71 research outputs found
Trace Metals in Pork Meat Products Marketed in Italy: Occurrence and Health Risk Characterization
This study provides valuable information on the levels of various trace metals (Pb, Cd, Hg, Zn, Cu, Cr) in meat products (baked ham, raw ham, mortadella, cured sausage, würstel, salami) from South Italy and calculates potential health risk toxicity associated with their consumption for the total population and for children. In the samples studied metal concentrations are within the permissible legal limits (Cd: 0.01–0.03 μg g−1 w.w., Hg: 0.01–0.02 μg g−1 w.w., Zn: 5.71–7.32 μg g−1 w.w., Cu: 1.08–1.21 μg g−1 w.w., Cr: 0.15–0.23 μg g−1 w.w.), except for Pb (Pb: 0.22–0.38 μg g−1 w.w.). The estimated intake values are within the provisional tolerable daily intake limits for toxic metals and recommended daily intake values for essential metals in both tested groups. The noncarcinogenic risk values of the individual metals indicate that there is no health risk, but their combined effects might constitute a potential risk for children. Furthermore, the cumulative cancer risk of all samples studied exceeds the recommended threshold risk limit (> 10−4) in both total population and children, indicating a risk of potential health problems for consumers especially for children, who are more vulnerable to toxic metal exposure
Phytochemical and biological characterization of dry outer scales extract from Tropea red onion (Allium cepa L. var. Tropea)–A promising inhibitor of pancreatic lipase
Background: Allium cepa L. var. Tropea is typically cultivated in Calabria (Italy) and it is certified as “Cipolla Rossa di Tropea Calabria-PGI” (Tropea red onion). The use of clinically available anti-obesity drugs such as Orlistat is being gradually dismissed due to their side-effects and this has encouraged the search for alternative inhibitors of intestinal lipases such as phytochemicals showing less side-effects. In this study we aimed to evaluate for the first time the anti-obesity potential of the hydroalcoholic extract from the dry outer scales of Tropea red onion by the assesment of its capacity to inhibit pancreatic lipase. Its possible mechanism of action was also studied with planar lipid membranes (PLMs) surrogate of intestinal membranes. Methods: Specialized metabolites in the extract were determined by GC–MS, HPLC-DAD, HPLC-UV-DAD and HPLC-HRMS analyses. Inhibition of pancreatic lipase was studied in vitro against crude lipase Type II from porcine pancreas. PLMs used in the electrophysiology measurements were made up of DOPS:DOPE:POPC. Results: The extract contained quercetin-4′-O-glucoside, quercetin and quercetin-3,4′-O-diglucoside as the most abundant phenolics. Among apolar constituents, γ-sitosterol, linoleic and stearic acids were dominant. The lipase inhibitory effect of the extract had an IC50 value equal to 0.77±0.03 mg/mL (positive control, IC50 = 0.018 mg/mL). The electrophysiological study demonstrated that the extract is able to incorporate into PLMs and to form transient channel-like events Conclusions: Taken altogether, the results allow us to suggest that the hydroalcoholic extract from the dry outer scales of Tropea red onion could prevent lipid ester hydrolysis and it has a protective effect against phospholipase as found for interfacially active compounds
Effectiveness of an innovative sensory approach to improve children’s nutritional choices
A case-control study was conducted to investigate the effectiveness of the Edueat® Method, through experiential workshops focused on the use of all 5 senses. In two different primary schools in the same city, questionnaires were administered in two months with a follow-up one year later. Participants: 119 children (age 8.2–9.0) chosen randomly; control group 66 (55.5%). Seven lessons of 2 h each were held in the schools by experts of the Edueat® method and seven extra lessons by the teachers. The main outcome measures were the children’s changes in their approach and attitude towards their eating habits. The answers were grouped with factor analysis and summarized through scores. Repeated-measures analysis of variance was conducted in order to identify the relationships between scores and treatment over time. At the end of treatment, the intervention group showed a significant appreciation towards healthy foods (+4.15 vs. −0.05, p = 0.02) and a greater capacity in identifying foods which are very good for the health (+15.6 vs. +14.4, p = 0.02). In conclusion, the Edueat® method was found to be particularly promising in transmitting knowledge of those foods which are healthy. Greater involvement of teachers and parents is crucial
Role of calcium ions in the aggregation process of hIAPP. Possible implications in T2DM.
Type 2 diabetes (T2DM), Alzheimer’s disease and other age-related neurodegenerative and systemic disorders are classified as amyloid disorders. hIAPP appears to be involved in the mechanisms underlying the pathogenesis of T2DM due to its tendency to aggregate and self-assemble. The aggregation of hIAPP is a dynamic process that leads to the formation of transient and heterogeneous oligomers which evolve to form insoluble fibrils. Oligomers appear to be more toxic to β cells than monomers and fibrils. The main target of hIAPP aggregates seems to be the plasma membrane which can undergo different types of damage, destruction of its integrity or alteration of the physical and biological properties that lead to oxidative stress. Numerous factors, both intrinsic and extrinsic to the peptide molecule, appear to influence the hIAPP aggregation process. Different metal ions are able to interact with the hIAPP molecule, modulating its secondary structure and subsequently the peptide’s capacity to aggregate. In this study, the effect of different Ca2+ concentrations on the hIAPP aggregation process was evaluated. The formation and morphology of hIAPP aggregate were respectively evaluated with Thioflavin T assays and electron microscopy, while the ability of the peptide to incorporate into POPC PLMs and form ion channels was monitored by single-channel current measurements. Ca2+ seems to favor the formation of soluble oligomers, suggesting a possible mechanism of hIAPP toxicity
Effect of pH-variation on insertion and ion channel formation of human calcitonin into planar lipid bilayers
Human calcitonin is the physiological hormone involved in calcium-phosphorus homeostasis. However, its use is limited by its propensity to form aggregates. We find that the type of host lipid has a pronounced influence on human calcitonin fibrillation or incorporation, as assessed by channel formation, in planar lipid membranes at neutral pH. At pH 7, human calcitonin is able to interact and form channels with negatively charged dioleoyl-phosphatidylglycerol (DOPG) bilayers and with zwitterionic palmitoyl-oleoyl phosphatidylcholine (POPC) bilayers containing 15% negatively-charged DOPG, but not with POPC bilayers. At low pH (4.5 and 3.8), the conformational variation of the peptide enables it to insert into POPC and POPC: DOPG but not into DOPG bilayers. The model proposed for human calcitonin interaction and channel formation at acidic pH was based on theoretical predictions of the protonation-deprotonation state of some aminoacids, in particular in the fibrillating sequence of peptide molecules; the length of the a-helix, and the electrostatic and/or hydrophobic interaction also seem to be relevant. These results may suggest that human calcitonin at low local pH could be involved in osteoclasts' calcium-sensitive permeability through channel formation and/or receptor interaction
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