Caccavo, Diego; Cascone, Sara; Apicella, Pietro; Lamberti, Gaetano; Barba, Anna Angela HPMC-Based Granules for Prolonged Release of Phytostrengtheners in Agriculture Journal Article Chemical Engineering Communications, 204 (12), pp. 1333-1340, 2017, ISSN: 0098-6445. Abstract | Links | BibTeX | Tags: Granulation, HPMC @article{Caccavo2017b,
title = {HPMC-Based Granules for Prolonged Release of Phytostrengtheners in Agriculture},
author = {Diego Caccavo and Sara Cascone and Pietro Apicella and Gaetano Lamberti and Anna Angela Barba},
url = {http://www.tandfonline.com/doi/full/10.1080/00986445.2017.1362398},
doi = {10.1080/00986445.2017.1362398 },
issn = {0098-6445},
year = {2017},
date = {2017-12-01},
journal = {Chemical Engineering Communications},
volume = {204},
number = {12},
pages = {1333-1340},
abstract = {One of the main aim in agriculture is to guarantee soil wellness, which is a fundamental requirement to produce high quality crops with high yields. Focused on this aim, periodical administrations of nutrients or phytostrengtheners are often necessary. The most relevant disadvantages of these administrations are the high dosage number required and the low availability of the substance within the soil. For these reasons, a crucial goal to increase the economic and environmental sustainability of the cultivation process is to reduce the dosage number, which can be obtained increasing the active substance availability in the soil. A granular HPMC (HydroxyPropyl MethylCellulose) matrix, produced using the wet granulation process, was used to encapsulate a phytostrengthener and to guarantee its controlled release. The granular product was characterized in terms of granules properties and phytostrengtheners leaching within the soil. The results showed good flowability and mechanical properties of the granules as well as the possibility to reduce the product leaching with the phytostrengtheners encapsulation in the HPMC matrices.},
keywords = {Granulation, HPMC},
pubstate = {published},
tppubtype = {article}
}
One of the main aim in agriculture is to guarantee soil wellness, which is a fundamental requirement to produce high quality crops with high yields. Focused on this aim, periodical administrations of nutrients or phytostrengtheners are often necessary. The most relevant disadvantages of these administrations are the high dosage number required and the low availability of the substance within the soil. For these reasons, a crucial goal to increase the economic and environmental sustainability of the cultivation process is to reduce the dosage number, which can be obtained increasing the active substance availability in the soil. A granular HPMC (HydroxyPropyl MethylCellulose) matrix, produced using the wet granulation process, was used to encapsulate a phytostrengthener and to guarantee its controlled release. The granular product was characterized in terms of granules properties and phytostrengtheners leaching within the soil. The results showed good flowability and mechanical properties of the granules as well as the possibility to reduce the product leaching with the phytostrengtheners encapsulation in the HPMC matrices. |
Lamberti, Gaetano; Cascone, Sara; Cafaro, Maria Margherita; Titomanlio, Giuseppe; D'Amore, Matteo; Barba, Anna Angela Measurements of water content in hydroxypropyl-methyl-cellulose based hydrogels via texture analysis. Journal Article Carbohydrate polymers, 92 (1), pp. 765–8, 2013, ISSN: 1879-1344. Abstract | Links | BibTeX | Tags: HPMC, Hydrogel Characterization, Texture analysis, Water content @article{Lamberti2013a,
title = {Measurements of water content in hydroxypropyl-methyl-cellulose based hydrogels via texture analysis.},
author = { Gaetano Lamberti and Sara Cascone and Maria Margherita Cafaro and Giuseppe Titomanlio and Matteo D'Amore and Anna Angela Barba},
url = {http://www.sciencedirect.com/science/article/pii/S0144861712010193},
doi = {10.1016/j.carbpol.2012.10.003},
issn = {1879-1344},
year = {2013},
date = {2013-01-01},
journal = {Carbohydrate polymers},
volume = {92},
number = {1},
pages = {765--8},
abstract = {In this work, a fast and accurate method to evaluate the water content in a cellulose derivative-based matrix subjected to controlled hydration was proposed and tuned. The method is based on the evaluation of the work of penetration required in the needle compression test. The work of penetration was successfully related to the hydrogel water content, assayed by a gravimetric technique. Moreover, a fitting model was proposed to correlate the two variables (the water content and the work of penetration). The availability of a reliable tool is useful both in the quantification of the water uptake phenomena, both in the management of the testing processes of novel pharmaceutical solid dosage forms.},
keywords = {HPMC, Hydrogel Characterization, Texture analysis, Water content},
pubstate = {published},
tppubtype = {article}
}
In this work, a fast and accurate method to evaluate the water content in a cellulose derivative-based matrix subjected to controlled hydration was proposed and tuned. The method is based on the evaluation of the work of penetration required in the needle compression test. The work of penetration was successfully related to the hydrogel water content, assayed by a gravimetric technique. Moreover, a fitting model was proposed to correlate the two variables (the water content and the work of penetration). The availability of a reliable tool is useful both in the quantification of the water uptake phenomena, both in the management of the testing processes of novel pharmaceutical solid dosage forms. |
Barba, Anna Angela; D'Amore, Matteo; Cascone, Sara; Chirico, Serafina; Lamberti, Gaetano; Titomanlio, Giuseppe On the behavior of HPMC/Theophylline matrices for controlled drug delivery Journal Article Journal of Pharmaceutical Sciences, 98 (11), pp. 4100–4110, 2009, ISSN: 00223549. Abstract | Links | BibTeX | Tags: Diffusion, drug release, HPMC, Hydrogel Characterization, swellable hydrogels, Theophylline @article{Barba2009h,
title = {On the behavior of HPMC/Theophylline matrices for controlled drug delivery},
author = { Anna Angela Barba and Matteo D'Amore and Sara Cascone and Serafina Chirico and Gaetano Lamberti and Giuseppe Titomanlio},
url = {http://doi.wiley.com/10.1002/jps.21701},
doi = {10.1002/jps.21701},
issn = {00223549},
year = {2009},
date = {2009-11-01},
journal = {Journal of Pharmaceutical Sciences},
volume = {98},
number = {11},
pages = {4100--4110},
publisher = {Wiley Subscription Services, Inc., A Wiley Company},
abstract = {Design of systems for oral controlled release of drug could take advantages from the knowledge of which phenomena take place. In this work matrices obtained by powders compression (50:50, hydroxypropyl methylcellulose, a swelling hydrogel, and theophylline, a model drug) were immersed in water at 37 degrees C, allowing the water uptake and the drug release by lateral surface, confining the cylindrical matrices between glass slides. The tablets, after given immersion times, were withdrawn, cut in several annuli, and subsequently analyzed for the drug and the water concentration radial profiles. The data confirmed the pseudo-diffusive nature of the process, allowing to give a deep insight into the drug release process from swellable hydrogel matrices. In particular, it was confirmed the presence of nonhomogeneous gel layer, rich in water and poor in drug, with a profile of drug concentration which agrees well with a pseudo-diffusion phenomenon.},
keywords = {Diffusion, drug release, HPMC, Hydrogel Characterization, swellable hydrogels, Theophylline},
pubstate = {published},
tppubtype = {article}
}
Design of systems for oral controlled release of drug could take advantages from the knowledge of which phenomena take place. In this work matrices obtained by powders compression (50:50, hydroxypropyl methylcellulose, a swelling hydrogel, and theophylline, a model drug) were immersed in water at 37 degrees C, allowing the water uptake and the drug release by lateral surface, confining the cylindrical matrices between glass slides. The tablets, after given immersion times, were withdrawn, cut in several annuli, and subsequently analyzed for the drug and the water concentration radial profiles. The data confirmed the pseudo-diffusive nature of the process, allowing to give a deep insight into the drug release process from swellable hydrogel matrices. In particular, it was confirmed the presence of nonhomogeneous gel layer, rich in water and poor in drug, with a profile of drug concentration which agrees well with a pseudo-diffusion phenomenon. |