Multiscale Tomography: Probing The Nano-, Micro-, And Meso-Scale Resolution Of Inhalation Powder Structure

Parmesh Gajjar; Ioanna Danai Styliari; Timothy Burnett; Xizhong Chen; James A.  Elliot; William J. Ganley; Robbert Hammond; Hien  Nguyen; Robert Price; Kevin Roberts; Philip Withers; Darragh Murnane

Multiscale Tomography: Probing The Nano-, Micro-, And Meso-Scale Resolution Of Inhalation Powder Structure

Parmesh Gajjar, Ioanna Danai Styliari, Timothy Burnett, Xizhong Chen, James A. Elliot, William J. Ganley, Robbert Hammond, Hien Nguyen, Robert Price, Kevin Roberts, Philip Withers, Darragh Murnane

Materials Engineering

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

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Abstract

nderstanding the agglomeration behavior of inhaled formulations is essential to ensure consistent aerosolization performance that maximizes drug deposition in the lower respiratory tract. Although many techniques are currently used to characterize critical material attributes (CMAs) such as the particle size distribution (PSD), these techniques suffer from low resolution, image in 2D projections, or are based on shape assumptions. Bearing in mind the importance of the powder microstructure, this work introduces the use of x-ray computed tomography (XCT) as a non- destructive, multiscale technique for characterizing inhalation formulations. Different grades of inhalation and tableting grade lactose have been analyzed using XCT, with distributions for size (volume weighted) and sphericity extracted and compared with laser diffraction and optical microscopy. The three-dimensional information provided from XCT provides a more accurate assessment of powder size and shape, demonstrating the promise for XCT as a valuable powder characterization technique that provides information about the powder microstructure, a descriptor now required from the U.S. Food and Drug Administration (Q3 equivalence).

Original language	English
Title of host publication	RDD Europe 2019
Pages	155-168
Number of pages	14
Volume	1
Publication status	Published - 7 May 2019
Event	Respiratory Drug Delivery Europe 2019 - Estoril Congress Center, Lisbon, Portugal Duration: 7 May 2019 → 10 May 2019

Publication series

Name	RDD Europe 2019
Volume	1

Conference

Conference	Respiratory Drug Delivery Europe 2019
Abbreviated title	RDD Europe 2019
Country/Territory	Portugal
City	Lisbon
Period	7/05/19 → 10/05/19

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https://www.rddonline.com/publications/articles/article.php?ArticleID=2582&return=1

INFORM 2020 - Molecules to Manufacture: Processing and Formulation Engineering of Inhalable Nanoaggregates and Microparticles
Withers, P. (PI) & Burnett, T. (CoI)
1/10/16 → 31/01/21
Project: Research

Cite this

Gajjar, P., Styliari, I. D., Burnett, T., Chen, X., Elliot, J. A., Ganley, W. J., Hammond, R., Nguyen, H., Price, R., Roberts, K., Withers, P., & Murnane, D. (2019). Multiscale Tomography: Probing The Nano-, Micro-, And Meso-Scale Resolution Of Inhalation Powder Structure. In RDD Europe 2019 (Vol. 1, pp. 155-168). (RDD Europe 2019; Vol. 1). https://www.rddonline.com/publications/articles/article.php?ArticleID=2582&return=1

@inproceedings{fed8a7cd697340ceadd980323301e804,

title = "Multiscale Tomography: Probing The Nano-, Micro-, And Meso-Scale Resolution Of Inhalation Powder Structure",

abstract = "nderstanding the agglomeration behavior of inhaled formulations is essential to ensure consistent aerosolization performance that maximizes drug deposition in the lower respiratory tract. Although many techniques are currently used to characterize critical material attributes (CMAs) such as the particle size distribution (PSD), these techniques suffer from low resolution, image in 2D projections, or are based on shape assumptions. Bearing in mind the importance of the powder microstructure, this work introduces the use of x-ray computed tomography (XCT) as a non- destructive, multiscale technique for characterizing inhalation formulations. Different grades of inhalation and tableting grade lactose have been analyzed using XCT, with distributions for size (volume weighted) and sphericity extracted and compared with laser diffraction and optical microscopy. The three-dimensional information provided from XCT provides a more accurate assessment of powder size and shape, demonstrating the promise for XCT as a valuable powder characterization technique that provides information about the powder microstructure, a descriptor now required from the U.S. Food and Drug Administration (Q3 equivalence).",

author = "Parmesh Gajjar and Styliari, {Ioanna Danai} and Timothy Burnett and Xizhong Chen and Elliot, {James A.} and Ganley, {William J.} and Robbert Hammond and Hien Nguyen and Robert Price and Kevin Roberts and Philip Withers and Darragh Murnane",

note = "Reproduced with permission from RDD Europe 2019, Virginia Commonwealth University and RDD Online; Respiratory Drug Delivery Europe 2019, RDD Europe 2019 ; Conference date: 07-05-2019 Through 10-05-2019",

year = "2019",

month = may,

day = "7",

language = "English",

volume = "1",

series = "RDD Europe 2019",

pages = "155--168",

booktitle = "RDD Europe 2019",

}

Gajjar, P, Styliari, ID, Burnett, T, Chen, X, Elliot, JA, Ganley, WJ, Hammond, R, Nguyen, H, Price, R, Roberts, K, Withers, P & Murnane, D 2019, Multiscale Tomography: Probing The Nano-, Micro-, And Meso-Scale Resolution Of Inhalation Powder Structure. in RDD Europe 2019. vol. 1, RDD Europe 2019, vol. 1, pp. 155-168, Respiratory Drug Delivery Europe 2019, Lisbon, Portugal, 7/05/19. <https://www.rddonline.com/publications/articles/article.php?ArticleID=2582&return=1>

TY - GEN

T1 - Multiscale Tomography: Probing The Nano-, Micro-, And Meso-Scale Resolution Of Inhalation Powder Structure

AU - Gajjar, Parmesh

AU - Styliari, Ioanna Danai

AU - Burnett, Timothy

AU - Chen, Xizhong

AU - Elliot, James A.

AU - Ganley, William J.

AU - Hammond, Robbert

AU - Nguyen, Hien

AU - Price, Robert

AU - Roberts, Kevin

AU - Withers, Philip

AU - Murnane, Darragh

N1 - Reproduced with permission from RDD Europe 2019, Virginia Commonwealth University and RDD Online

PY - 2019/5/7

Y1 - 2019/5/7

N2 - nderstanding the agglomeration behavior of inhaled formulations is essential to ensure consistent aerosolization performance that maximizes drug deposition in the lower respiratory tract. Although many techniques are currently used to characterize critical material attributes (CMAs) such as the particle size distribution (PSD), these techniques suffer from low resolution, image in 2D projections, or are based on shape assumptions. Bearing in mind the importance of the powder microstructure, this work introduces the use of x-ray computed tomography (XCT) as a non- destructive, multiscale technique for characterizing inhalation formulations. Different grades of inhalation and tableting grade lactose have been analyzed using XCT, with distributions for size (volume weighted) and sphericity extracted and compared with laser diffraction and optical microscopy. The three-dimensional information provided from XCT provides a more accurate assessment of powder size and shape, demonstrating the promise for XCT as a valuable powder characterization technique that provides information about the powder microstructure, a descriptor now required from the U.S. Food and Drug Administration (Q3 equivalence).

AB - nderstanding the agglomeration behavior of inhaled formulations is essential to ensure consistent aerosolization performance that maximizes drug deposition in the lower respiratory tract. Although many techniques are currently used to characterize critical material attributes (CMAs) such as the particle size distribution (PSD), these techniques suffer from low resolution, image in 2D projections, or are based on shape assumptions. Bearing in mind the importance of the powder microstructure, this work introduces the use of x-ray computed tomography (XCT) as a non- destructive, multiscale technique for characterizing inhalation formulations. Different grades of inhalation and tableting grade lactose have been analyzed using XCT, with distributions for size (volume weighted) and sphericity extracted and compared with laser diffraction and optical microscopy. The three-dimensional information provided from XCT provides a more accurate assessment of powder size and shape, demonstrating the promise for XCT as a valuable powder characterization technique that provides information about the powder microstructure, a descriptor now required from the U.S. Food and Drug Administration (Q3 equivalence).

M3 - Conference contribution

VL - 1

T3 - RDD Europe 2019

SP - 155

EP - 168

BT - RDD Europe 2019

T2 - Respiratory Drug Delivery Europe 2019

Y2 - 7 May 2019 through 10 May 2019

ER -

Multiscale Tomography: Probing The Nano-, Micro-, And Meso-Scale Resolution Of Inhalation Powder Structure

Abstract

Publication series

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Projects

INFORM 2020 - Molecules to Manufacture: Processing and Formulation Engineering of Inhalable Nanoaggregates and Microparticles

Cite this