Saved in:
Bibliographic Details
Main Authors: Benassi, Andrea, Perazzi, Ilaria, Bosi, Roberto, Cottini, Ciro, Bettini, Ruggero
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.16381
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866915457096744960
author Benassi, Andrea
Perazzi, Ilaria
Bosi, Roberto
Cottini, Ciro
Bettini, Ruggero
author_facet Benassi, Andrea
Perazzi, Ilaria
Bosi, Roberto
Cottini, Ciro
Bettini, Ruggero
contents Non-segregating ordered powder mixtures constituted by a coarse carrier fraction and finer components are at the basis of dry powders for inhalation pharmaceuticas. The estimation of the loading capacity, i.e. how many fines can be hosted on each carrier particle, is crucial to grant the product quality through a reproducible and affordable manufacturing process. We propose an approach based on the combination of sieve analysis, optical microscopy and powder bed permeability to quantify the loading capacity and understand the fines behavior, the impact of the mixing process was also investigated. We tested the method on model binary mixtures composed only of a coarse lactose carrier and micronized lactose fines as a surrogate of a real active pharmaceutical ingredient. The results provided by the different methods are consistent, the approach proved to be accurate and reproducible. The effect of different mixing parameters and equipment on the loading capacity is also discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2508_16381
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Quantifying the loading capacity of a carrier-based DPI formulation and its dependence on the blending process
Benassi, Andrea
Perazzi, Ilaria
Bosi, Roberto
Cottini, Ciro
Bettini, Ruggero
Applied Physics
Non-segregating ordered powder mixtures constituted by a coarse carrier fraction and finer components are at the basis of dry powders for inhalation pharmaceuticas. The estimation of the loading capacity, i.e. how many fines can be hosted on each carrier particle, is crucial to grant the product quality through a reproducible and affordable manufacturing process. We propose an approach based on the combination of sieve analysis, optical microscopy and powder bed permeability to quantify the loading capacity and understand the fines behavior, the impact of the mixing process was also investigated. We tested the method on model binary mixtures composed only of a coarse lactose carrier and micronized lactose fines as a surrogate of a real active pharmaceutical ingredient. The results provided by the different methods are consistent, the approach proved to be accurate and reproducible. The effect of different mixing parameters and equipment on the loading capacity is also discussed.
title Quantifying the loading capacity of a carrier-based DPI formulation and its dependence on the blending process
topic Applied Physics
url https://arxiv.org/abs/2508.16381