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Over the last decades, alginates, natural multifunctional polymers, have increasingly drawn attention as attractive compounds in the biomedical and pharmaceutical fields due to their unique physicochemical properties and versatile biological activities. The focus of the paper is to describe biological and pharmacological activity of alginates and to discuss the present use and future possibilities of alginates as a tool in drug formulation. The recent technological advancements with using alginates, issues related to alginates suitability as matrix for three-dimensional tissue cultures, adjuvants of antibiotics, and antiviral agents in cell transplantation in diabetes or neurodegenerative diseases treatment, and an update on the antimicrobial and antiviral therapy of the alginate based drugs are also highlighted.

The barrier effect refers to the ability of a topical product to protect the tissue against environmental factors, restore epidermal barrier function, or alleviate complications upon chemoradiation therapy. The market of barrier products for topical delivery is experiencing increased growth, and novel barrier-boosting compounds are being developed. However, only scarce reports and limited evidence justify their barrier efficacy. This may be due to the lack of a standardized, robust method for testing the protective effect of topicals. The paper reviews the recent advances in clinical and experimental techniques on the barrier efficacy of topical products, emphasizing those with the highest standardization potential. The principles and applications of each approach are specified, and the factors affecting the research outcome are highlighted. For predictive results, it is advised to mix at least two methods that differ in the mode of barrier efficacy testing. Combining quantitative TEWL and qualitative permeability testing not only balances out the limitations of each technique but also helps build high-quality evidence on the barrier efficacy. This review also summarizes the novel barrier-boosting ingredients and recent topical formulation strategies for enhancing product barrier efficacy and restoring the epithelial barrier function.

Fungal skin infections are currently a major clinical problem due to their increased occurrence and drug resistance. The treatment of fungal skin infections is based on monotherapy or polytherapy using the synergy of the therapeutic substances. Tea tree oil (TTO) may be a valuable addition to the traditional antifungal drugs due to its antifungal and anti-inflammatory activity. Ketoconazole (KTZ) is an imidazole antifungal agent commonly used as a treatment for dermatological fungal infections. The use of hydrogels and organogel-based formulations has been increasing for the past few years, due to the easy method of preparation and long-term stability of the product. Therefore, the purpose of this study was to design and characterize different types of Pluronic® F-127 gel formulations containing KTZ and TTO as local delivery systems that can be applied in cases of skin fungal infections. The influence of TTO addition on the textural, rheological, and bioadhesive properties of the designed formulations was examined. Moreover, the in vitro release of KTZ, its permeation through artificial skin, and antifungal activity by the agar diffusion method were performed. It was found that obtained gel formulations were non-Newtonian systems, showing a shear-thinning behaviour and thixotropic properties with adequate textural features such as hardness, compressibility, and adhesiveness. Furthermore, the designed preparations with TTO were characterized by beneficial bioadhesive properties. The presence of TTO improved the penetration and retention of KTZ through the artificial skin membrane and this effect was particularly visible in hydrogel formulation. The developed gels containing TTO can be considered as favourable formulations in terms of drug release and antifungal activity.

Topical administration of drug is an attractive alternative to the oral administration as it provides a reduction in adverse reactions and an enhancement of therapeutic effects. The use of lipid carriers in hydrogel structures makes it possible to introduce lipophilic substances in a dissolved form. In this study, an NSAID from the BCS class II, etodolac (ETD), was used. The nanostructured lipid carriers (NLC) obtained with ETD were incorporated into semi-solid forms (gels). Hydrogels with the suspended drug and oleogel were also prepared for comparison purposes. The obtained gels were tested in terms of pH, viscosity, rheological, mechanical, and bioadhesive properties. The release and permeation through membranes were also studied. All tested formulations were characterized by a pH below 7, which ensured the physiological state of the skin. The viscosities of all gels decreased with increasing shear rate, indicating non-Newtonian behavior. The fastest ETD release was observed for NLC with a Carbopol base (formulation F1); a similar result was noticed in the permeation test. The developed gel formulations containing ETD-NLC dispersion and Carbopol or Poloxamer as gelling agents were stable and possessed beneficial pharmaceutical properties.

Polyelectrolyte complexes based on the electrostatic interactions between the polymers mixed are of increasing importance, therefore, the aim of this study was to develop hydrogels composed of anionic tragacanth gum and cationic chitosan with or without the addition of anionic xanthan gum as carriers for buccal drug delivery. Besides the routine quality tests evaluating the hydrogel’s applicability on the buccal mucosa, different methods directed toward the assessment of the interpolymer complexation process (e.g., turbidity or zeta potential analysis, scanning electron microscopy and Fourier-transform infrared spectroscopy) were employed. The addition of xanthan gum resulted in stronger complexation of chitosan that affected the hydrogel’s characteristics. The formation of a more viscous PEC hydrogel with improved mucoadhesiveness and mechanical strength points out the potential of such polymer combination in the development of buccal drug dosage forms.

The objective of this work was to design and characterize liquid and solid self-emulsifying drug delivery systems (SEDDS) for poorly soluble atorvastatin. To optimize the composition of liquid atorvastatin-SEDDS, solubility tests, pseudoternary phase diagrams, emulsification studies and other in vitro examinations (thermodynamic stability, droplet size and zeta potential analysis) were performed. Due to the disadvantages of liquid SEDDS (few choices for dosage forms, low stability and portability during the manufacturing process), attempts were also made to obtain solid SEDDS. Solid SEDDS were successfully obtained using the spray drying technique from two optimized liquid formulations, CF3 and OF2. Despite liquid SEDDS formulation, CF3 was characterized by lower turbidity, higher percentage transmittance and better self-emulsifying properties, and based on the in vitro dissolution study it can be concluded that better solubilization properties were exhibited by solid formulation OF2. Overall, the studies demonstrated the possibility of formulating liquid and solid SEEDS as promising carriers of atorvastatin. SEDDS, with their unique solubilization properties, provide the opportunity to deliver lipophilic drugs to the gastrointestinal tract in a solubilized state, avoiding dissolution—a restricting factor in absorption rate of BCS Class 2 drugs, including atorvastatin.

Periodontal diseases are some of the most widespread oral afflictions, and they are labeled as chronic infections caused by the accumulation of bacteria in dental plaque that produces localized inflammation of the periodontium. The use of local drug delivery systems to treat periodontal diseases has received greater attention, because the active substance is targeted directly to the affected area, which minimizes its systemic side effects. Therefore, the purpose of the investigation was to develop and characterize different types of gel formulations—bigel, hydrogel and oleogel—as local delivery systems containing metronidazole (MET), which can be applied to the oral mucosa. The influence of the formulation type on the mechanical, rheological and mucoadhesive properties were examined. Moreover, in vitro release of metronidazole, its ex vivo permeation through buccal porcine mucosa and antimicrobial activity measured by the plate diffusion method were estimated. It was found that the gel formulations obtained were non-Newtonian systems, showing a shear-thinning behavior and thixotropic properties with good textural features such as firmness, compressibility and adhesiveness. Moreover, the preparations designed possessed beneficial mucoadhesive properties. The formulated hydrogels and bigels containing micronized MET were considered as better formulations in terms of drug release and antimicrobial activity compared to commercially available metronidazole ointment. An ex vivo permeation study with the use of porcine buccal mucosa demonstrated that the bigel formulation was characterized by higher initial permeability rate providing a fast therapeutic effect with simultaneous moderate retention in mucosal tissue to decrease the risk of local cytotoxicity.

Objective: Oral lichen planus (OLP) is a chronic immune-mediated condition of the oral mucosa, commonly associated with pain and burning sensations that impair quality of life. This study aimed to compare the efficacy of photodynamic therapy with 5-aminolevulinic acid (ALA-PDT) and topical glucocorticosteroids (CT) in the treatment of OLP, considering lesion location on keratinized and non-keratinized mucosa. Materials and Methods: A randomized clinical trial was conducted on 90 patients with histologically confirmed OLP. Participants were allocated to receive either ALA-PDT in addition to novel oromucosal emulgel containing 5% ALA (five weekly sessions) or clobetasol propionate applied twice daily for two weeks. Lesion area, clinical severity (Reticulation, Erythema, Ulceration—REU index), and subjective symptoms (Visual Analog Scale—VAS) were evaluated before treatment, immediately after, and six months after therapy. Results: ALA-PDT achieved significantly greater and more durable reductions in lesion area, REU scores, and VAS values compared to CT, particularly on non-keratinized mucosa (mean lesion reduction from 2.64 to 0.56 cm2 at six months; p < 0.0001). CT therapy showed initial improvement but was followed by relapse at six months. Both treatments were well tolerated, with only mild transient adverse effects reported. Conclusions: ALA-PDT, especially when applied to non-keratinized oral mucosa, provides superior and longer-lasting therapeutic outcomes than topical CT. The application of novel ALA-loaded emulgel enhances treatment efficacy and tolerability, supporting PDT as a promising alternative for OLP management.

In this randomized clinical trial, we compared the effects of 5-aminolevulinic acid photodynamic therapy (ALA-PDT) and topical clobetasol on the salivary antioxidant profile in patients with oral lichen planus (OLP) and explored their relationships with clinical outcomes. Ninety adults with OLP were randomly allocated to ALA-PDT (five weekly sessions) or clobetasol (twice daily for 14 days). Unstimulated whole saliva was collected at baseline (T0), immediately after treatment (T1), and at 3 (T3) and 6 months (T6). The activities of catalase (CAT), superoxide dismutase (SOD), peroxidase (Px) and reduced glutathione (GSH) were determined, and nonparametric statistics were applied, including Friedman tests with Dunn’s post hoc comparisons and Spearman’s rank correlations. Both therapies induced an early decline in CAT, Px and GSH at T1, followed by partial recovery at later time points. SOD activity changed significantly over time in the clobetasol group, but not in the PDT arm. At T6, Px and GSH remained below baseline in both groups despite improvement from the immediate post-treatment nadir. No significant between-group differences were observed at individual time points, although GSH at T6 showed a non-significant trend favoring PDT. Exploratory analyses revealed modest, treatment-dependent associations between salivary antioxidant activity and lesion size, as well as between the former and pain intensity. Overall, ALA-PDT and topical clobetasol both modulated the salivary redox profile, primarily through short-term depletion of enzymatic and non-enzymatic antioxidants with incomplete recovery over 6 months, and no clear redox superiority of one modality over the other was demonstrated. These findings are hypothesis-generating and underscore the need for larger, longer-term studies with broader redox panels and more advanced between-group analyses.

Buccal films are recognized as easily applicable, microbiologically stable drug dosage forms with good retentivity at the mucosa intended for the therapy of oromucosal conditions, especially infectious diseases. Multilayer films composed of layers of oppositely charged polymers separated by ionically interacting polymeric chains creating polyelectrolyte complexes represent very interesting and relatively poorly explored area. We aimed to develop the antifungal multilayer systems composed of cationic chitosan and anionic pectin as potential platforms for controlled delivery of clotrimazole. The systems were pharmaceutically characterized with regard to inter alia their release kinetics under different pH conditions, physicomechanical, or mucoadhesion properties with using an animal model of the buccal mucosa. The antifungal activity against selected Candida sp. and potential cytotoxicity with regard to human gingival fibroblasts were also evaluated. Interactions between polyions were characterized with Fourier transform infrared spectroscopy. Different clotrimazole distribution in the films layers highly affected their in vitro dissolution profile. The designed films were recognized as intelligent pH-responsive systems with strong antifungal effect and satisfactory safety profile. As addition of chitosan resulted in the improved antifungal behavior of the drug, the potential utilization of the films in resistant cases of oral candidiasis might be worth of further exploration.