Impact of Drying on Solid State Modifications and Drug Distribution in Ibuprofen-Loaded Calcium Stearate Pellets

Simone Schrank; Birthe Kann; Eva-Maria Saurugger; Heike Ehmann; Oliver Werzer; Maike Windbergs; Benjamin J. Glasser; Andreas Zimmer; Johannes Khinast; Eva Roblegg

doi:10.1021/mp4005782

Impact of Drying on Solid State Modifications and Drug Distribution in Ibuprofen-Loaded Calcium Stearate Pellets

Simone Schrank, Birthe Kann, Eva-Maria Saurugger, Heike Ehmann, Oliver Werzer, Maike Windbergs, Benjamin J. Glasser, Andreas Zimmer, Johannes Khinast, Eva Roblegg^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Drying is a common pharmaceutical process, whose potential to alter the final drug properties—even at relatively low temperatures—is often neglected. The present study addresses the impact of drying at 20 and 50 °C on wet-extruded calcium stearate (CaSt) pellets. Drying at 20 °C caused the majority of ibuprofen to accumulate at the pellet surface due to a strong convective flow from the pellet’s center to the surface. In contrast, pellets dried at 50 °C still contained ibuprofen in the pellet’s interior due to the higher drying rate and the associated film breakage during drying. Moreover, the higher drying temperature caused CaSt to form a second lamellar phase and ibuprofen to convert (partly) into its amorphous state. Overall, the drying process affected the solid state and the spatial ibuprofen distribution within the pellet. Knowledge of these effects can aid in tailoring advanced multipellet formulations

Original language	English
Pages (from-to)	599-609
Journal	Molecular Pharmaceutics
Volume	11
Issue number	2
DOIs	https://doi.org/10.1021/mp4005782
Publication status	Published - 2014

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Sonstiges

Treatment code (Nähere Zuordnung)

Basic - Fundamental (Grundlagenforschung)
Application
Experimental

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10.1021/mp4005782

Cite this

@article{d23aa8c203f84edf87d023fc5b906b36,

title = "Impact of Drying on Solid State Modifications and Drug Distribution in Ibuprofen-Loaded Calcium Stearate Pellets",

abstract = "Drying is a common pharmaceutical process, whose potential to alter the final drug properties—even at relatively low temperatures—is often neglected. The present study addresses the impact of drying at 20 and 50 °C on wet-extruded calcium stearate (CaSt) pellets. Drying at 20 °C caused the majority of ibuprofen to accumulate at the pellet surface due to a strong convective flow from the pellet{\textquoteright}s center to the surface. In contrast, pellets dried at 50 °C still contained ibuprofen in the pellet{\textquoteright}s interior due to the higher drying rate and the associated film breakage during drying. Moreover, the higher drying temperature caused CaSt to form a second lamellar phase and ibuprofen to convert (partly) into its amorphous state. Overall, the drying process affected the solid state and the spatial ibuprofen distribution within the pellet. Knowledge of these effects can aid in tailoring advanced multipellet formulations",

author = "Simone Schrank and Birthe Kann and Eva-Maria Saurugger and Heike Ehmann and Oliver Werzer and Maike Windbergs and Glasser, {Benjamin J.} and Andreas Zimmer and Johannes Khinast and Eva Roblegg",

year = "2014",

doi = "10.1021/mp4005782",

language = "English",

volume = "11",

pages = "599--609",

journal = "Molecular Pharmaceutics",

issn = "1543-8392",

publisher = "American Chemical Society",

number = "2",

}

TY - JOUR

T1 - Impact of Drying on Solid State Modifications and Drug Distribution in Ibuprofen-Loaded Calcium Stearate Pellets

AU - Schrank, Simone

AU - Kann, Birthe

AU - Saurugger, Eva-Maria

AU - Ehmann, Heike

AU - Werzer, Oliver

AU - Windbergs, Maike

AU - Glasser, Benjamin J.

AU - Zimmer, Andreas

AU - Khinast, Johannes

AU - Roblegg, Eva

PY - 2014

Y1 - 2014

N2 - Drying is a common pharmaceutical process, whose potential to alter the final drug properties—even at relatively low temperatures—is often neglected. The present study addresses the impact of drying at 20 and 50 °C on wet-extruded calcium stearate (CaSt) pellets. Drying at 20 °C caused the majority of ibuprofen to accumulate at the pellet surface due to a strong convective flow from the pellet’s center to the surface. In contrast, pellets dried at 50 °C still contained ibuprofen in the pellet’s interior due to the higher drying rate and the associated film breakage during drying. Moreover, the higher drying temperature caused CaSt to form a second lamellar phase and ibuprofen to convert (partly) into its amorphous state. Overall, the drying process affected the solid state and the spatial ibuprofen distribution within the pellet. Knowledge of these effects can aid in tailoring advanced multipellet formulations

AB - Drying is a common pharmaceutical process, whose potential to alter the final drug properties—even at relatively low temperatures—is often neglected. The present study addresses the impact of drying at 20 and 50 °C on wet-extruded calcium stearate (CaSt) pellets. Drying at 20 °C caused the majority of ibuprofen to accumulate at the pellet surface due to a strong convective flow from the pellet’s center to the surface. In contrast, pellets dried at 50 °C still contained ibuprofen in the pellet’s interior due to the higher drying rate and the associated film breakage during drying. Moreover, the higher drying temperature caused CaSt to form a second lamellar phase and ibuprofen to convert (partly) into its amorphous state. Overall, the drying process affected the solid state and the spatial ibuprofen distribution within the pellet. Knowledge of these effects can aid in tailoring advanced multipellet formulations

U2 - 10.1021/mp4005782

DO - 10.1021/mp4005782

M3 - Article

SN - 1543-8392

VL - 11

SP - 599

EP - 609

JO - Molecular Pharmaceutics

JF - Molecular Pharmaceutics

IS - 2

ER -

Impact of Drying on Solid State Modifications and Drug Distribution in Ibuprofen-Loaded Calcium Stearate Pellets

Abstract

Fields of Expertise

Treatment code (Nähere Zuordnung)

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