178 research outputs found
Effects of Dietary Fiber Intake on Cardiovascular Risk Factors
A healthy dietary pattern is characterized by a high consumption of non-refined grains,
legumes, nuts, fruits and vegetables; relatively high intake of total fat, mainly derived from
olive oil; moderate to high intake of fish and poultry; dairy products (usually as yogurt or
cheese) in small amounts; low consumption of red meat and meat products; and moderate
alcohol intake, usually in the form of red wine with meals (Willett et al., 1995). Therefore, a
high consumption of fiber-rich foods is one of the characteristic features of a healthy diet.
Dietary fiber (DF) has received much attention in nutritional epidemiology. Observational
studies have consistently shown that DF intake is associated with reduced cardiovascular
risk, including ischemic heart disease (Rimm et al., 1996a; Todd et al., 1999; Liu et al., 2002;
Mozaffarian et al., 2003a) and stroke (Ascherio et al., 1998; Oh et al., 2005; Salmeron et al.,
1997)), and a lower risk of diabetes (Meyer et al., 2000; Liu, 2003b). Clinical trials have also
suggested that DF supplementation has beneficial effects on risk factors, such as blood
pressure, serum lipids, insulin sensitivity and diabetic metabolic control (Streppel et al.,
2005b; Brown et al., 1999; Anderson et al., 2000; Chandalia et al., 2000a; Ludwig et al., 1999)
The hidden face of wine polyphenol polymerization highlighted by high resolution mass spectrometry
Polyphenols, including tannins and red anthocyanin pigments, are responsible for the color, taste, and beneficial health properties of plant-derived foods and beverages, especially in red wines. Known compounds represent only the emerged part of the "wine polyphenol iceberg". It is believed that the immersed part results from complex cascades of reactions involving grape polyphenols and yeast metabolites. We used a nontargeted strategy based on high-resolution mass spectrometry and Kendrick mass defect plots to explore this hypothesis. Reactions of acetaldehyde, epicatechin, and malvidin-3-O-glucoside, representing yeast metabolites, tannins, and anthocyanins, respectively, were selected for a proof-of-concept experiment. A series of compounds including expected and so-farunknown structures were detected. Random polymerization involving both the original substrates and intermediate products resulting from cascade reactions was demonstrated
Effects of red wine and different doses of polyphenols from dealcoholised red wine on endothelial function in subjects with metabolic syndrome
Podeu consultar el III Workshop anual INSA-UB complet a: http://hdl.handle.net/2445/118993Sessió 1. Pòster núm.
Beer Polyphenols and Menopause: Effects and Mechanisms-A Review of Current Knowledge
Beer is one of the most frequently consumed fermented beverages in the world, and it has been part of the human diet for thousands of years. Scientific evidence obtained from the development of new techniques of food analysis over the last two decades suggests that polyphenol intake derived from moderate beer consumption may play a positive role in different health outcomes including osteoporosis and cardiovascular risk and the relief of vasomotor symptoms, which are commonly experienced during menopause and are an important reason why women seek medical care during this period; here, we review the current knowledge regarding moderate beer consumption and its possible effects on menopausal symptoms. The effect of polyphenol intake on vasomotor symptoms in menopause may be driven by the direct interaction of the phenolic compounds present in beer, such as 8-prenylnaringenin, 6-prenylnaringenin, and isoxanthohumol, with intracellular estrogen receptors that leads to the modulation of gene expression, increase in sex hormone plasma concentrations, and thus modulation of physiological hormone imbalance in menopausal women. Since traditional hormone replacement therapies increase health risks, alternative, safer treatment options are needed to alleviate menopausal symptoms in women. The present work aims to review the current data on this subject
Targeted metabolic profiling of the revived ancient ‘Corbella’ olive cultivar during early maturation
‘Corbella’ is an ancient olive cultivar whose cultivation has recently been revived and hence little is known about
its composition. This is the first work studying the metabolic profile of ‘Corbella’ olives during early maturation.
Olives with a ripening index (RI) < 1 yielded considerably less oil content (<40%) but had more concentration of
phenolic compounds (148.41–219.70 mg/kg), carotenoids (9.61–14.94 mg/kg) and squalene (521.41–624.40
mg/kg). Contrarily, the levels of α-tocopherol were higher at the RI of 1.08 and 1.96 (64.57 and 57.75 mg/kg,
respectively). The most abundant phenolic compound was oleuropein aglycone (>50% of the phenolic composition), suggesting a high hydrolytic activity of β-glucosidase in the fruit. The antioxidant capacity was barely
affected, while oleic/linoleic ratio reached its highest at RI of 1.96. Therefore, olives with an RI below 2 could be
good candidates to produce high-quality olive oils with good level of stability.This work was supported by CDTI [IDI-20210929] and Fundació Bosch-Gimpera [311463].We acknowledge PID2020-114022RB-I00 and CIBEROBN from the Instituto de Salud Carlos III, ISCIII from the Ministerio de Ciencia, Innovación y Universidades, (AEI/FEDER, UE), Generalitat de Catalunya (GC) [2021-SGR-00334]. INSA-UB is Maria de Maeztu Unit of Excellence (grant CEX2021-001234-M funded by MICIN/AEI/FEDER, UE). Alexandra Olmo-Cunillera thanks the Ministry of Science Innovation and Universities for the FPU contract (FPU2018/03119). Mohamed M. Abuhabib is grateful for the predoctoral scholarship FI-SDUR (REU/551/2022) from the Agency of Management of University and Research Grants (AGAUR), Generalitat de Catalunya. Antònia Ninot and Agustí Romero-Aroca acknowledge financial support from the CERCA Program of the Generalitat of Catalonia. Anna Vallverdu-Queralt thanks the Ministry of Science Innovation and Universities for the Ramón y Cajal contract [RYC-2016-19355]. We would also like to thank Oli Migjorn for their collaboration and supplying the ‘Corbella’ olives, and the Scientific and Technological services of the University of Barcelona (CCiT-UB) for the UPLC-MS/MS equipment.info:eu-repo/semantics/publishedVersio
Conservation of native wild ivory-white olives from the MEDES islands natural reserve to maintain virgin olive oil diversity
Food diversity, and in particular genetic diversity, is being lost at an alarming rate. Protection
of natural areas is crucial to safeguard the world’s threatened species. The Medes Islands (MI), located
in the northwest Mediterranean Sea, are a protected natural reserve. Wild olive trees also known as
oleasters make up part of the vegetation of the Meda Gran island. Among them, in 2012, a wild albino
ivory-white olive tree with fruit was identified. Fruits were collected from this tree and their seeds
were first sown in a greenhouse and then planted in an orchard for purposes of ex situ preservation.
Seven out of the 78 seedling trees obtained (12%) produced ivory-white fruits. In autumn 2018,
fruits from these trees were sampled. Although the fruits had low oil content, virgin olive oil with
unique sensory, physicochemical, and stability characteristics was produced. With respect to the
polyphenols content, oleacein was the main compound identified (373.29 ± 72.02 mg/kg) and the
oleocanthal was the second most abundant phenolic compound (204.84 ± 52.58 mg/kg). Regarding
pigments, samples were characterized by an intense yellow color, with 12.5 ± 4.6 mg/kg of chlorophyll
and 9.2 ± 3.3 mg/kg of carotenoids. Finally, oleic acid was the main fatty acid identified. This study
explored the resources of the natural habitat of the MI as a means of enrichment of olive oil diversity
and authenticity of this traditional Mediterranean foodinfo:eu-repo/semantics/publishedVersio
Effects of the Non-Alcoholic Fraction of Beer on Abdominal Fat, Osteoporosis, and Body Hydration in Women
Abstract: Several studies have shown that binge drinking of alcoholic beverages leads to non-desirable outcomes, which have become a serious threat to public health. However, the bioactive compounds in some alcohol-containing beverages might mitigate the negative effects of alcohol. In beer, the variety and concentration of bioactive compounds in the non-alcoholic fraction suggests that its consumption at moderate levels may not only be harmless but could also positively contribute to an improvement of certain physiological states and be also useful in the prevention of different chronic diseases. The present review focuses on the effects of non-alcoholic components of beer on abdominal fat, osteoporosis, and body hydration in women, conditions selected for their relevance to health and aging. Although beer drinking is commonly believed to cause abdominal fat deposition, the available literature indicates this outcome is inconsistent in women. Additionally, the non-alcoholic beer fraction might improve bone health in postmenopausal women, and the effects of beer on body hydration, although still unconfirmed seem promising. Most of the health benefits of beer are due to its bioactive compounds, mainly polyphenols, which are the most studied. As alcohol-free beer also contains these compounds, it may well offer a healthy alternative to beer consumers. Keywords: hops; malt; health; menopause; polyphenol; phytoestrogen; prenylnarigenin; humulones; ethanol; bioactive
Influence of the ripening stage and extraction conditions on the phenolic fingerprint of 'Corbella' extra-virgin olive oil
The ancient 'Corbella' olive variety from the center-north of Catalonia is being recovered to obtain quality extra-virgin olive oil (EVOO) with unique organoleptic properties. The aim of this work was to determine the effect of agronomic and technical factors on the phenolic fingerprint of EVOO and to establish the optimum harvesting time and crushing and malaxation conditions for 'Corbella' olives. Therefore, three different ripening indices (0.3, 1.2, and 3.2) and three crushing temperatures (10, 18, and 25 OC) were studied. Additionally, a factorial design to optimize the phenolic concentration of the EVOO was developed, applying a range of sieve diameters (4 and 6 mm), and malaxation time (30 and 60 min) and temperature (27, 32, and 37 °C). The phenolic profile was analyzed by ultra-high performance liquid chromatography coupled to mass spectrometry in a tandem detector. The level of secoiridoids, the major phenolic compounds in the oil, was higher when using olives harvested earlier. Oleuropein aglycone and ligstroside aglycone were degraded during crushing at high temperatures, resulting in the formation of oleacein and oleocanthal. The best processing conditions in terms of total phenolic content were found to be 30 min of malaxation at 37 OC, the crushing size not having any affect. Keywords: polyphenols; malaxation; crushing size; oleocanthal; oleacei
Fruit and vegetable consumption is inversely associated with plasma saturated fatty acids at baseline in PREDIMED plus trial
Scope: Plasma fatty acids (FAs) are associated with the development of cardiovascular diseases and metabolic syndrome.
The aim of our study is to assess the relationship between fruit and vegetable (F&V) consumption and plasma FAs and
their subtypes.
Methods and Results: Plasma FAs are assessed in a cross-sectional analysis of a subsample of 240 subjects from the
PREDIMED-Plus study. Participants are categorized into four groups of fruit, vegetable, and fat intake according to the
food frequency questionnaire. Plasma FA analysis is performed using gas chromatography. Associations between FAs
and F&V consumption are adjusted for age, sex, physical activity, body mass index (BMI), total energy intake, and alcohol
consumption. Plasma saturated FAs are lower in groups with high F&V consumption (-1.20 mg cL−1 [95% CI: [-2.22, -
0.18], p-value = 0.021), especially when fat intake is high (-1.74 mg cL−1 [95% CI: [-3.41, -0.06], p-value = 0.042). Total
FAs and n-6 polyunsaturated FAs tend to be lower in high consumers of F&V only in the high-fat intake groups.
Conclusions: F&V consumption is associated with lower plasma saturated FAs when fat intake is high. These findings
suggest that F&V consumption may have different associations with plasma FAs depending on their subtype and on the
extent of fat intake
High fruit and vegetable consumption and moderate fat intake are associated with higher carotenoid concentration in human plasma
Carotenoids are pigments contained mainly in fruit and vegetables (F&V) that have bene ficial effects on cardiometabolic health. Due to their lipophilic nature, co-ingestion of fat appears to
increase their bioavailability via facilitating transfer to the aqueous micellar phase during diges tion. However, the extent to which high fat intake may contribute to increased carotenoid plasma
concentrations is still unclear. The objective was to examine the degree to which the consumption
of different amounts of both carotenoid-rich foods and fats is associated with plasma carotenoid
concentrations within a Mediterranean lifestyle context (subsample from the PREDIMED-Plus
study baseline) where consumption of F&V and fat is high. The study population was catego rized into four groups according to their self-reported consumption of F&V and fat. Carotenoids
were extracted from plasma samples and analyzed by HPLC-UV-VIS-QqQ-MS/MS. Carotenoid
systemic concentrations were greater in high consumers of F&V than in low consumers of these
foods (+3.04 µmol/L (95% CI: 0.90, 5.17), p-value = 0.005), but circulating concentrations seemed to
decrease when total fat intake was very high (−2.69 µmol/L (−5.54; 0.16), p-value = 0.064). High
consumption of F&V is associated with greater systemic levels of total carotenoids, in particular
when fat intake is low-to-moderate rather than very high
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