Browsing by Author "Maciel, Giselle Maria"
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- Bioaccessibility Performance of Phenolic Compounds from Red Fruits During Simulated Gastrointestinal Digestion and Colonic FermentationPublication . Bortolini, Débora Gonçalves; Barros, Lillian; Maciel, Giselle Maria; Peralta, Rosane M.; Corrêa, Vanesa G.; Finimundy, Tiane Cristine; Haminiuk, Charles Windson IsidoroRed fruits are rich in phenolic compounds, particularly anthocyanins, which contribute to their vibrant colors and health benefits. However, anthocyanins are chemically sensitive during digestion, which affects their bioaccessibility. This study evaluated the impact of simulated gastrointestinal digestion on whole red fruits (oral, gastric, intestinal, and colonic phases). Total phenolic content (TPC) ranged from 8.60−50.41 mg GAE/g DW, total flavonoid content (TFC) from 1.66−10.67 mg CAT/g DW, and total monomeric anthocyanins (TMA) from 0.54−1.28 mg CYA/g DW. Antioxidant activity strongly correlated with TPC (r ≥ 0.91). High-phenolic fruits showed lower bioaccessibility compared with low-phenolic ones. HPLC-DAD-ESI/MSn identified glycosylated anthocyanins, which were highly sensitive; jaboticaba anthocyanins were nonbioaccessible, while 51.83% remained bioaccessible in raspberries. Colonic fermentation further reduced TPC and TFC, and anthocyanins were entirely degraded. These results highlight the need for innovative delivery systems to improve anthocyanin bioaccessibility and functional benefits.
- Bioactive profile of edible nasturtium and rose flowers during simulated gastrointestinal digestionPublication . Bortolini, Débora Gonçalves; Barros, Lillian; Maciel, Giselle Maria; Brugnari, Tatiane; Modkovski, Tatiani Andressa; Fachi, Mariana Millan; Pontarolo, Roberto; Pinela, José; Ferreira, Isabel C.F.R.; Haminiuk, Charles Windson Isidoronot widely explored. The gastrointestinal environment can modify these compounds, resulting in new combinations with different bioactivity. This study aimed to evaluate the effects of simulated gastrointestinal digestion (SGD) on rose and nasturtium flower extracts. Using UPLC-HRMS, 38 phenolic compounds were identified, and the SGD caused significant changes, mainly in the glycosylated phenolic. Furthermore, antioxidant activity was correlated with the increase in the concentrations of some polyphenols. Tested Gram-negative bacteria showed sensitivity to the flower extracts; their growth was inhibited by up to 82.7%. SGD interrupted the bacterial growth inhibition power of the rose extracts. On the other hand, an increase in inhibition ranging from 52.25 to 54.72% was found for nasturtium extracts, correlated to the behavior of some bioactive. Hence, SGD resulted in significant changes in phenolic profiles of the edible flowers, increasing antioxidant activity and changing antimicrobial effects.
- Biosorption of bioactive compounds in bacterial nanocellulose: mechanisms and physical-chemical propertiesPublication . Fernandes, Isabela de Andrade Arruda; Maciel, Giselle Maria; Ribeiro, Isabela Sampaio; Pedro, Alessandra Cristina; Bortolini, Débora Gonçalves; Ribeiro, Valeria Rampazzo; Barros, Lillian; Haminiuk, Charles Windson IsidoroBacterial cellulose (BC) is a biomaterial produced by Gluconacetobacter xylinus, with wide applicability in different areas, such as biomedical, pharmaceutical, and food. BC production is usually carried out in a medium containing phenolic compounds (PC), such as teas, however, the purification process leads to the loss of such bioactive. Thus, the innovation of this research consists of the reincorporation of PC after the purification of the BC matrices through the biosorption process. In this context, the effects of the biosorption process in BC were evaluated to maximize the incorporation of phenolic compounds from a ternary mixture of hibiscus (Hibiscus sabdariffa), white tea (Camellia sinensis), and grape pomace (Vitis labrusca). The biosorbed membrane (BC-Bio) showed a great concentration of total phenolic compounds (TPC = 64.89 mg L-1) and high antioxidant capacity through different assays (FRAP: 130.7 mg L-1, DPPH: 83.4 mg L-1, ABTS: 158.6 mg L-1, TBARS: 234.2 mg L-1). The physical tests also indicated that the biosorbed membrane presented high water absorption capacity, thermal stability, low permeability to water vapor and improved mechanical properties compared to BC-control. These results indicated that the biosorption of phenolic compounds in BC efficiently increases bioactive content and improves physical membrane characteristics. Also, PC release in a buffered solution suggests that BC-Bio can be used as a polyphenol delivery system. Therefore, BC-Bio is a polymer with wide application in different industrial segments.
- New phytochemicals as potential human anti-aging compounds: reality, promise, and challengesPublication . Corrêa, Rúbia C.G.; Peralta, Rosane M.; Haminiuk, Charles Windson Isidoro; Maciel, Giselle Maria; Bracht, Adelar; Ferreira, Isabel C.F.R.Aging is an inevitable process influenced by genetic, lifestyle, and environmental factors. Indirect evidence shows that several phytochemicals can have anti-aging capabilities, although direct evidence in this field is still limited. This report aims to provide a critical review on aspects related to the use of novel phytochemicals as anti-aging agents, to discuss the obstacles found when performing most anti-aging study protocols in humans, and to analyze future perspectives. In addition to the extensively studied resveratrol, epicatechin, quercetin, and curcumin, new phytochemicals have been reported to act as anti-aging agents, such as the amino acid L-theanine isolated from green tea, and the lignans arctigenin and matairesinol isolated from Arctium lappa seeds. Furthermore, this review discusses the application of several new extracts rich in phytochemicals with potential use in anti-aging therapies. Finally, this review also discusses the most important biomarkers to test anti-aging interventions, the necessity of conducting epidemiological studies and the need of clinical trials with adequate study protocols for humans.
- The past decade findings related with nutritional composition, bioactive molecules and biotechnological applications of Passiflora spp. (passion fruit)Publication . Corrêa, Rúbia C.G.; Peralta, Rosane M.; Haminiuk, Charles Windson Isidoro; Maciel, Giselle Maria; Bracht, Adelar; Ferreira, Isabel C.F.R.Background: For centuries, Passiflora species have been used in folk medicine, especially as sedatives and anxiolytics, and in recent decades have been exploited by the food, pharmaceutical and cosmetics industries. Currently, the concentrated juice manufacture is the most impacting activity involving Passiflora spp., since its market is expanding worldwide. Such a wide-scale passion fruit processing inevitably ends up generating huge amounts of wastes (i.e., seeds, rinds and bagasse), as it corresponds to more than a half of the fruit mass. Scope and Approach: The present review aims to summarize and evaluate the past decade findings related with nutritional composition, bioactive molecules and biotechnological applications of Passiflora spp., with special attention to the potentialities of its co-products. Key Findings and Conclusions: A series of emerging technologies firmed on non-thermal principals, along with encapsulation by nanoparticles methods, have been studied for the sustainable recovery of some target high added-value compounds from Passiflora spp. and their co-products, which include biologically active components such as polyphenols, terpenes, peptides, polysaccharides and dietary fibers. In addition, the passion fruit co-products are promising (and still underutilized) agents of bioconversion and bioremediation, besides low-cost functional ingredients for both cosmetic and food industry.