Hana Landová scite author profile

Infectious stomatitis represents the most common oral cavity ailments. Current therapy is insufficiently effective because of the short residence time of topical liquid or semisolid medical formulations. An innovative application form based on bioadhesive polymers featuring prolonged residence time on the oral mucosa may be a solution to this challenge. This formulation consists of a mucoadhesive oral film with incorporated nanocomposite biomaterial that is able to release the drug directly at the target area. This study describes the unique approach of preparing mucoadhesive oral films from carmellose with incorporating a nanotechnologically modified clay mineral intercalated with chlorhexidine. The multivariate data analysis was employed to evaluate the influence of the formulation and process variables on the properties of the medical preparation. This evaluation was complemented by testing the antimicrobial and antimycotic activity of prepared films with the aim of finding the most suitable composition for clinical application. Generally, the best results were obtained with sample containing 20 mg of chlorhexidine diacetate carried by vermiculite, with carmellose in the form of nonwoven textile in its structure. In addition to its promising physicomechanical, chemical, and mucoadhesive properties, the formulation inhibited the growth of Staphylococcus and Candida; the effect was prolonged for tens of hours.

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Evaluation of the Influence of Formulation and Process Variables on Mechanical Properties of Oral Mucoadhesive Films Using Multivariate Data Analysis

Landová

Vetchý

Gajdziok

et al. 2014

BioMed Research International

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Oral mucosa is an attractive region for the local and systemic application of many drugs. Oral mucoadhesive films are preferred for their prolonged time of residence, the improved bioavailability of the drug they contain, their painless application, their protection against lesions, and their nonirritating properties. This work was focused on preparation of nonmedicated carmellose-based films using both solvent casting and impregnation methods, respectively. Moreover, a modern approach to evaluation of mucoadhesive films applying analysis of texture and subsequent multivariate data analysis was used. In this experiment, puncture strength strongly correlated with tensile strength and could be used to obtain necessary information about the mechanical film characteristics in films prepared using both methods. Puncture work and tensile work were not correlated in films prepared using the solvent casting method, as increasing the amount of glycerol led to an increase in the puncture work in thinner films. All measured texture parameters in films prepared by impregnation were significantly smaller compared to films prepared by solvent casting. Moreover, a relationship between the amount of glycerol and film thickness was observed, and a greater recalculated tensile/puncture strength was needed for an increased thickness in films prepared by impregnation.

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Buccal films as a dressing for the treatment of aphthous lesions

Daněk

Gajdziok

Doležel

et al. 2017

J Oral Pathology Medicine

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The application of buccal films covering aphthous lesions during the treatment significantly increased the rate of healing when compared with the standard methods of treatment. While the pain improvement was statistically significant as soon as Day 3 in the experimental group, it was only apparent on Day 5 in the control group, and the number of successfully treated patients (pain perception improving to visual analogue scale 2 or less) was at all time points higher in the experimental group than in the control group. The results imply that the use of buccal films for treatment of aphthous lesions is very promising and can lead to a significant reduction in the duration of patients' discomfort.

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Evaluation of mucoadhesive oral films containing nystatin

Gajdošová¹,

Vetchý²,

Doležel³

et al. 2016

JAB

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Hana Landová

Determination of dependencies among in vitro and in vivo properties of prepared mucoadhesive buccal films using multivariate data analysis

Carmellose Mucoadhesive Oral Films Containing Vermiculite/Chlorhexidine Nanocomposites as Innovative Biomaterials for Treatment of Oral Infections

Evaluation of the Influence of Formulation and Process Variables on Mechanical Properties of Oral Mucoadhesive Films Using Multivariate Data Analysis

Buccal films as a dressing for the treatment of aphthous lesions

Evaluation of mucoadhesive oral films containing nystatin

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