Release behaviour of single pellets and internal fine 3D structural features co-define the in vitro drug release profile

Yang, S.; Yin, X.; Wang, C.; Li, H.; He, Y.; Xiao, T.; Sun, L.; Li, J.; York, Peter; He, J.; Zhang, J.

Publication

Release behaviour of single pellets and internal fine 3D structural features co-define the in vitro drug release profile

Yang, S.
;
Yin, X.
;
Wang, C.
;
Li, H.
;
He, Y.
;
Xiao, T.
;
Sun, L.
;
Li, J.
;
York, Peter
;
He, J.
... show 1 more

Publication Date

2014

Keywords

Capsules, Chemistry, Chromatography, Image processing, Imaging, Kinetics, Mass spectrometry, Solubility, Synchrotrons, X-ray microtomography

Peer-Reviewed

Yes

Open Access status

closedAccess

Collections

Life Sciences Publications

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Abstract

Multi-pellet formulations are advantageous for the controlled release of drugs over single-unit dosage forms. To understand the diffusion controlled drug release mechanism, the pellet structure and drug release from a single pellet (not at dose level) were studied using synchrotron radiation X-ray computed microtomography (SR-muCT) and a sensitive LC/MS/MS method. The purpose of this article is to introduce a powerful, non-invasive and quantitative technique for studying individual pellet microstructures and to investigate the relationship between the microstructure and drug release from single pellets. The data from the single pellet dissolution measurements demonstrated that the release profile of capsules containing approximately 1,000 pellets per unit dose was the summation of the release profiles of the individual pellets. The release profiles of single tamsulosin hydrochloride (TSH) pellets formed three groups when a cluster analysis was performed, and the dissolution rate of the individual pellets correlated well with the combined effects of the drug loading, volume and surface area of the pellets (R(2) = 0.9429). In addition, the void microstructures within the pellet were critical during drug release. Therefore, SR-muCT is a powerful tool for quantitatively elucidating the three-dimensional microstructure of the individual pellets; because the microstructure controls drug release, it is an important parameter in the quality control of multi-pellet formulations.

URI

http://hdl.handle.net/10454/10557

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Citation

Yang S, Yin X, Wang C et al (2014) Release behaviour of single pellets and internal fine 3D structural features co-define the in vitro drug release profile. AAPS Journal. 16(4): 860-871.

Link to Version of Record

https://doi.org/10.1208/s12248-014-9611-x

Type

Article

Release behaviour of single pellets and internal fine 3D structural features co-define the in vitro drug release profile

Yang, S.
;
Yin, X.
;
Wang, C.
;
Li, H.
;
He, Y.
;
Xiao, T.
;
Sun, L.
;
Li, J.
;
York, Peter
;
He, J.
... show 1 more

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Peer-Reviewed

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Accepted for publication

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Release behaviour of single pellets and internal fine 3D structural features co-define the in vitro drug release profile

Yang, S. ; Yin, X. ; Wang, C. ; Li, H. ; He, Y. ; Xiao, T. ; Sun, L. ; Li, J. ; York, Peter ; He, J. ... show 1 more

Publication Date

End of Embargo

Supervisor

Keywords

Rights

Peer-Reviewed

Open Access status

Accepted for publication

Institution

Department

Awarded

Embargo end date

Collections

Additional title

Abstract

URI

Version

Citation

Link to publisher’s version

Link to published version

Link to Version of Record

Type

Qualification name

Notes

Yang, S.
;
Yin, X.
;
Wang, C.
;
Li, H.
;
He, Y.
;
Xiao, T.
;
Sun, L.
;
Li, J.
;
York, Peter
;
He, J.
... show 1 more