Your search keyword '"Aurelia Meghea"' showing total 8 results

1. Antimicrobial performance of nanostructured silica–titania sieves loaded with izohidrafural against microbial strains isolated from urinary tract infections

Author

Marcela Popa, Raluca Stan, Mustafa Basim M. Al Tameemi, George Marton, Viorel Prisacari, Mariana Carmen Chifiriuc, Georgeta Voicu, Cristina Ott, and Aurelia Meghea

Subjects

biology, Klebsiella pneumoniae, Chemistry, General Chemical Engineering, Urinary system, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, medicine.disease_cause, Antimicrobial, 01 natural sciences, Proteus mirabilis, 0104 chemical sciences, Microbiology, Minimum inhibitory concentration, Nitrofurantoin, medicine, Organic chemistry, 0210 nano-technology, Escherichia coli, Antibacterial agent, medicine.drug

Abstract

This study aimed to examine the efficiency of novel bioactive nanostructures represented by silica–titania sieves used as carriers for a new antibacterial agent izohidrafural against bacterial strains isolated from nosocomial urinary tract infections, by using biological quantitative assays. Several release trials have been established and compared with MCM-41 in parallel experiments to achieve the optimum release profile. The obtained systems showed that silica–titania sieves loaded with izohidrafural proved to be the most active material against Klebsiella pneumoniae (average minimal inhibitory concentration [MIC] 40.62 μg/mL), desaminase-positive strains (average MIC 2.925 μg/mL), and Proteus mirabilis (average MIC 9.37 μg/mL), the last being reported with the highest growth rate in the urinary tract catheters. In contrast, the nonloaded silica–titanium sieves exhibited the highest antimicrobial activity against the Gram-positive cocci. Izohidrafural exhibited the highest antimicrobial efficiency, superior to the common drug nitrofurantoin against most Escherichia coli strains, with average MIC of 4.68 μg/mL.

Published

2017

2. Innovative methodology for developing a bone grafting composite biomaterial starting from the seashell of Rapana thomasiana

Author

Graţiela Teodora Tihan, Roxana Gabriela Zgârian, Viviana Sereanu, Madalina Georgiana Albu, Anisoara Cimpean, Aurelia Meghea, Georgeta Voicu, and Valentina Mitran

Subjects

Biocompatibility, Chemistry, General Chemical Engineering, Regeneration (biology), medicine.medical_treatment, Biomaterial, 02 engineering and technology, General Chemistry, Bone healing, Bone grafting, Matrix (biology), 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, medicine, 0210 nano-technology, Hybrid material, Bone regeneration, Biomedical engineering

Abstract

Bone grafts are used in a wide array of clinical settings to augment bone repair and regeneration. This article reports a new method for the elaboration of a hybrid biomaterial in the form of sponge based on collagen gel, CaCO3 from recycled Rapana thomasiana seashell, and Na2HPO4·2H2O. Practically, collagen acts as a matrix through which calcium and phosphate ions are diffusing during in situ hydroxyapatite synthesis. The organic–inorganic interactions among biomaterial components have been studied by infrared spectroscopy, and the surface morphology was investigated by scanning electron microscopy technique. Moreover, the developed biomaterials were studied for in vitro biocompatibility with MG63 human osteoblasts. The results obtained demonstrated that the developed hybrid material does not exhibit a significant cytotoxicity and supports cell proliferation. Consequently, it holds great promise for applications in bone tissue engineering.

Published

2017

3. Chloramphenicol collagen sponges for local drug delivery in dentistry

Author

Mihaela Violeta Ghica, Roxana Gabriela Zgârian, Camelia Ungureanu, Aurelia Meghea, Madalina Georgiana Albu, Răzvan Constantin Barbaresso, Ileana Rau, and Graţiela Teodora Tihan

Subjects

Absorption of water, biology, business.industry, Chemistry, General Chemical Engineering, Chloramphenicol, Dentistry, General Chemistry, Antimicrobial, biology.organism_classification, chemistry.chemical_compound, Sponge, Drug delivery, medicine, Collagenase, Glutaraldehyde, business, Drug carrier, medicine.drug

Abstract

Drug delivery systems based on natural drug carriers have become important due to their non-toxicity and biodegradability. We report here the synthesis and characterization of new biomaterials like sponges containing collagen, chloramphenicol and glutaraldehyde for dentistry. All sponges favour water absorption, showing that increasing the glutaraldehyde content leads to an increase in water uptake. The sponges showed resistance to collagenase degradation and strong activity against the tested bacteria. Kinetic data showed non-Fickian diffusion behaviour with a slow release rate. Taking into account that dental drug delivery systems exhibit low water absorption, slow drug release, high content of drug delivery, good antimicrobial activity, and resistance to enzymatic action, the results obtained in this study indicate the optimal content of glutaraldehyde for the sponge as being 0.5%. The properties of the designed formulations demonstrate that these sponges could be adequate for the treatment and/or the prophylaxis of infected lesions at the dental level.

Published

2015

4. Influence of basil oil extract on the antioxidant and antifungal activities of nanostructured carriers loaded with nystatin

Author

Raluca Stan, Ovidiu Oprea, Gabriela Badea, Aurelia Meghea, Camelia Ungureanu, Ioana Lacatusu, and Alin Gabriel Bors

Subjects

Antifungal, Chemiluminescence assay, Chromatography, Antioxidant, Low toxicity, Chemistry, medicine.drug_class, General Chemical Engineering, medicine.medical_treatment, General Chemistry, Nystatin, Homogeneous, medicine, Organic chemistry, lipids (amino acids, peptides, and proteins), Oil concentration, Nanocarriers, medicine.drug

Abstract

The combination of basil oil, natural antifungal, and nystatin has the potential to prevent the extension of topical fungal infections towards systemic infections. The aim of this study was to develop formulations based on basil oil and nystatin with the desired antifungal and antioxidant activity and low toxicity by using lipid nanocarriers. The synthesized nanocarriers showed spherical and homogeneous particles with main diameters less than 150 nm, as determined by TEM. The scanning calorimetric study revealed an imperfect crystallization in the core of lipid nanocarriers. Quantitative results suggested that basil oil concentration affects encapsulation efficiency. The prepared nanocarriers guaranteed an increased nystatin encapsulation by using 3% basil oil content. Chemiluminescence assay proved that the protective activity against oxygen free radicals was influenced by nystatin concentration. The in vitro antifungal studies revealed a better activity of the nanocarriers loaded with 1% nystatin in comparison with 0.5% loading.

Published

2015

5. Effect of vegetable oils on obtaining lipid nanocarriers for sea buckthorn extract encapsulation

Author

Camelia Ungureanu, Aurelia Meghea, and Ana-Maria Manea

Subjects

Chromatography, food.ingredient, Antioxidant, Cetyl palmitate, Chemistry, General Chemical Engineering, medicine.medical_treatment, General Chemistry, Lecithin, Crystallinity, chemistry.chemical_compound, food, Differential scanning calorimetry, Dynamic light scattering, Zeta potential, medicine, Organic chemistry, Sea buckthorn oil

Abstract

The principal aim of the present study was to develop new safe and highly antioxidant nanostructured lipid carriers loaded with sea buckthorn extract. Three vegetable oils — grape seed oil, sea buckthorn oil and St. John's wort oil ( Hypericum perforatum oil) — were used as matrix components and the modified high shear homogenization technique has been employed for the synthesis of nanostructured materials. The effect of these oils on the antioxidant and antimicrobial activities of loaded sea buckthorn extract — nanostructured lipid carriers — has also been studied. For this purpose, a combination of two solid lipids: cetyl palmitate with glyceryl stearate and lecithin/block copolymer has been used. The obtained nanostructured lipid carriers have been characterized for the particle size and zeta potential by means of dynamic light scattering measurements. The nano-dimension morphology of loaded nanostructured lipid carriers was confirmed by transmission electron microscopy. Their crystallinity measured by differential scanning calorimetry has revealed a high disordered lipid matrix. The properties of sea-buckthorn-extract-loaded nanoparticles have been evaluated by an appropriate in vitro analysis (chemiluminescence method). The presence of the three vegetable oils influences extensively the antioxidant properties of the developed nano-formulations, as has been demonstrated using the chemiluminescence technique. The antimicrobial activity of the studied nanostructured lipid carriers, analyzed by the diffusion disc method, shows in most of the samples a high efficiency against Escherichia coli bacteria.

Published

2014

6. Antioxidant and antimicrobial activities of green tea extract loaded into nanostructured lipid carriers

Author

Bogdan Stefan Vasile, Aurelia Meghea, and Ana-Maria Manea

Subjects

Cetyl palmitate, food.ingredient, Chromatography, General Chemical Engineering, General Chemistry, Green tea extract, Antimicrobial, Grape seed oil, chemistry.chemical_compound, food, Differential scanning calorimetry, Dynamic light scattering, chemistry, Zeta potential, Sea buckthorn oil

Abstract

In this paper, the preparation and characterization of some novel nanostructured lipid carriers for drug delivery are reported. They are obtained by mixing two solid lipids, cetyl palmitate and glyceryl stearate, with three types of vegetable oils: grape seed oil, St. John's wort oil ( Hypericum perforatum oil) and sea buckthorn oil. In order to increase their antioxidant and antimicrobial properties, they are co-loaded with green tea extract by using a modified high shear homogenization technique. Size distribution and polydispersity index of the developed nanostructured lipid carriers determined by the dynamic light scattering, and corroborated with the results obtained by the transmission electron microscopy analysis, confirmed that the structures obtained are at nanoscales. The crystallinity behavior of the prepared nanostructured lipid carriers has been studied by differential scanning calorimetry; zeta potential measurements show that all loaded nanostructures present excellent physical stability. Their antioxidant and antimicrobial properties evaluated by an appropriate in vitro analysis using the chemiluminescence method, and the diffusion disc method, respectively, show that green tea extract could be utilized as a valuable natural source of antioxidant and antimicrobial agent. These new nano-formulations proved to have significant potential for nutritional and pharmaceutical applications.

Published

2014

7. A systematic methodology to design silica templates: Silica microemulsion formulation and nanodroplet type and size estimation

Author

Nicoleta-Liliana Olteanu, Maria Mihaly, Ioana Lacatusu, and Aurelia Meghea

Subjects

Green chemistry, Materials science, Template, Transition point, Chemical engineering, General Chemical Engineering, Microemulsion, Nanotechnology, General Chemistry, Absorption (chemistry), Phase inversion, Phase diagram, Nanomaterials

Abstract

A systematic study of the design and characterization of silica-microemulsion templates is presented. The ternary phase diagrams in micro-heterogeneous systems, by using a non-ionic surfactant (Brij 30) and different silica precursors (MTEOS, TEOS, PTEOS), have been drawn. Based on Khalweit diagrams, the phase inversion temperature was estimated as close to 315 K, for both alchil (TEOS) and aril (PTEOS) types of alcoxides. By correlating the information obtained from phase diagrams at room temperature with that of size effects revealed by VIS absorption molecular probes (bromthymol blue dye), the phase inversion point, i.e. the transition point from water-in-oil to oil-in-water microemulsion, was also clearly established as corresponding to R ∼ 1. Besides technically attractive features such as a wide variety of inorganic and hybrid nanomaterials, high specific surface and highly efficient applicative properties of the final materials, the approach of silica-microemulsion-based templates can be seen as a route towards the Green Chemistry concept.

Published

2014

8. Niflumic acid-collagen delivery systems used as anti-inflammatory drugs and analgesics in dentistry

Author

Ileana Rau, Răzvan Constantin Barbaresso, Aurelia Meghea, Mihaela Violeta Ghica, and Roxana Gabriela Zgârian

Subjects

Drug, medicine.drug_class, General Chemical Engineering, media_common.quotation_subject, Niflumic acid, General Chemistry, Pharmacology, Anti-inflammatory, chemistry.chemical_compound, chemistry, Collagen matrices, Drug delivery, Drug release, medicine, Glutaraldehyde, media_common, medicine.drug

Abstract

Collagen sponges are known to be safe and well-characterized supports for drug delivery systems. The aim of this study was to prepare, characterize and test drug delivery systems that contain collagen as support and niflumic acid as a drug. Type-I collagen and niflumic acid gels were cross-linked with different concentrations of glutaraldehyde and then freeze-dried in order to obtain collagen matrices (spongious form). The physical-chemical properties were assessed by infrared spectroscopy (FTIR) and morphological properties were evaluated by water absorption. Niflumic acid release from cross-linked collagen spongious forms was also investigated and the kinetic mechanism was discussed.

Published

2014