Development and characterisation of sustained release solid dispersion oral tablets containing the poorly water soluble drug disulfiram

Development and characterisation of sustained release solid dispersion oral tablets containing the poorly water soluble drug disulfiram

[Display omitted] Administration of drugs via the oral route is the most common and preferred route due to its ease of administration, cost-effectiveness and flexibility in design. However, if the drug being administered has limited aqueous solubility it can result in poor bioavailability. Furthermo...

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Veröffentlicht in:International journal of pharmaceutics 2016-01, Vol.497 (1-2), p.3-11
Hauptverfasser: Shergill, Mandip, Patel, Mina, Khan, Siraj, Bashir, Ayesha, McConville, Christopher
Format: Artikel
Sprache:eng
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Administration, Oral
Delayed-Action Preparations - chemistry
Disulfiram
Disulfiram - administration & dosage
Disulfiram - chemistry
Drug Compounding - methods
Drug Liberation
Drug Stability
Hot melt
Humans
Polymers - chemistry
Solid dispersion
Solubility
Solubility enhancement
Sustained release
Tablets
Viscosity
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container_end_page 11
container_issue 1-2
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container_title International journal of pharmaceutics
container_volume 497
creator Shergill, Mandip
Patel, Mina
Khan, Siraj
Bashir, Ayesha
McConville, Christopher
description [Display omitted] Administration of drugs via the oral route is the most common and preferred route due to its ease of administration, cost-effectiveness and flexibility in design. However, if the drug being administered has limited aqueous solubility it can result in poor bioavailability. Furthermore, the low pH of the stomach as well as enzymatic activity can result in drugs delivered via the oral route being rapidly metabolised and degraded. Here we demonstrate the development and characterisation of sustained release solid dispersion oral tablets, containing the poorly water-soluble drug disulfiram (DSF). The tablets, which are manufactured from two different polymers (Kolliphor® P 188 and P 237) specifically designed for the manufacture of solid dispersions and two different polymers (Kollidon® SR and HPMC) specifically designed to provide sustained release, can enhance the solubility of DSF, sustain its release, while protecting it from degradation in simulated gastric fluid (SGF). The paper demonstrates that when using the hot melt method at 80°C the DSF loading capacity of the Kolliphor® P 188 and P 237 polymers is approximately 43 and 46% respectively, with the DSF completely in an amorphous state. The addition of 80% Kollidon® SR to the formulation completely protected the DSF in SGF for up to 70min with 16% degradation after 120min, while 75% degradation occurred after 120min with the addition of 80% HPMC. The release rate of DSF can be manipulated by both the loading and type of sustained release polymer used, with HPMC providing for a much faster release rate compared to Kollidon® SR.
doi_str_mv 10.1016/j.ijpharm.2015.11.029
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subjects Administration, Oral
Delayed-Action Preparations - chemistry
Disulfiram
Disulfiram - administration & dosage
Disulfiram - chemistry
Drug Compounding - methods
Drug Liberation
Drug Stability
Hot melt
Humans
Polymers - chemistry
Solid dispersion
Solubility
Solubility enhancement
Sustained release
Tablets
Viscosity
title Development and characterisation of sustained release solid dispersion oral tablets containing the poorly water soluble drug disulfiram
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