Veronica De Simone
Tesi
Tesi di dottorato di ricerca (in corso)
- Veronica De Simone, Relevant phenomena and process parameters in granulation for manufacturing of pharmaceutical, nutraceutical and zootechnical products.
Tesi magistrale
- Veronica De Simone, Analisi dei principali parametri operativi per il processo di granulazione ad umido, Laurea Magistrale in Ingegneria Chimica, matricola: 0622200048, data di discussione: 30/07/2015, Relatore(i): Prof. Ing. Gaetano Lamberti, Prof. Ing. Anna Angela Barba, correlatore(i): Ing. Annalisa Dalmoro, estratto della tesi, tesi completa
Tesi triennale
- Veronica De Simone, Una tecnica in-vitro per la realizzazione e l’analisi del gelpaving di stent coronarici, Laurea in Ingegneria Chimica, matricola: 610200286, data di discussione: 22/02/11, Relatore(i): Prof. Ing. Gaetano Lamberti, Prof. Ing. Anna Angela Barba, estratto della tesi, tesi completa
Pubblicazioni
2020
Simone, Veronica De; Dalmoro, Annalisa; Bochicchio, Sabrina; Caccavo, Diego; Lamberti, Gaetano; Bertoncin, Paolo; Barba, Anna Angela
Nanoliposomes in polymeric granules: Novel process strategy to produce stable and versatile delivery systems Journal Article
In: Journal of Drug Delivery Science and Technology, vol. 59, pp. 7, 2020.
Abstract | Links | BibTeX | Tags: Compressibility index, Lipid-polymeric, Simil-microfluidic method, Texture analyses, Wet granulation
@article{Simone}2020b,
title = {Nanoliposomes in polymeric granules: Novel process strategy to produce stable and versatile delivery systems},
author = {Veronica {De Simone} and Annalisa Dalmoro and Sabrina Bochicchio and Diego Caccavo and Gaetano Lamberti and Paolo Bertoncin and Anna Angela Barba},
url = {https://www.sciencedirect.com/science/article/abs/pii/S1773224720311679?via%3Dihub},
doi = {10.1016/j.jddst.2020.101878},
year = {2020},
date = {2020-07-09},
journal = {Journal of Drug Delivery Science and Technology},
volume = {59},
pages = {7},
abstract = {Liposomes, due to their mimetic cellular composition, are gaining great attention as release systems for lipophilic and hydrophilic molecules. However, liposomes can present a high tendency to degrade and aggregate into biological fluids and under storage conditions. To overcome these limitations, in this work, a stabilizing strategy consisting in liposomes incorporation into polymeric granules was studied. Wet granulation was adopted to produce granules of hydroxypropyl methylcellulose (HPMC) and liposomal suspensions were used as the binder phase. In particular, in this study, three different percentages of liposome load in HPMC granules were investigated (1%, 5% and 10% w/w) focusing the attention on several relevant technological characteristics of the achieved solid particulates: size, flow index, mechanical strength (granules without liposomal inclusions were used as a control). Morphological observations (by TEM) confirmed the presence of intact liposomes in dry HPMC granules; moreover, it was found that the binder phase with the lower liposome concentrations (1%, 5%) did not significantly affect size, flowability and hardness of the lipid-polymer granules. Instead, the granules containing the highest percentage of liposomes (10% w/w) have larger dimensions, harder structure and reduced flowability. Therefore, the followed process strategy, under liposomal concentration restrictions, allowed to obtain both the liposomes stabilization, a not trivial technological issue, and the production of particulates with good solid state properties, useful as a versatile dosage form (lipid carriers in polymer carriers).},
keywords = {Compressibility index, Lipid-polymeric, Simil-microfluidic method, Texture analyses, Wet granulation},
pubstate = {published},
tppubtype = {article}
}
2019
Simone, Veronica De; Dalmoro, Annalisa; Lamberti, Gaetano; Caccavo, Diego; D'Amore, Matteo; Barba, Anna Angela
Effect of binder and load solubility properties on HPMC granules produced by wet granulation process Journal Article
In: Journal of Drug Delivery Science and Technology, vol. 49, pp. 513-520, 2019.
Abstract | Links | BibTeX | Tags: Granulation, HPMC
@article{Simone}2019,
title = {Effect of binder and load solubility properties on HPMC granules produced by wet granulation process},
author = {Veronica {De Simone} and Annalisa Dalmoro and Gaetano Lamberti and Diego Caccavo and Matteo D'Amore and Anna Angela Barba},
url = {https://www.sciencedirect.com/science/article/pii/S1773224718311043},
doi = {10.1016/j.jddst.2018.12.030},
year = {2019},
date = {2019-02-01},
journal = {Journal of Drug Delivery Science and Technology},
volume = {49},
pages = {513-520},
abstract = {Hydroxypropyl methylcellulose (HPMC) is one of the most important hydrophilic ingredients used in hydrogel matrices preparation (tablets or granules). In this work, HPMC was used to produce granules loaded with hydrophilic and hydrophobic active molecules to investigate their possible use as release dosage forms for pharmaceutical and nutraceutical applications. Unloaded and vitamins loaded HPMC granules were produced by wet granulation to investigate the effect of molecule solubility and granulation liquid type, on physical, mechanical and release properties. Water-soluble vitamin B12 and water-insoluble vitamin D2 were used as model molecules. Due to their different solubility, two granulation liquid phases were also used: distilled water for granules with B12, and ethanol-water for granules with D2. Results showed that use of ethanol in the liquid phase reduces the granulation yield and produces granules having a less defined shape, a smaller mean size, a less hard structure and a worse flowability. Moreover, ethanol slightly enhances the polymer erosion rate. Results also emphasized that the vitamins solubility does not affect either the physical and the mechanical properties of the produced granules. However, it plays a significant relevant role on the molecule release mechanism, being B12 and D2 were released by diffusion and erosion mechanism, respectively.},
keywords = {Granulation, HPMC},
pubstate = {published},
tppubtype = {article}
}
2018
Simone, Veronica De; Caccavo, Diego; Lamberti, Gaetano; D'Amore, Matteo; Barba, Anna Angela
Wet-granulation process: phenomenological analysis and process parameters optimization Journal Article
In: Powder Technology, vol. 340, pp. 411-419, 2018.
Abstract | Links | BibTeX | Tags: Granulation, HPMC
@article{Simone}2018b,
title = {Wet-granulation process: phenomenological analysis and process parameters optimization},
author = {Veronica {De Simone} and Diego Caccavo and Gaetano Lamberti and Matteo D'Amore and Anna Angela Barba},
url = {https://www.sciencedirect.com/science/article/pii/S0032591018307800},
doi = {10.1016/j.powtec.2018.09.053},
year = {2018},
date = {2018-12-01},
journal = {Powder Technology},
volume = {340},
pages = {411-419},
abstract = {Wet granulation is a size-enlargement process applied in many industrial fields, such as pharmaceutical, nutraceutical, zootecnichal, to improve flowability and compressibility properties of powders. In this work analysis of the particle size distribution (PSD) of granules was performed to understand the phenomena involved during the granulation process and to optimize the operating conditions. Hydroxypropyl methylcellulose (HPMC) granules were produced spraying distilled water as liquid binder on powders in a low-shear granulator. The experimental campaign was planned using the full factorial design statistical technique varying two factors (impeller rotation speed and binder flow rate), each at three intensities. PSDs of HPMC granules at different granulation times were obtained by an ad hoc dynamic image analysis device based on the free falling particle scheme. PSD measurements showed that wet granules size depends on the simultaneous presence of nucleation, agglomeration and breakage phenomena. The process parameters optimization was carried out using response surface methodology (RSM) and using the granulation yield (% w/w of wet granules within the size range 2000\textendash10,000 μm) as the main variable of interest.},
keywords = {Granulation, HPMC},
pubstate = {published},
tppubtype = {article}
}
Simone, Veronica De; Caccavo, Diego; Dalmoro, Annalisa; Lamberti, Gaetano; D'Amore, Matteo; Barba, Anna Angela
Inside the Phenomenological Aspects of Wet Granulation: Role of Process Parameters Book Chapter
In: Kyzas, George (Ed.): Chapter 5, IntechOpen, 2018, ISBN: 978-1-78984-308-8.
Abstract | Links | BibTeX | Tags: Granulation, HPMC, Mathematical modeling
@inbook{Simone}2018c,
title = {Inside the Phenomenological Aspects of Wet Granulation: Role of Process Parameters},
author = {Veronica {De Simone} and Diego Caccavo and Annalisa Dalmoro and Gaetano Lamberti and Matteo D'Amore and Anna Angela Barba},
editor = {George Kyzas},
url = {https://www.intechopen.com/books/granularity-in-materials-science/inside-the-phenomenological-aspects-of-wet-granulation-role-of-process-parameters},
doi = {10.5772/intechopen.79840},
isbn = {978-1-78984-308-8},
year = {2018},
date = {2018-10-24},
publisher = {IntechOpen},
chapter = {5},
abstract = {Granulation is a size-enlargement process by which small particles are bonded, by means of various techniques, in coherent and stable masses (granules), in which the original particles are still identifiable. In wet granulation processes, the powder particles are aggregated through the use of a liquid phase called binder. The main purposes of size-enlargement process of a powder or mixture of powders are to improve technological properties and/or to realize suitable forms of commercial products. A modern and rational approach in the production of granular structures with tailored features (in terms of size and size distribution, flowability, mechanical and release properties, etc.) requires a deep understanding of phenomena involved during granules formation. By this knowledge, suitable predictive tools can be developed with the aim to choose right process conditions to be used in developing new formulations by avoiding or reducing costs for new tests. In this chapter, after introductive notes on granulation process, the phenomenological aspects involved in the formation of the granules with respect to the main process parameters are presented by experimental demonstration. Possible mathematical approaches in the granulation process description are also presented and the one involving the population mass balances equations is detailed.},
keywords = {Granulation, HPMC, Mathematical modeling},
pubstate = {published},
tppubtype = {inbook}
}
Simone, Veronica De; Dalmoro, Annalisa; Lamberti, Gaetano; Caccavo, Diego; D'Amore, Matteo; Barba, Anna Angela
HPMC granules by wet granulation process: Effect of vitamin load on physicochemical, mechanical and release properties Journal Article
In: Carbohydrate Polymers, vol. 181, pp. 939-947, 2018.
Abstract | Links | BibTeX | Tags: Granulation
@article{{DeSimone}2018,
title = {HPMC granules by wet granulation process: Effect of vitamin load on physicochemical, mechanical and release properties},
author = {Veronica {De Simone} and Annalisa Dalmoro and Gaetano Lamberti and Diego Caccavo and Matteo D'Amore and Anna Angela Barba },
url = {http://www.sciencedirect.com/science/article/pii/S0144861717313425},
doi = {10.1016/j.carbpol.2017.11.056},
year = {2018},
date = {2018-02-01},
journal = {Carbohydrate Polymers},
volume = {181},
pages = {939-947},
abstract = {Due to its versatile properties, hydroxypropyl methylcellulose (HPMC) is largely used in many applications and deeply studied in the various elds such as pharmaceuticals, biomaterials, agriculture, food, water puri cation. In this work, vitamin B12 loaded HPMC granules were produced to investigate their potential application as nutraceutical products. To this aim the impact of vitamin load on physico-chemical, mechanical and release properties of granules, achieved by wet granulation process, was investigated. In particular, three different loads of B12 (1%, 2.3% and 5% w/w) were assayed. Unloaded granules (used as control) and loaded granules were dried, sieved, and then the suitable fraction for practical uses, 0.45\textendash2 mm in size, was fully characterized. Re- sults showed that the vitamin incorporation of 5% reduced the granulation performance in the range size of 0.45\textendash2 mm and led granules with higher porosity, more rigid and less elastic structures compared to unloaded granules and those loaded at 1% and 2.3% of B12. Vitamin release kinetics of fresh and aged granules were roughly found the same trends for all the prepared lots; however, the vitamin B12 was released more slowly when added with a load at 1% w/w, suggesting a better incorporation.},
keywords = {Granulation},
pubstate = {published},
tppubtype = {article}
}
2017
Simone, Veronica De; Dalmoro, Annalisa; Lamberti, Gaetano; D'Amore, Matteo; Barba, Anna Angela
Central Composite Design in HPMC granulation and correlations between product properties and process parameters Journal Article
In: New Journal of Chemistry, vol. 41, no 14, pp. 6504-6513, 2017.
Abstract | Links | BibTeX | Tags: Granulation, HPMC
@article{Simone}2017,
title = {Central Composite Design in HPMC granulation and correlations between product properties and process parameters},
author = {Veronica {De Simone} and Annalisa Dalmoro and Gaetano Lamberti and Matteo D'Amore and Anna Angela Barba},
url = {http://pubs.rsc.org/en/Content/ArticleLanding/2017/NJ/C7NJ01280B#!divAbstract},
doi = {10.1039/C7NJ01280B},
year = {2017},
date = {2017-07-21},
journal = {New Journal of Chemistry},
volume = {41},
number = {14},
pages = {6504-6513},
abstract = {Particulate solids have a great interest in many industrial fields for both marketing reasons and technological aspects. In this study granular systems were achieved by wet granulation process using HydroxyPropyl MethylCellulose (HPMC) and distilled water as binder phase. Particulates with a defined size (450-2000 µm) and good flowability together with a high granulation process yield to reduce manufacturing scrap, were produced. To this aim a bench scale low-shear rate granulator apparatus was used; three process parameters were varied (impeller rotation speed, binder volume at constant mass, binder flow rate) and, for each parameter, three intensities have been used. HPMC granules production was planned by the Central Composite Design (CCD) statistical protocol, which has allowed to minimize the number of runs to perform for obtaining information about the relationship between granules properties and process parameters. The produced granules were stabilized by a dedicated dynamic drying apparatus, then separated by sieving and then characterized in terms of size and flowability properties. The results of the experimental campaign have been used to develop semi-empirical correlations between granulated products properties and process parameters. A second-order polynomial law has shown the best comparison between experimental data and model predicted values. These correlations can constitute a reliable tool to know more on the effect of operative parameters changes in HMPC or similar particulate solids production.},
keywords = {Granulation, HPMC},
pubstate = {published},
tppubtype = {article}
}