Influence of the Encapsulating Agent on the Bioaccessibility of Phenolic Compounds from Microencapsulated Propolis Extract during In Vitro Gastrointestinal Digestion

The aim of this work is to develop different encapsulated propolis ingredients by spraydrying and to evaluate their bioaccessibility using simulated in vitro digestion. To achieve these goals, first, microparticles of a propolis extract with inulin as the coating polymer were prepared under the optimal conditions previously determined. Then, a fraction of inulin was replaced with other encapsulating agents, namely sodium alginate, pectin, and chitosan, to obtain different ingredients with controlled release properties in the gastrointestinal tract. The analysis of the phenolic profile in the propolis extract and microparticles showed 58 compounds tentatively identified, belonging mainly to phenolic acid derivatives and flavonoids. Then, the behavior of the free extract and the formulated microparticles under gastrointestinal conditions was studied through an in vitro gastrointestinal digestion process using the INFOGEST protocol. Digestion of the free extract resulted in the degradation of most compounds, which was minimized in the encapsulated formulations. Thus, all developed microparticles could be promising strategies for improving the stability of this bioactive extract under gastrointestinal conditions, thereby enhancing its beneficial effect.Diputación de Granada, Andalucía-Spain

Characterization and Influence of Static In Vitro Digestion on Bioaccessibility of Bioactive Polyphenols from an Olive Leaf Extract

This research was funded by Ministerio de Ciencia, Innovacion y Universidades under the "Proyectos de I+D+i >" (grant number RTI2018-096724-B-C22); and by Junta de Andalucia, under the "Proyectos I+D+i del Programa Operativo FEDER 2018" (grant number B-AGR-466-UGR18), the "Ayudas a proyectos de I+D+I de entidades privadas calificadas como agentes del sistema andaluz del conocimiento" (grant number PY18-RE-0033), the "Ayudas al funcionamiento de los Grupos operativos de la Asociacion Europea para la Innovacion (AEI) en materia de productividad y sostenibilidad agricolas en el sector del olivar, 2020" (grant number GOPOGR-20-0001), and, finally, the "Ayudas a los agentes publicos del Sistema Andaluz del Conocimiento, para la realizacion de proyectos de I+D+i" (grant number A-AGR-226-AGR20).Olive leaves, one of the most abundant olive production by-products, have shown incredible potential for their characteristic bioactive compound composition, with unique compounds such as the polyphenol oleuropein. In order to evaluate the bioaccessibility of bioactive compounds present in an olive leaf extract, samples were submitted to an in vitro digestion process following INFOGEST protocol, and qualitative and quantitative characterization of the original extract and digestive samples at different times were carried out using HPLC-ESI-TOF-MS. The analyzed extract presented an abundance of phenolic compounds, such as secoiridoids, with oleuropein being the main identified compound. The in vitro digestion process showed an effect on the phenolic profile of the extract, with a lower recovery in the gastric phase and an increase at the beginning of the intestinal phase. Most of the studied compounds showed high bioaccessibility at the end of the digestion, with oleuropein, ligstroside, and quercetin-3-O-galactoside being among the ones with higher value. These findings show the potential for future use of olive leaf polyphenols. However, further research is needed in order to evaluate the absorption, delivery, and interaction of these compounds with the colon.Spanish Government RTI2018-096724-B-C22Junta de Andalucia B-AGR-466-UGR18Ayudas a proyectos de I+D+I de entidades privadas calificadas como agentes del sistema andaluz del conocimiento PY18-RE-0033Ayudas al funcionamiento de los Grupos operativos de la Asociacion Europea para la Innovacion (AEI) en materia de productividad y sostenibilidad agricolas en el sector del olivar, 2020 GOPOGR-20-0001Ayudas a los agentes publicos del Sistema Andaluz del Conocimiento, para la realizacion de proyectos de I+D+i A-AGR-226-AGR2

Enhancing the Production of the Phenolic Extracts of Asparagus Using an Advanced Green Process

Asparagus officinalis L. is a common vegetable widely consumed due to its high consumer acceptance. In addition to its flavor, green asparagus contains a high amount of bioactive compounds with health-promoting effects. In this sense, the growing concern of the public health system to promote a diet with a higher consumption of vegetables makes research on phytochemicals from this food of interest. In order to study the content of bioactive compounds from plant matrices, the combination of advanced extraction and analytical techniques within the context of green chemistry is an indispensable working model in today’s research. In the present experimental work, the composition of the phytochemicals of green asparagus from the Protected Geographical Indication (PGI) located in Huétor Tájar, Granada (Spain), was evaluated by environmentally friendly extraction techniques. In order to carry out this work, the recovery of bioactive compounds was evaluated by pressurized liquid extraction (PLE) using GRAS (Generally Recognized As Safe) solvents (mixtures of water and ethanol). The extraction was optimized using a Response Surface Methodology (RSM) based on a 24 factorial Central Composite Design (CCD). The experimental model was followed by high-performance liquid chromatography coupled to electrospray ionization time-of-flight mass spectrometry (HPLC–ESI-TOF-MS) analytical methodology for a comprehensive characterization. The optimized methodology was compared with conventional solid–liquid extraction protocols using ethanol and water. The results highlighted the potential of advanced PLE techniques compared to conventional systems for the recovery of green asparagus phytochemicals. Moreover, the analytical characterization allowed the identification and quantitation of major phenolic compounds belonging to phenolic acids and flavonoids families. Therefore, an easy, fast, and novel methodology to optimize the extraction of bioactive compounds from green asparagus has been optimized, using Green and GRAS methodology, which enables a better understanding of the bioactive composition of this widely consumed food.University of Granada PPJI2017-08Spanish Government FPU20/0314

Potential Antioxidant and Antiviral Activities of Hydroethanolic Extracts of Selected Lamiaceae Species

Medicinal and aromatic plants (MAPs) are potential sources of natural bioactive phytochemical compounds of an incredible worth for the food industry, such as polyphenols. Lamiaceae medicinal and aromatic plants from Granada’s high plateau, concretely Origanum bastetanum, Thymus zygis gracilis, Thymus longiflorus, Thymus membranaceus and Ziziphora hispanica, were evaluated under different conventional solid–liquid extraction conditions to obtain extracts enriched in bioactive compounds. Phenolic profile was detected by HPLC-QTOF-MS, identifying a high abundance of bioactive constituents. Furthermore, antioxidant and antiviral activities of the mentioned plants were studied as biological properties of interest for the improvement of food shelf-life. Thus, Origanum bastetanum showed the highest antioxidant potential for all assays. Antiviral activity was also tested against some important foodborne viruses, feline calicivirus (FCV), murine norovirus (MNV) and hepatitis A virus (HAV), with the highest activity obtained for Ziziphora hispanica, Thymus longiflorus and Origanum bastetanum. This research proposes the studied plants as rich sources of bioactive compounds with potential use as preservatives in the food industry.Research Group AGR279 Ciencias de la Alimentacion y Nutricion (University of Granada, Spain)Diputacion de GranadaJA PREDOC_0011

Grape and Grape-Based Product Polyphenols: A Systematic Review of Health Properties, Bioavailability, and Gut Microbiota Interactions

Grapevine-derived products have been widely studied for their reported benefits, especially those related to the prevention of cardiovascular diseases. However, in recent years, the interest in the study of grapes and their non-fermented derivatives (grape juices) has gained prominence over the well-known interest in red wine, since grapes and grape juices seem to be widely related to the beneficial effects associated with the Mediterranean diet, and consequently to the presence of phenolic compounds. The focus of this systematic review was the phenolic profiles of grape, juice, and wine, as well as the possible beneficial effects of their consumption on the human microbiota through a systematic literature review. PubMed and Scopus were accessed during April 2021 and the PRISMA methodological protocol was followed. To the best of our knowledge, this is the first time that the PRISMA methodology has been applied to this systematic knowledge. This methodology allowed for a scientific description of: (a) the comparison between grapes and their derived products as source of phenolic compounds, (b) great possibilities for working on a new line of investigation based on the synergy between polyphenol consumption and microbiota, and (c) the urgent need for strategies to improve the bioavailability of these compounds

Analysis and Screening of Commercialized Protein Supplements for Sports Practice

Recent years have seen a rise in the popularity of the consumption of sports-related supplements. However, the hypothesis is raised that it is necessary to analyze the quality aspects of these supplements in relation to the information provided on the label, to avoid associated risks and obtain the greatest possible benefit from their consumption. Therefore, the aim of this study has been to carry out an analysis or screening of the protein supplements that are currently marketed in Spain. We analyzed the labels of 52 protein sports supplements available both in physical stores and online. The analysis consisted of addressing three relevant aspects considering the labeling: (a) the legislative framework in which the supplements are marketed, (b) the quality of the protein, and (c) the presence of other ingredients according to the specifications of the label. In the legislative context, there do not seem to be any specific regulations to guarantee consumer protection, which can lead to unfair practices and misleading advertising. Most of the supplements analyzed to comply with the requirements of their current regulations. However, claims about their benefits that are not allowed under European legislation have been found in some of them. Regarding composition and according to label information, the supplements have been found to provide a sufficient dose of protein in terms of recommended protein intake per serving. Regarding the presence of other ingredients and according to the information on the label, most of them, except for egg supplements, contain other ingredients. Colostrum was also found in one of the supplements evaluated. The conclusions of the study reveal that, due to a lack of knowledge or misleading advertising practices, supplements are often not used properly. The information provided is essential for both professionals and consumers to avoid the risks associated with consumption, such as unintentional doping, interactions between ingredients that reduce the quality of the supplement, and consumption of supplements inappropriately, among others

Rosmarinus Officinalis Leaves as a Natural Source of Bioactive Compounds

In an extensive search for bioactive compounds from plant sources, the composition of different extracts of rosemary leaves collected from different geographical zones of Serbia was studied. The qualitative and quantitative characterization of 20 rosemary (Rosmarinus officinalis) samples, obtained by microwave-assisted extraction (MAE), was determined by high performance liquid chromatography coupled to electrospray quadrupole-time of flight mass spectrometry (HPLC–ESI-QTOF-MS). The high mass accuracy and true isotopic pattern in both MS and MS/MS spectra provided by the QTOF-MS analyzer enabled the characterization of a wide range of phenolic compounds in the extracts, including flavonoids, phenolic diterpenes and abietan-type triterpenoids, among others. According to the data compiled, rosemary samples from Sokobanja presented the highest levels in flavonoids and other compounds such as carnosol, rosmaridiphenol, rosmadial, rosmarinic acid, and carnosic acid. On the other hand, higher contents in triterpenes were found in the extracts of rosemary from Gložan (Vojvodina).This work was financially supported by the Ministry of Education, Science and Technological Development of the Republic of Serbia through a national project (Project Number TR 31014) and through scientific and technological cooperation between the Republic of Serbia and Spain (Project Number RE451-03-02635/2011-14/4). The authors are also grateful to the Spanish Ministry of Science and Innovation for the project AGL2011-29857-C03-02 and the grant FPI BES-2009-028128, Andalusian Regional Government Council of Innovation and Science for the Excellence Projects P09-CTS-4564, P10-FQM-6563 and P11-CTS-762

HPLC-ESI-QTOF-MS as a powerful analytical tool for characterising phenolic compounds in olive-leaf extracts

[Introduction]: Olea europaea L. leaves may be considered a cheap, easily available natural source of phenolic compounds. In a previous study we evaluated the possibility of obtaining bioactive phenolic compounds from olive leaves by pressurised liquid extraction (PLE) for their use as natural anti-oxidants. The alimentary use of these kinds of extract makes comprehensive knowledge of their composition essential. [Objective]: To undertake a comprehensive characterisation of two olive-leaf extracts obtained by PLE using high-performance liquid chromatography coupled to electrospray ionisation and quadrupole time-of-flight mass spectrometry (HPLC-ESI-QTOF-MS). [Method]: Olive leaves were extracted by PLE using ethanol and water as extraction solvents at 150°C and 200°C respectively. Separation was carried out in a HPLC system equipped with a C 18-column working in a gradient elution programme coupled to ESI-QTOF-MS operating in negative ion mode. [Results]: This analytical platform was able to detect 48 compounds and tentatively identify 31 different phenolic compounds in these extracts, including secoiridoids, simple phenols, flavonoids, cinnamic-acid derivatives and benzoic acids. Lucidumoside C was also identified for the first time in olive leaves. [Conclusion]: The coupling of HPLC-ESI-QTOF-MS led to the in-depth characterisation of the olive-leaf extracts on the basis of mass accuracy, true isotopic pattern and tandem mass spectrometry (MS/MS) spectra. We may conclude therefore that this analytical tool is very valuable in the study of phenolic compounds in plant matrices. Copyright © 2012 John Wiley & Sons, Ltd.This work was supported by the projects AGL2008-05108-C03-03/01 and AGL2011-29857-C03-02 of the Spanish Ministry of Science and Innovation; P09-CTS-4564, P10-FQM-6563 and P11-CTS-7625 of the Andalusian Regional Government Council of Innovation and Science, and GREIB.PT.2011.18. The authors are grateful to the Spanish Ministry of Science and Innovation for FPU grant AP2007-03246 and a ‘Ramón y Cajal’ research contract.Peer Reviewe

Green downstream processing using supercritical carbon dioxide, CO2-expanded ethanol and pressurized hot water extractions for recovering bioactive compounds from Moringa oleifera leaves

A green platform based on a three-step downstream processing including the use of supercritical carbon dioxide (ScCO), carbon dioxide-expanded ethanol (CXE) and pressurized hot water (PHWE) extractions has been developed to obtain different fractions from Moringa oleifera leaves. Each process was optimized based on the extraction yield. Optimal extracts were functionally characterized by measuring total phenolic (TPC) and total flavonoid contents (TF). The antioxidant activity by TEAC assay was also tested. Moreover, a chemical characterization of the extracts was performed by GC-MS and HPLC-ESI-QTOF-MS. The extraction yields of the optimized process were 3.1, 29.5 and 30.2% respectively. The extraction of total phenolics was higher in PHWE than in CXE extract (62.4 vs. 20.3 mg GAE/g leaves) while TF showed the opposite (3.8 vs. 9.6 mg quercetin/g leaves respectively). ScCO fraction was rich in fatty acids such as α-linoleic acid and alkanes. CXE fraction was richer in glycosylated flavonoids than PHWE while the latest fraction was richer in phenolic acids, which could explain the higher antioxidant activity of this fraction (13.4 mmol Eq trolox/100 g dry leaves) compared to CXE (6 mmol Eq trolox/100 g dry leaves).This work was supported by projects AGL2014-53609-P and AGL2011-29857-C03-02 (Spanish Ministry of Economy and Competitiveness (MINECO)), as well as P09-CTS-4564, P10-FQM-6563 and P11-CTS-7625 (Andalusian Regional Government Council of Innovation and Science). The authors are grateful to the for a FPU fellowship AP2010-1551 (Spanish Ministry of Science and Innovation) (C. Rodríguez-Pérez), and a grant “Personal técnico de apoyo”PTA2012-6956-E (R. Quirantes-Piné).Peer Reviewe

Evaluation of Olive Leaf Phenolic Compounds’ Gastrointestinal Stability Based on Co-Administration and Microencapsulation with Non-Digestible Carbohydrates

The large generation of olive by-products has motivated their revalorization into highadded- value products. In this regard, olive leaves pose as an interesting source of bioactive compounds, due to their phenolic content with commonly known antioxidant, anti-inflammatory, and immunomodulatory properties, with potential application in non-communicable diseases. However, their effectiveness and applicability into functional foods is limited by their instability under gastrointestinal conditions. Thus, the development of protective formulations is essential. In this study, the spray-drying encapsulation of a phenolic-rich olive leaf extract with inulin as the encapsulating agent was optimized. Then, the behavior of the free extract under gastrointestinal conditions, its co-administration with the encapsulating agent, and the optimized microencapsulated formulation were studied through an in vitro gastrointestinal digestion process following the INFOGEST protocol. Digestion of the free extract resulted in the degradation of most compounds, whereas this was minimized in the co-administration of the non-encapsulated extract with the encapsulating agent. This protective effect, related to its interaction with inulin, was similar to the microencapsulated formulation. Thus, both approaches, co-administration and microencapsulation with inulin, could be promising strategies for the improvement of the stability of these anti-inflammatory and immunomodulatory compounds under gastrointestinal conditions, enhancing their beneficial effect.“Consejería de Transformación Económica, Industria, Conocimiento y Universidades de la Junta de Andalucía” (INTESOLIVE project, PY18-RE-0033)Grant TED2021-132489A-I00 funded by MCIN/AEI/10.13039/501100011033 and European Union NextGenerationEU/PRTRRegional Government of Andalucía for a predoctoral contract (PREDOC_00110)Doctoral Program in Nutrition and Food Sciences, University of Granada“Consejería de Transformación Económica, Industria, Conocimiento y Universidades de la Junta de Andalucía” for a postdoctoral researcher contract (POSTDOC_21_00031