2024
DOI: 10.1007/s10439-023-03423-7
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Effect of Nasal Inhalation on Drug Particle Deposition and Size Distribution in the Upper Airway: With Soft Mist Inhalers

Taha Sadeghi,
Pedram Fatehi,
Leila Pakzad
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“…As shown in Figure e-g, the particle size range of PET particles showed a clear decline from 100–800 nm to 2.5–120 nm. It is generally believed that the smaller the particle size, the easier it is for particulate matter to go deep into the human body and subsequently cause systemic damage. This enzyme-induced degradation process is likewise directly tied to their sizes; in general, the smaller the size, the easier it is to degrade (Figures and S1).…”
Section: Resultsmentioning
confidence: 99%
“…As shown in Figure e-g, the particle size range of PET particles showed a clear decline from 100–800 nm to 2.5–120 nm. It is generally believed that the smaller the particle size, the easier it is for particulate matter to go deep into the human body and subsequently cause systemic damage. This enzyme-induced degradation process is likewise directly tied to their sizes; in general, the smaller the size, the easier it is to degrade (Figures and S1).…”
Section: Resultsmentioning
confidence: 99%