Browsing by Author "Oliveira, Anielle"
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- Analytical validation of an ultraviolet–visible procedure for determining vitamin D3 in vitamin D3-loaded microparticles and toxigenetic studies for incorporation into foodPublication . Silva, Tamires Barlati Vieira; Oliveira, Anielle; Moreira, Thaysa Fernandes Moya; Silva, Kelly Cristina; Zanin, Rodolfo Campos; Bona, Evandro; Gonçalves, Odinei Hess; Shirai, Marianne Ayumi; Peron, Ana Paula; Leimann, Fernanda VitóriaVitamin D is a water-insoluble compound presented in two main forms (D2 and D3), susceptible to environmental conditions. Microencapsulation is an alternative to supplements and preserve vitamin D properties in foods. Entrapment efficiency (EE) is the main property to evaluate the encapsulation effectiveness and therefore it is of interest the study of analytical methods for the identification and quantification of this compound within the particle. This paper describes a low cost UV–Vis methodology validation to the identification and quantification of vitamin D3 in microparticles produced by hot homogenization. The method was validated following the International Conference on Harmonization (ICH) guidelines. To guarantee safe application in foodstuff, microparticles toxigenicity was evaluated with Allium cepa L. in vivo model, showing no cytotoxic nor genotoxic potential. High entrapment efficiency was obtained, the results also demonstrated that the concentration of vitamin D3 in microparticles can be safely accessed by the validated method.
- Antibacterial efficacy of Enterococcus microencapsulated bacteriocin on Listeria monocytogenes, Listeria innocua and Listeria ivanoviPublication . Ramalho, Regiane; Souza, Nathália A.A. de; Moreira, Thaysa Fernandes Moya; Oliveira, Anielle; Perini, Hugo Felix; Furlaneto, Márcia Cristina; Leimann, Fernanda Vitória; Furlaneto-Maia, LucianaThis study focused on the microencapsulation of enterocin from Enterococcus durans (E. durans MF5) in whey powder (WP) using a spray-drying technique followed by the evaluation of how complexation can preserve the enterocin structure and antimicrobial activity against foodborne pathogens. Crude enterocin samples (1 and 5%) were microencapsulated in 10% WP. The antimicrobial activity of unencapsulated (crude) enterocin and microencapsulated enterocin was tested against the target bacteria Salmonella Typhimurium, Escherichia coli, Listeria monocytogenes, Listeria innocua, and Listeria ivanovi. The microencapsulation yields were 31.66% and 34.16% for concentrations of 1 and 5% enterocin, respectively. There was no significant difference between these concentrations. Microencapsulated enterocin was efficient for up to 12 h of cocultivation with Listeria sp., and the concentration required to inhibit the growth of target bacteria presented values of 6400 AU/ mL (arbitrary unit). Microencapsulated enterocin demonstrated enhanced efficacy against Listeria species and E. coli when compared with crude enterocin (p < 0.05). Fourier transform-infrared spectroscopy and differential scanning calorimetry results confirmed the presence of enterocin in the microparticles. Scanning electron microscopy showed cell damage of the target bacteria. The results showed that complexation with WP preserved enterocin antimicrobial activity during spray-drying, indicating its potential use as a food preservative.
- Araucaria angustifolia (Bertol.) Kuntze extract as a source of phenolic compounds in TPS/PBAT active filmsPublication . Silva, Tamires Barlati Vieira; Moreira, Thaysa Fernandes Moya; Oliveira, Anielle; Bilck, Ana Paula; Gonçalves, Odinei Hess; Ferreira, Isabel C.F.R.; Barros, Lillian; Barreiro, M.F.; Yamashita, Fabio; Shirai, Marianne Ayumi; Leimann, Fernanda VitóriaThere is growing interest in the development of biodegradable packaging materials containing natural antioxidant extracts. In this sense, the use of extracts obtained from agro-industrial byproducts has proved to be a sustainable alternative. In this study, Pinhão extract, a byproduct of Pinhão (Araucaria angustifolia (Bertol.) Kuntze) seed consumption, was characterized by HPLC-DAD-ESI/MSn, demonstrating the presence of eight phenolic compounds, (+)-catechin and (−)-epicatechin being the most abundant molecules. TPS/PBAT films containing Pinhão extract were produced by blown extrusion and their properties (tensile properties, thermal characteristics and microstructure) were evaluated in order to determine the effect of the presence of extracts. Results suggested that the interaction between the phenolic compounds of the extract and the polymeric matrix caused the reduction in the crystallinity degree, and an increase in the starch glass transition temperature. The presence of Araucaria angustifolia (Bertol.) Kuntze extract significantly (p < 0.05) affected the color and opacity of the film. Regarding water vapor permeation, no significant difference (p > 0.05) was detected. However, the water solubility and the contact angle with water (polar solvent) and diiodomethane (non-polar solvent) significantly changed due to the extract addition. Moreover, the Pinhão extract conferred significant antioxidant capacity to the TPS/PBAT films as determined by DPPH, suggesting that this material can be applied as an active packaging material.
- Bioactivity screening of pinhão (Araucaria Angustifolia (Bertol.) Kuntze) seed extracts: the inhibition of cholinesterases and α-amylases, and cytotoxic and anti-inflammatory activitiesPublication . Oliveira, Anielle; Moreira, Thaysa Fernandes Moya; Pepinelli, Ana Luísa; Costa, Luis Gustavo Médice Arabel; Leal, Luana Eloísa; Silva, Tamires Barlati Vieira; Gonçalves, Odinei Hess; Ineu, Rafael P.; Dias, Maria Inês; Barros, Lillian; Abreu, Rui M.V.; Ferreira, Isabel C.F.R.; Bracht, Lívia; Leimann, Fernanda VitóriaThe objective of this work was to determine the potential bioactive properties of extracts from bio-residues of pinhão (Araucaria angustifolia (Bertol.) Kuntze) seeds, namely the α-amylase and cholinesterase inhibition, cytotoxicity, and anti-inflammatory properties. The pinhão extracts evaluated were obtained from cooking water (CW) and as an ethanolic extract from residual pinhão seed shells (PS). Catechin was the major compound found in both extracts. The PS extract presented higher antioxidant levels and the better inhibition of human salivary and porcine pancreatic α-amylases when compared to the CW extract. Also, based on in vivo evaluations, the PS extract did not differ significantly from acarbose when compared to a control group. The most potent inhibitor of cholinesterases was the CW extract. No cytotoxicity toward normal cells was detected, and neither extract showed anti-inflammatory activity. The PS extract presented cytotoxic activity toward non-small-cell lung, cervical, hepatocellular and breast carcinoma cell lines. Overall, the results demonstrated the potential bioactivity of extracts obtained from pinhão bioresidues.
- Effect of Curcuma longa L. extract and curcumin on porcine pancreatic α-amylase structure and activityPublication . Oliveira, Grazielle; Kaspchak, Elaine; Oliveira, Anielle; Leimann, Fernanda Vitória; Philippsen, Gisele Strieder; Seixas, Flávio Augusto Vicente; Igarashi-Mafra, Luciana; Mafra, Marcos R.This work aimed to evaluate alpha-amylase activity and structure in the presence of Curcuma longa L. extracts obtained with deep eutectic solvent (DES) and curcumin. Isothermal titration calorimetry (ITC), fluorescence, circular dichroism (CD), and molecular docking were applied to study the effect of additives on enzyme activity and structure. Results showed that in the presence of turmeric extracts, there was a lower catalytic rate. Through the ITC analysis, a lower reaction rate was noticed, related to the inhibition of the enzymatic activity, both in the presence of the extract and of curcumin. The turmeric extracts interacted with the enzyme by a static mechanism as demonstrated by fluorescence. CD showed an increase in negative bands characteristic of hydrophobic interactions between the enzyme and the samples, which probably difficult the access of substrate to the enzyme's active site. Molecular docking showed that curcumin is capable to interact with the active site of alpha-amylase confirming results obtained by other techniques. Results presented in this work show the turmeric extracts potential for alpha-amylase inhibition which may be of interest to the pharmaceutical and food industry.
- Enhancement of fish protein hydrolysates for salad dressing through high shear and sterilization pre‐treatmentsPublication . Moreira, Thaysa F. M.; Oliveira, Anielle; Rodrigues, Vanessa de Carvalho; Carvalho, Amarilis Santos; Quichaba, Michely B.; Peron, Ana P.; Gonçalves, Odinei Hess; Gozzo, Angela M.; Leimann, Fernanda Vitória; Ribeiro, Ricardo P.Thermal and mechanical treatments may affect the structure of hydrolyzed proteins, thus influencing the obtaining of peptides with improved bioactivity. In this work, tila- pia muscle was treated by thermal sterilization or homogenization with ultra-turrax (UT) and hydrolyzed with alcalase to obtain FPHs with antioxidant properties in salad dressing. To evaluate the bioactive potential of FPHs, the acetylcholinesterase inhibi- tion assay was applied, resulting in up to 45.87% inhibition for the UT sample (60 mg/mL). Also, no cytotoxicity was detected by Allium cepa model for all FPHs. The emulsifying activity index and emulsifying stability index of FPHs indicated better emulsifying capacity in basic pH. As a proof of concept, FPHs were used as an emulsi- fying/antioxidant agent to prepare a salad dressing. FPHs increased the formulation's protein content, pseudoplastic behavior, color, and texture. In addition, FPHs aided the oxidative stability of salad dressing (evaluated by oil's extinction coefficient), dem- onstrating potential application in emulsified foods by acting on the elimination of radicals generated in lipid oxidation. Practical applications Fish protein hydrolysates (FPHs) offer diverse bioactive properties such as antioxi- dant, antimicrobial, anticancer, antihypertensive, and acetylcholinesterase (associated with Alzheimer's disease) inhibitory effects. However, optimizing their technological properties poses a challenge, affecting applicability and bioactivity. Industrial pro- cesses such as thermal and mechanical treatments can alter protein structures, influencing peptide bioactivity post enzymatic hydrolysis. This study investigates the impact of substrate pre-treatments, sterilization via thermal heating, and homogeniza- tion using a rotor-stator system (ultra-turrax) on FPHs' technological properties after hydrolysis with alcalase, including emulsifying capacity and acetylcholinesterase inhibitory capacity. In addition, it explores the application of pre-treated FPHs in a real food system (French salad dressing), assessing rheological properties, texture, and oxidative stability. Such evaluations are crucial for ensuring the feasibility of industrial FPHs production and their application.
- Extraction of bioactive compounds from Curcuma longa L. using deep eutectic solvents: in vitro and in vivo biological activitiesPublication . Oliveira, Grazielle; Marques, Caroline; Oliveira, Anielle; Santos, Amanda de Almeida; Amaral, Wanderlei; Ineu, Rafael P.; Leimann, Fernanda Vitória; Peron, Ana Paula; Igarashi-Mafra, Luciana; Mafra, Marcos R.In this work, deep eutectic solvents (DES-based menthol and cholinium chloride) and the ethanol, temperature, and times were selected to extract bioactive compounds from the rhizome, leaves, and flowers Curcuma longa L., using ultrasound-assisted extraction. Analyzes antioxidant, flavonoids, antimicrobial, chelation Fe2+, inhibition of the cholinesterase's enzymes, cytotoxicity, and genotoxicity in Allium cepa cells were performed. The extracts showed results of iron chelation and antibacterial. Curcuma flowers and leaves' extracts inhibited food spoilage bacteria with values above 45%, with substantial iron-chelating activity above 50%. Extracts obtained by DES based on menthol and lactic acid exhibited a high percentage of inhibition of acetyl and butyryl cholinesterase. In contrast, flower extracts obtained by menthol and acetic acid showed low inhibition of cholinesterase enzyme activity. No extract showed cytotoxicity and genotoxicity. Biological activities showed a high potential for the application of these extracts in the food and pharmaceutical industries.
- Green-based processes applied for valorization of peanut by-product: In vitro evaluation of antioxidant and enzymatic inhibition capacitiesPublication . Sorita, Guilherme Dallarmi; Oliveira, Anielle; Moreira, Thaysa Fernandes Moya; Leimann, Fernanda Vitória; Ferreira, Sandra R.S.Peanut (Arachis hypogea L.) industrial processing generates underused by-products, which are mostly discharged. In this work, extracts from peanut by-product were obtained by Supercritical Fluid Extraction (SFE), Pressurized Liquid Extraction (PLE) and Subcritical Water Extraction (SWE), and compared to Soxhlet (SOX). Yield values varied from 12.94% to 37.65% for SOX-water and SWE, respectively. The quality of the extracts was evaluated by total phenolic content (TPC), antioxidant and enzymatic inhibition potentials, and fatty acids profile. Best TPC performance and high antioxidant capacity were obtained from samples using ethanol/water by PLE and Soxhlet. High inhibition of human salivary α-amylase was achieved by PLE and Soxhlet samples recovered with ethanol/ water mixture. The inhibition of porcine pancreatic α-amylase was higher from samples by SFE and Soxhlet with ethanol. High-pressure methods are appealing alternatives for the recovery of bioactive extracts from peanut byproducts, with functional properties and potential inhibitor of digestive enzymes.
- In situ extraction/encapsulation of olive leaves antioxidants in zein for improved oxidative stability of edible oilsPublication . Carvalho, Amarilis Santos; Oliveira, Anielle; Moreira, Thaysa Fernandes Moya; Costa, Luis Gustavo Médice Arabel; Marcatto, Gabrielle Donato; Melo, André da Silva Castilhos de; Gonçalves, Odinei Hess; Dias, Maria Inês; Calhelha, Ricardo C.; Barros, Lillian; Valderrama, Patrícia; Cardozo-Filho, Lucio; Leimann, Fernanda VitóriaThis study presents a sustainable and cost-effective method for preserving the bioactivity of phenolic compounds in olive leaves (OLE) during their application. The extraction and nanoencapsulation of OLE were performed in a single-step process using a rotor-stator system with zein as the encapsulating agent. The nanoprecipitation step was carried out using an aqueous sodium caseinate solution, resulting in spherical particles with an average diameter of about 640 nm, as confirmed by Transmission Electron Microscopy. Thermal characterization showed that the produced nanoparticles were more thermally stable than free OLE until 250 degrees C, and FTIR spectra indicated effective interaction between the phenolic compounds and zein. Antioxidant activity was evaluated using TBARS, DPPH, ABTS, and FRAP assays, with results showing that encapsulated OLE had lower antioxidant activity than free OLE. The best antioxidant capacity results were determined by TBARS assay, with IC50 results equal to 43 and 103 & mu;gOLE/mL for free and encapsulated OLE, respectively. No anti-inflammatory potential was detected for both samples using the RAW 264.7 model, and only free OLE showed cytotoxic activity against lung cancer and gastric carcinoma. Encapsulated and free OLE were used as antioxidants in soy, palm, and palm kernel oils and compared to BHT using Rancimat. The Schaal Oven Test was also performed, and the PARAFAC chemometric method analyzed the UV-Vis spectra, which revealed high stability of the oil when 300 mg or the nanoparticles were added per kg oil. Results suggested that zein-encapsulated olive leaf antioxidants can improve the oxidative stability of edible oils.
- Optimization of pinhão extract encapsulation by solid dispersion and application to cookies as a bioactive ingredientePublication . Oliveira, Anielle; Moreira, Thaysa Fernandes Moya; Pepinelli, Ana Luísa; Costa, Luis Gustavo Médice Arabel; Silva, Tamires Barlati Vieira; Coqueiro, Aline; Fuchs, Renata Hernandez Barros; Dias, Maria Inês; Ferreira, Isabel C.F.R.; Barros, Lillian; Gonçalves, Odinei Hess; Bracht, Lívia; Leimann, Fernanda VitóriaPinhão residues have a wide range of bioactive compounds and encapsulation can be one of the alternatives to increase their bioavailability. Thus, this work aimed to apply pinhão extract, pure and encapsulated by solid dispersion, in the formulation of cookies as a bioactive ingredient. For that, pinhão extract was encapsulated in different biopolymers (sodium caseinate, gelatin, and gum arabic) and with different shear mechanisms (sonication, Ultra-Turrax, and magnetic stirring). The best encapsulation procedure has been defined by a chemometric analysis (hierarchical cluster analysis), considering thermal properties (DSC) of particles and ( +)-catechin encapsulation efficiency (HPLC). The optimized conditions were gelatin as encapsulation agent and Ultra-Turrax as shear mechanism (70.1 ± 2.8 °C maximum endothermic peak temperature and 96.0 ± 2.3% ( +)-catechin encapsulation efficiency). The phenolic profile of the encapsulated extract showed the presence of ( +)-catechin (0.31 ± 0.01 (mg/gparticle), protocatechuic acid (0.29 ± 0.00 mg/gparticle), and ( −)-epicatechin (0.11 ± 0.00 mg/ gparticle). Both the pure and encapsulated extracts were incorporated into the cookie formulation, which was characterized in terms of centesimal composition, color parameters, texture, and sensory aspects. It was found that cookies with the pure and the encapsulated extract showed significant differences concerning the centesimal composition, products added with pinhão extract and encapsulated extract presented higher values when compared to the control, probably influenced by the mineral content of the pinhão. In addition, higher hardness values were detected for cookies formulated with the encapsulated extract, which possibly negatively affected the consumer’s sensory perception.