal Cavity
- Hydrodynamics
Citation
Published In
DOI
EISSN
Publication Date
Volume
Issue
Start / End Page
Location
Related Subject Headings
- Viral Vaccines
- SARS-CoV-2
- Pneumonia, Viral
- Paranasal Sinuses
- Pandemics
- Nebulizers and Vaporizers
- Nasal Sprays
- Nasal Mucosa
- Nasal Cavity
- Hydrodynamics