Diva Sonaglio scite author profile

Abstract. This article describes the optimization of a peel-off facial mask formulation. An investigation was carried out on the parameters of the formulation that most affect the desirable characteristics of peeloff facial masks. Cereal alcohol had a significant effect on the drying time at concentrations of 1-12% (w/ w). The applicability of the evaluated formulations was influenced by both carbomer (0-2.4%; w/w) and polyvinyl alcohol (PVA; 2.5-17.5%; w/w) content due to their ability to alter the formulation viscosity. Inverse concentrations of carbomer and PVA led to formulations with optimum viscosity for facial application. Film-forming performance was influenced only by the PVA concentration, achieving maximum levels at concentrations of around 11% (w/w). The optimized formulation, determined mathematically, contained 13% (w/w) PVA and 10% (w/w) cereal alcohol with no addition of carbomer. This formulation provided high levels of applicability and film-forming performance, the lowest drying time possible and excellent homogeneity of the green clay particles and aloe vera before and after drying. The preliminary stability study indicated that the optimized formulation is stable under normal storage conditions. The microbiological stability evaluation indicated that the preservative was efficient in terms of avoiding microbial growth. RSM was shown to be a useful statistical tool for the determination of the behavior of different compounds and their concentrations for the responses studied, allowing the investigation of the optimum conditions for the production of green clay and aloe vera peel-off facial masks.

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CNS activities of liquid and spray-dried extracts from Lippia alba—Verbenaceae (Brazilian false melissa)

Zétola

Lima

Sonaglio

et al. 2002

Journal of Ethnopharmacology

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Liquisolid technology applied to pellets: Evaluation of the feasibility and dissolution performance using felodipine as a model drug

Pezzini

Beringhs

Ferraz

et al. 2016

Chemical Engineering Research and Design

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Factorial design in the feasibility of producing Microcel MC 101 pellets by extrusion/spheronization

Sonaglio

Bataille

Ortigosa

et al. 1995

International Journal of Pharmaceutics

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Technological development of Cecropia glaziovi extract pellets by extrusion-spheronization

Beringhs

Souza

Campos

et al. 2013

Revista Brasileira de Farmacognosia

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Cecropia glaziovi Snethl., Urticaceae, is commonly used in South America and is one of the species included in the Brazilian Medicinal Plants Research Program. Pharmacological studies have led to reports of the potential of C. glaziovi as a hypotensive, antiasthmatic and anxiolytic agent. The strict requirements regarding the quality, safety and effectiveness of phytopharmaceutical products represent an enormous challenge in the search for products with a high level of uniformity, reproducibility and stability. The incorporation of dry extracts into multiparticulate dosage forms, such as pellets produced by extrusion/spheronization technology, is a suitable alternative to overcome the lack of technological properties of dry extracts, since they are associated with low flowability and high hygroscopicity. In this study, an optimized dry extract (ODE) of C. glaziovi was incorporated into pellets seeking to decrease the moisture sorption and increase the stability, safety and percentage of the extract in the final product. Pellets containing around 50% of ODE were considered the most technologically viable, offering a narrow particle size distribution, significant improvement in the flowability and compressibility properties, and decrease in the moisture compared with the ODE. In conclusion, pellets containing a high dose of the C. glaviovi extract were successfully prepared, achieving degrees of quality, physical stability and feasibility compatible with the desirable characteristics of a phytopharmaceutical

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Diva Sonaglio

Green Clay and Aloe Vera Peel-Off Facial Masks: Response Surface Methodology Applied to the Formulation Design

CNS activities of liquid and spray-dried extracts from Lippia alba—Verbenaceae (Brazilian false melissa)

Liquisolid technology applied to pellets: Evaluation of the feasibility and dissolution performance using felodipine as a model drug

Factorial design in the feasibility of producing Microcel MC 101 pellets by extrusion/spheronization

Technological development of Cecropia glaziovi extract pellets by extrusion-spheronization

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