Validation of a popsicle as a clear fluid to abbreviate preoperative fasting.

BACKGROUND & AIMS: This study is based on the development and validation of a popsicle to reduce preoperative fasting time. METHODS: The study was carried out in two stages, pre-clinical and clinical validation. The first stage consisted of producing a water-based, fat-free, high-calorie fruit-flavored popsicle, characterized by proximal composition and sensory analysis. In the second stage, clinical validation was performed in patients aged between 18 and 65 years before elective surgery, evaluating the incidence of aspiration during anesthesia and the patient's experience in relation to hunger, thirst, anxiety and palatability of the popsicle. RESULTS: The results of the study showed that the use of popsicle 2 h before the surgical procedure did not cause any adverse reaction in patients and in the anesthetic procedure. Furthermore, the full acceptability of the product by the participants and the control of thirst and satiety during the preoperative period were observed. CONCLUSIONS: The present study showed that with the use of popsicles it was possible to reduce safely the preoperative fasting time to up to 2 h before the surgical procedure.

Evaluation biodegradable films with green tea extract for interleafing sliced meat products.

A selection of formulations with different polymers and concentrations of green tea extract was conducted for application as interleafs in sliced meat products. Films were formulated using cellulose acetate, corn starch, and chitosan with the addition of 1.0, 2.5, and 5.0% green tea extract. Higher antioxidant activity was observed with the 1.0% concentration of green tea extract (P < 0.05), regardless of the formulation, with continuous release of the extract for up to 60 days and average IC50 of 0.09 and 0.31 mg/mL for the corn starch and chitosan active films, respectively. Interleafing the sliced ham resulted in lower lipid oxidation after 60 days of storage (P < 0.05). Starch-based films with green tea extract were effective, significantly reducing lipid oxidation in sliced and interleafed cooked ham, suggesting their potential to extend the shelf life of these refrigerated products.

Newly Isolated Penicillium sp. for Cellulolytic Enzyme Production in Soybean Hull Residue

Abstract (1) Background: The aim of this study was to evaluate the production and partial characterization of xylanase and avicelase by a newly isolated Penicillium sp. in solid-state fermentation, using soybean hulls as substrate. (2) Methods: Temperature, time, number of spores, and substrate moisture on xylanase and avicelase bioproduction were evaluated, maximizing activity with 30°C, 1x106 spores/g substrate, 14 and 7 days of fermentation with 70 and 76% substrate moisture contents, for xylanase and avicelase, respectively. (3) Results: Different solvents, temperatures, and agitation in the enzymatic extraction were evaluated, obtaining higher activities, 430.77 and 26.77 U/g for xylanase and avicelase using 30 min extraction and 0.05 M citrate buffer solution (pH 4.5 ), respectively at 60°C and 175 rpm and 50°C and 125 rpm. The optimum pH and temperature for enzymatic activity determination were 5.3 and 50°C. Enzyme extract stability was evaluated, obtaining higher stability with pH between 4.5 and 5.5, higher temperature of up to 40°C. The kinetic thermal denaturation (Kd), half-life time, D-value, and Z-value were similar for both enzymes. The xylanase Ed value (89.1 kJ/mol) was slightly lower than the avicelase one (96.7 kJ/mol), indicating higher thermostability for avicelase. (4) Conclusion: In this way, the production of cellulases using alternative substrates is a way to reduce production costs, since they represent about 10% of the world demand of enzymes, with application in animal feed processing, food production and breweries, textile processing, detergent and laundry production, pulp manufacturing and the production of biofuels.