Using Supercritical Fluid Technology (SFT) in Preparation of Tacrolimus Solid Dispersions

Tacrolimus is an immunosuppressant agent that suffers from poor and variable bioavailability. This can be related to limited solubility and dissolution. The main objective of this study is to use SFT to prepare solid dispersions of tacrolimus in order to enhance its dissolution. SFT was selected sin...

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Veröffentlicht in:	AAPS PharmSciTech 2017-02, Vol.18 (2), p.481-493
Hauptverfasser:	Obaidat, Rana M., Tashtoush, Bassam M., Awad, Alaa Abu, Al Bustami, Rana T.
Format:	Artikel
Sprache:	eng
Schlagworte:	Biochemistry Biological Availability Biomedical and Life Sciences Biomedicine Biotechnology Chitosan - chemistry Crystallization Methylcellulose - analogs & derivatives Methylcellulose - chemistry Pharmacology/Toxicology Pharmacy Polyethylene Glycols - chemistry Polymers - chemistry Polyvinyls - chemistry Pyrrolidines - chemistry Research Article Solubility Surface-Active Agents - chemistry Tacrolimus - chemistry Technology, Pharmaceutical - methods Temperature
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creator	Obaidat, Rana M. Tashtoush, Bassam M. Awad, Alaa Abu Al Bustami, Rana T.
description	Tacrolimus is an immunosuppressant agent that suffers from poor and variable bioavailability. This can be related to limited solubility and dissolution. The main objective of this study is to use SFT to prepare solid dispersions of tacrolimus in order to enhance its dissolution. SFT was selected since it offers several advantages over conventional techniques such as efficiency and stability. Several solid dispersions of tacrolimus were prepared using SFT to enhance its dissolution. The selected polymers included soluplus, PVP, HPMC, and porous chitosan. TPGS was used as a surfactant additive with chitosan, HPMC, and PVP. Soluplus dispersions were used to study the effect of processing parameters (time, temperature, and pressure) on loading efficiency (LE) and dissolution of the preparation. Physicochemical characterization was performed using DSC, X-ray diffraction, FTIR analysis, SEM, and in vitro drug release. Stability testing was evaluated after 3 months for selected dispersions. Significant improvement for the release profile was achieved for the prepared dispersions. Better release achieved in the soluplus dispersions which reached maximum cumulative release equal to 98.76% after 24 h. Drug precipitated in its amorphous form in all prepared dispersions except those prepared from chitosan. All dispersions were physically stable except for PVP preparations that contained TPGS which started to re-crystallize after one month. Prepared dispersions were proved to be affected by supercritical processing parameters. In conclusion, SFT was successfully used to prepare dispersions of tacrolimus that exhibited higher dissolution than raw drug. Dissolution rate and stability are affected by the type of the polymer.
doi_str_mv	10.1208/s12249-016-0492-4
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Better release achieved in the soluplus dispersions which reached maximum cumulative release equal to 98.76% after 24 h. Drug precipitated in its amorphous form in all prepared dispersions except those prepared from chitosan. All dispersions were physically stable except for PVP preparations that contained TPGS which started to re-crystallize after one month. Prepared dispersions were proved to be affected by supercritical processing parameters. In conclusion, SFT was successfully used to prepare dispersions of tacrolimus that exhibited higher dissolution than raw drug. 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Better release achieved in the soluplus dispersions which reached maximum cumulative release equal to 98.76% after 24 h. Drug precipitated in its amorphous form in all prepared dispersions except those prepared from chitosan. All dispersions were physically stable except for PVP preparations that contained TPGS which started to re-crystallize after one month. Prepared dispersions were proved to be affected by supercritical processing parameters. In conclusion, SFT was successfully used to prepare dispersions of tacrolimus that exhibited higher dissolution than raw drug. 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This can be related to limited solubility and dissolution. The main objective of this study is to use SFT to prepare solid dispersions of tacrolimus in order to enhance its dissolution. SFT was selected since it offers several advantages over conventional techniques such as efficiency and stability. Several solid dispersions of tacrolimus were prepared using SFT to enhance its dissolution. The selected polymers included soluplus, PVP, HPMC, and porous chitosan. TPGS was used as a surfactant additive with chitosan, HPMC, and PVP. Soluplus dispersions were used to study the effect of processing parameters (time, temperature, and pressure) on loading efficiency (LE) and dissolution of the preparation. Physicochemical characterization was performed using DSC, X-ray diffraction, FTIR analysis, SEM, and in vitro drug release. Stability testing was evaluated after 3 months for selected dispersions. Significant improvement for the release profile was achieved for the prepared dispersions. 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subjects	Biochemistry Biological Availability Biomedical and Life Sciences Biomedicine Biotechnology Chitosan - chemistry Crystallization Methylcellulose - analogs & derivatives Methylcellulose - chemistry Pharmacology/Toxicology Pharmacy Polyethylene Glycols - chemistry Polymers - chemistry Polyvinyls - chemistry Pyrrolidines - chemistry Research Article Solubility Surface-Active Agents - chemistry Tacrolimus - chemistry Technology, Pharmaceutical - methods Temperature
title	Using Supercritical Fluid Technology (SFT) in Preparation of Tacrolimus Solid Dispersions
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