Your search keyword '"Da Silva AF"' showing total 9 results

1. Optical clearing agents based on metallic and dielectric nanoparticles for caries diagnostic by optical coherence tomography.

Author

Carneiro VSM, de Melo EL, de Oliveira Mota CCB, da Silva EJ, da Silva AF, Deama NS, Miranda JM, da Rocha SIS, de Lima Pires C, Gomes ASL, and de Martínez Gerbi MEM

Subjects

Humans, Dental Caries Susceptibility, Glycerol, Tomography, Optical Coherence, Water, Dental Caries diagnostic imaging, Nanoparticles

Abstract

Objective: This study aimed to assess the effect of titanium dioxide (TiO 2 ) and silver (Ag) nanoparticles dispersed in glycerol or water, serving as optical clearing agents nanocolloids (OCAs-NC), for improving optical coherence tomography (OCT) images and highlighting incipient lesions in ex vivo human teeth., Materials and Methods: Twelve human teeth with incipient lesions were divided into seven groups according to the OCA-NC; they were subjected to G1 (air), G2 (glycerol), G3 (TiO 2 0.1%), G4 (TiO 2 0.01%), G5 (TiO 2 0.001%), G6 (AgNO 3 10%), and G7 (AgNO 3 100%). The OCA-NC was applied to the occlusal surface, and two-dimensional images of the specimens were analyzed using OCT (930 nm central wavelength; 100 nm bandwidth; 5 mW output power; axial resolution of 7/5.3 μm in water and air, respectively; lateral resolution of 8 μm; and light penetration depth of 1.6 mm inside the sample)., Results: The findings demonstrated that the utilization of OCAs-NC containing metallic or dielectric nanoparticles (AgNO 3 and TiO 2 ) led to improved differentiation between sound and demineralized enamel on occlusal surfaces. Additionally, it enhanced the depth of image penetration when analyzing this hard tissue with OCT., Clinical Relevance: In the current context of minimally invasive dentistry, the use of OCAs-NC in conjunction with OCT can provide clinicians with early diagnosis, allowing for the determination of less/more invasive therapies and consequently halting the disease before cavitation of dental tissues occurs., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

2. Fungal bioproducts for petroleum hydrocarbons and toxic metals remediation: recent advances and emerging technologies.

Author

da Silva AF, Banat IM, Robl D, and Giachini AJ

Subjects

Animals, Biodegradation, Environmental, Ecosystem, Hydrocarbons, Organic Chemicals, Petroleum

Abstract

Petroleum hydrocarbons and toxic metals are sources of environmental contamination and are harmful to all ecosystems. Fungi have metabolic and morphological plasticity that turn them into potential prototypes for technological development in biological remediation of these contaminants due to their ability to interact with a specific contaminant and/or produced metabolites. Although fungal bioinoculants producing enzymes, biosurfactants, polymers, pigments and organic acids have potential to be protagonists in mycoremediation of hydrocarbons and toxic metals, they can still be only adjuvants together with bacteria, microalgae, plants or animals in such processes. However, the sudden accelerated development of emerging technologies related to the use of potential fungal bioproducts such as bioinoculants, enzymes and biosurfactants in the remediation of these contaminants, has boosted fungal bioprocesses to achieve higher performance and possible real application. In this review, we explore scientific and technological advances in bioprocesses related to the production and/or application of these potential fungal bioproducts when used in remediation of hydrocarbons and toxic metals from an integral perspective of biotechnological process development. In turn, it sheds light to overcome existing technological limitations or enable new experimental designs in the remediation of these and other emerging contaminants., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

3. Fungal biosurfactants, from nature to biotechnological product: bioprospection, production and potential applications.

Author

da Silva AF, Banat IM, Giachini AJ, and Robl D

Subjects

Lipid Metabolism, Surface Tension, Thermodynamics, Biotechnology methods, Fungi metabolism, Surface-Active Agents metabolism

Abstract

Biosurfactants are in demand by the global market as natural commodities that can be added to commercial products or use in environmental applications. These biomolecules reduce the surface/interfacial tension between fluid phases and exhibit superior stability to chemical surfactants under different physico-chemical conditions. Biotechnological production of biosurfactants is still emerging. Fungi are promising producers of these molecules with unique chemical structures, such as sophorolipids, mannosylerythritol lipids, cellobiose lipids, xylolipids, polyol lipids and hydrophobins. In this review, we aimed to contextualize concepts related to fungal biosurfactant production and its application in industry and the environment. Concepts related to the thermodynamic and physico-chemical properties of biosurfactants are presented, which allows detailed analysis of their structural and application. Promising niches for isolating biosurfactant-producing fungi are presented, as well as screening methodologies are discussed. Finally, strategies related to process parameters and variables, simultaneous production, process optimization through statistical and genetic tools, downstream processing and some aspects of commercial products formulations are presented., (© 2021. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2021

4. Local delivery therapies as adjuvants to non-surgical periodontal treatment of periodontitis grade C: a systematic review.

Author

Gomes EWB, Casarin M, Martins TM, and da Silva AF

Subjects

Alendronate, Dental Scaling, Humans, Periodontal Index, Root Planing, Aggressive Periodontitis, Chronic Periodontitis

Abstract

Objectives: The aim of this article was to perform a systematic review on the effectiveness of local adjuvant therapies in the treatment of aggressive periodontitis (AgP), now reported as periodontitis grade C., Materials and Methods: The authors selected randomized clinical trials of AgP patients who received local therapy as adjuvants to non-surgical periodontal with a duration of at least 90 days. Seven databases were searched up to January 2020. The gain in clinical attachment level (CAL) and reduction of probing depth (PD) were the outcomes of interest., Results: Of the 3583 studies found, only five articles were included in the qualitative analysis. Among the substances analyzed, only 1.2 mg of simvastatin gel (SMV) (1.2 mg/0.1 ml), 1% of alendronate gel (ALN) (10 mg/ml), and 25% metronidazole gel (MTZ) (Elyzol @ ) showed a significant decrease in the probing depth when compared with their respective control groups. The gain CAL was shown using 1.2 mg SMV gel (1.2 mg/0.1 ml) and 1% ALN gel (10 mg/ml)., Conclusion: Although 1.2 mg SMV gel (1.2 mg/0.1 ml), 1% ALN gel (10 mg/ml), and 25% MTZ gel (Elyzol) have shown better results, local therapies adjuvant to SRP the data found were limited. Future clinical studies with appreciable methodological quality should be conducted., Clinical Relevance: Despite some benefits of local delivery therapy, up to now, it has not been possible to prove the efficacy of local therapy as an adjunct to standard treatment of AgP (periodontitis grade C).

Published

2020

5. Environmental Drivers of Microbial Functioning in Mediterranean Forest Soils.

Author

Brunel C, Da Silva AF, and Gros R

Subjects

France, Bacteria metabolism, Bacterial Physiological Phenomena, Carbon metabolism, Forests, Soil Microbiology

Abstract

Mediterranean forests own distinct characteristics resulting from climate, soil, and vegetation that affect soil microbial communities' assembly and their associated functions. We initiated a multi-scalar analysis of environmental drivers of soil functioning to (1) identify pertinent factorial scales and (2) determine the relative importance of soil, vegetation, and geoclimate influences in shaping soil microbial functions across the French Mediterranean forests. Soil samples (0-15 cm) were collected from 60 forest sites and soil physicochemical and microbiological properties were assessed across different factorial scales i.e., bioclimates, slope exposures, and forest stands. Patterns in microbial catabolic potential (i.e., extracellular enzymes and microbial respiration) and carbon (C) source utilization (i.e., catabolic-level physiological profiling) were partitioned between vegetation cover, soil characteristics, and geoclimate components. Our results reveal that the catabolic potential of soil microbes was strongly influenced by the forest stands and mainly relied on ammonium and nitrate contents. In contrast, variation in C source utilization was mainly explained by vegetation cover. Soil metabolic capacities of microorganisms and resulting C dynamics were largely constrained by climate parameters, which suggests potentially important consequences for soil C storage. Our study revealed diverse structuration patterns between the catabolic potential and the carbon source utilization of soil microbial communities, and gives insights into the underlying mechanisms of soil microbial functioning in Mediterranean forests.

Published

2020

6. Biological response to self-etch adhesive after partial caries removal in rats.

Author

Da Silva AF, Marques MR, Da Rosa WLO, Tarquinio SBC, Rosalen PL, and Barros SP

Subjects

Acid Etching, Dental, Animals, Dental Caries microbiology, Disease Models, Animal, Disease Progression, Immunohistochemistry, Male, Mandible, Molar microbiology, Osteonectin metabolism, Rats, Rats, Wistar, Streptococcus sobrinus, Surface Properties, Transforming Growth Factor beta metabolism, Dental Caries therapy, Dental Cements pharmacology, Resin Cements pharmacology, Zinc Oxide-Eugenol Cement pharmacology

Abstract

Objectives: The purposes of this study were to evaluate a model of slow caries progression and to investigate the performance of a self-etch adhesive system for partial caries removal., Materials and Methods: Rat molars were infected with Streptococcus sobrinus 6715 culture. Different time points were analyzed: days 78, 85, and 95 (± 2). After this, the samples were processed for morphological analysis. Additionally, the first molars were restored with zinc oxide and eugenol (IRM™; Dentsply; Brazil) or adhesive system (Clearfil SE Bond™; Kuraray Medical; Japan) 78 days after caries induction. After, 3 or 15 days post-treatment, the animals were euthanized, and their mandibles were processed for morphological analysis, classified by means of scores, and submitted to statistical analysis. Subsequently, immunohistochemical analysis was performed for osteonectin (OSN) and transforming growth factor-ß1 (TGF-ß1) expression., Results: According to the caries induction model used, on day 95 greater inflammatory infiltration (p < 0.001), and more extensive degradation of secondary/primary dentin were demonstrated than on day 78 (p < 0.05). Furthermore, the restorative materials presented similar performance (p > 0.05) and proved to be fundamental to control the carious lesion. The TGF-ß1 and OSN were shown to be active during the caries process., Conclusions: The slow caries lesion model was feasible for morphological analysis of the dentin-pulp complex. The self-etch adhesive system triggered no acute inflammatory infiltration or pulp necrosis, instead it seemed to stimulate early pulp repair., Clinical Relevance: Clearfil SE Bond™ applied directly on caries-affected dentin did not predispose to pulp inflammation; instead, it appeared to provide early biological benefits.

Published

2018

7. Optimized expression conditions for enhancing production of two recombinant chitinolytic enzymes from different prokaryote domains.

Author

García-Fraga B, da Silva AF, López-Seijas J, and Sieiro C

Subjects

Electrophoresis, Polyacrylamide Gel, Recombinant Proteins metabolism, Chitin metabolism, Chitinases metabolism, Escherichia coli enzymology, Halobacterium salinarum enzymology, Pseudoalteromonas enzymology

Abstract

Enhancing functional gene expression is key to high-level production of active chitinases. For this purpose, the effects of culture cell density, inducer concentration, post-induction time and induction temperatures on the functional expression of two different chitinases (HsChiA1p, a family 18 archaeal chitinase and PtChi19p, a family 19 bacterial chitinase) were comparatively investigated. Results showed that the effect of each parameter on the activity of both chitinases was specific to each enzyme. In addition, different Escherichia coli host strains compatible with the expression in pET systems were assayed for active protein overexpression. When using BL21 Star (DE3), a significant increase of 60% in expression was observed for the active archaeal chitinase HsChiA1p as compared to that found when using BL21 (DE3), indicating that the rne131 gene mutation efficiently stabilizes the mRNA for HsChiA1p. Using the Codon Adaptation Index value, rare codon analysis of the archaeal HschiA1 and bacterial Ptchi19 genes revealed that both DNA sequences were not optimal for maximal expression in E. coli. Different E. coli host strains possess extra copies of some of the tRNA genes for rare codons. For the Rosetta 2 (DE3) and the BL21 RP (DE3) strains, a significant increase of 40% was reached for the activity of HsChiA1p and PtChi19p. Finally, as part of the protein still remained insoluble, the best conditions for recovering biologically active protein from inclusion bodies were established for each enzyme.

Published

2015

8. Addition of zinc methacrylate in dental polymers: MMP-2 inhibition and ultimate tensile strength evaluation.

Author

Henn S, de Carvalho RV, Ogliari FA, de Souza AP, Line SR, da Silva AF, Demarco FF, Etges A, and Piva E

Subjects

Animals, Culture Media, Conditioned, Enzyme Inhibitors pharmacology, Gingiva enzymology, Materials Testing, Matrix Metalloproteinase 2, Methacrylates pharmacology, Mice, Stress, Mechanical, Tensile Strength, Tissue Culture Techniques, Zinc Compounds pharmacology, Dental Materials chemistry, Matrix Metalloproteinase Inhibitors, Methacrylates chemistry, Polyethylene Glycols chemistry, Polymethacrylic Acids chemistry, Zinc Compounds chemistry

Abstract

This study evaluated the effect of zinc methacrylate (ZM) on the inhibition of matrix metalloproteinase 2 (MMP-2) and the ultimate tensile strength (UTS) of an experimental polymer. Enzymes secreted from mouse gingival tissues were analyzed by gelatin zymography in buffers containing 5 mM CaCl(2) (Tris-CaCl(2)) in 50 mM Tris-HCl buffer with various concentrations of ZM (0.5, 1, 2, 4, 8, and 16 mM). The matrix metalloproteinases present in the conditioned media were characterized by immunoprecipitation. The polymer UTS evaluation was performed in eight groups with various concentrations of ZM (0, 0.5, 1, 2.5, 5, 10, 20, and 30 wt.%), in a mechanical testing machine. MMP-2 (62 kDa) was detected in the zymographic assays and inhibited by ZM in all tested concentrations. UTS data were submitted to one-way ANOVA and Tukey's test (α = 0.05), and no significant differences were observed among groups, except in the polymer containing 30% ZM, presenting a significantly lower value when compared with the control group (p < 0.05). The results suggest that ZM inhibits MMP-2 expression in all concentrations tested, while small concentrations did not affect the ultimate tensile strength of the polymer. Zinc methacrylate is a metalloproteinase inhibitor that can be copolymerized with other methacrylate monomers. Yet, the addition of ZM did not affect the resin bond strength. Thus, in vivo tests should be performed to evaluate the performance of this material.

Published

2012

9. Determination of cadmium in coal using solid sampling graphite furnace high-resolution continuum source atomic absorption spectrometry.

Author

da Silva AF, Borges DL, Lepri FG, Welz B, Curtius AJ, and Heitmann U

Subjects

Hot Temperature, Spectrophotometry, Atomic instrumentation, Cadmium analysis, Coal analysis, Spectrophotometry, Atomic methods

Abstract

This work describes the development of a method to determine cadmium in coal, in which iridium is used as a permanent chemical modifier and calibration is performed against aqueous standards by high-resolution continuum source atomic absorption spectrometry (HR-CS AAS). This new instrumental concept makes the whole spectral environment in the vicinity of the analytical line accessible, providing a lot more data than just the change in absorbance over time available from conventional instruments. The application of Ir (400 microg) as a permanent chemical modifier, thermally deposited on the pyrolytic graphite platform surface, allowed pyrolysis temperatures of 700 degrees C to be used, which was sufficiently high to significantly reduce the continuous background that occurred before the analyte signal at pyrolysis temperatures <700 degrees C. Structured background absorption also occurred after the analyte signal when atomization temperatures of >1600 degrees C were used, which arose from the electron-excitation spectrum (with rotational fine structure) of a diatomic molecule. Under optimized conditions (pyrolysis at 700 degrees C and atomization at 1500 degrees C), interference-free determination of cadmium in seven certified coal reference materials and two real samples was achieved by direct solid sampling and calibrating against aqueous standards, resulting in good agreement with the certified values (where available) at the 95% confidence level. A characteristic mass of 0.4 pg and a detection limit of 2 ng g(-1), calculated for a sample mass of 1.0 mg coal, was obtained. A precision (expressed as the relative standard deviation, RSD) of <10% was typically obtained when coal samples in the mass range 0.6-1.2 mg were analyzed.

Published

2005