Enteric-coating of pulsatile-release HPC capsules prepared by injection molding

[Display omitted] Capsular devices based on hydroxypropyl cellulose (Klucel® LF) intended for pulsatile release were prepared by injection molding (IM). In the present work, the possibility of exploiting such capsules for the development of colonic delivery systems based on a time-dependent approach...

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Veröffentlicht in:	European journal of pharmaceutical sciences 2015-04, Vol.70, p.1-11
Hauptverfasser:	Macchi, E., Zema, L., Maroni, A., Gazzaniga, A., Felton, L.A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Capsular device Capsules Cellulose - analogs & derivatives Cellulose - chemical synthesis Cellulose - pharmacokinetics Chemistry, Pharmaceutical - methods Delayed-Action Preparations - chemical synthesis Delayed-Action Preparations - pharmacokinetics Drug Delivery Systems - methods Enteric coating Injection molding Oral colon delivery Oral pulsatile release Swellable/erodible polymers Tablets, Enteric-Coated
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container_title	European journal of pharmaceutical sciences
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creator	Macchi, E. Zema, L. Maroni, A. Gazzaniga, A. Felton, L.A.
description	[Display omitted] Capsular devices based on hydroxypropyl cellulose (Klucel® LF) intended for pulsatile release were prepared by injection molding (IM). In the present work, the possibility of exploiting such capsules for the development of colonic delivery systems based on a time-dependent approach was evaluated. For this purpose, it was necessary to demonstrate the ability of molded cores to undergo a coating process and that coated systems yield the desired performance (gastric resistance). Although no information was available on the coating of IM substrates, some issues relevant to that of commercially-available capsules are known. Thus, preliminary studies were conducted on molded disks for screening purposes prior to the spray-coating of HPC capsular cores with Eudragit® L 30 D 55. The ability of the polymeric suspension to wet the substrate, spread, start penetrating and initiate hydration/swelling, as well as to provide a gastroresistant barrier was demonstrated. The coating of prototype HPC capsules was carried out successfully, leading to coated systems with good technological properties and able to withstand the acidic medium with no need for sealing at the cap/body joint. Such systems maintained the original pulsatile release performance after dissolution of the enteric film in pH 6.8 fluid. Therefore, they appeared potentially suitable for the development of a colon delivery platform based on a time-dependent approach.
doi_str_mv	10.1016/j.ejps.2014.12.020
format	Article
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In the present work, the possibility of exploiting such capsules for the development of colonic delivery systems based on a time-dependent approach was evaluated. For this purpose, it was necessary to demonstrate the ability of molded cores to undergo a coating process and that coated systems yield the desired performance (gastric resistance). Although no information was available on the coating of IM substrates, some issues relevant to that of commercially-available capsules are known. Thus, preliminary studies were conducted on molded disks for screening purposes prior to the spray-coating of HPC capsular cores with Eudragit® L 30 D 55. The ability of the polymeric suspension to wet the substrate, spread, start penetrating and initiate hydration/swelling, as well as to provide a gastroresistant barrier was demonstrated. The coating of prototype HPC capsules was carried out successfully, leading to coated systems with good technological properties and able to withstand the acidic medium with no need for sealing at the cap/body joint. Such systems maintained the original pulsatile release performance after dissolution of the enteric film in pH 6.8 fluid. 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In the present work, the possibility of exploiting such capsules for the development of colonic delivery systems based on a time-dependent approach was evaluated. For this purpose, it was necessary to demonstrate the ability of molded cores to undergo a coating process and that coated systems yield the desired performance (gastric resistance). Although no information was available on the coating of IM substrates, some issues relevant to that of commercially-available capsules are known. Thus, preliminary studies were conducted on molded disks for screening purposes prior to the spray-coating of HPC capsular cores with Eudragit® L 30 D 55. The ability of the polymeric suspension to wet the substrate, spread, start penetrating and initiate hydration/swelling, as well as to provide a gastroresistant barrier was demonstrated. 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In the present work, the possibility of exploiting such capsules for the development of colonic delivery systems based on a time-dependent approach was evaluated. For this purpose, it was necessary to demonstrate the ability of molded cores to undergo a coating process and that coated systems yield the desired performance (gastric resistance). Although no information was available on the coating of IM substrates, some issues relevant to that of commercially-available capsules are known. Thus, preliminary studies were conducted on molded disks for screening purposes prior to the spray-coating of HPC capsular cores with Eudragit® L 30 D 55. The ability of the polymeric suspension to wet the substrate, spread, start penetrating and initiate hydration/swelling, as well as to provide a gastroresistant barrier was demonstrated. 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source	MEDLINE; Elsevier ScienceDirect Journals
subjects	Capsular device Capsules Cellulose - analogs & derivatives Cellulose - chemical synthesis Cellulose - pharmacokinetics Chemistry, Pharmaceutical - methods Delayed-Action Preparations - chemical synthesis Delayed-Action Preparations - pharmacokinetics Drug Delivery Systems - methods Enteric coating Injection molding Oral colon delivery Oral pulsatile release Swellable/erodible polymers Tablets, Enteric-Coated
title	Enteric-coating of pulsatile-release HPC capsules prepared by injection molding
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