Your search keyword '"Roedig-Penman A"' showing total 5 results

1. Flavonoids as antioxidants

Author

Roedig-Penman, Andrea

Subjects

664, Food technology & food microbiology

Published

1997

2. Antioxidant properties of myricetin and quercetin in oil and emulsions

Author

Roedig-Penman, Andrea and Gordon, Michael H.

Published

1998

3. Erosive Effect of a New Sports Drink on Dental Enamel during Exercise

Author

VENABLES, MICHELLE C., SHAW, LINDA, JEUKENDRUP, ASKER E., ROEDIG-PENMAN, A, FINKE, M, NEWCOMBE, R G., PARRY, JASON, and SMITH, ANTHONY J.

Published

2005

4. Erosive Effect of a New Sports Drink on Dental Enamel during Exercise

Author

M Finke, L. Shaw, R G. Newcombe, Asker E. Jeukendrup, Michelle C. Venables, Jason Parry, Anthony J. Smith, and A Roedig-Penman

Subjects

Adult, Male, Drinking Behavior, Dentistry, Physical Therapy, Sports Therapy and Rehabilitation, Physical exercise, law.invention, Beverages, Randomized controlled trial, law, Humans, Medicine, Single-Blind Method, Tooth Erosion, Orthopedics and Sports Medicine, Exercise physiology, Dental Enamel, Exercise, Cross-Over Studies, business.industry, Dental enamel, Water, Tooth enamel, Crossover study, Sports drink, medicine.anatomical_structure, Female, business, Sports

Abstract

To compare the potential erosive effect of a prototype carbohydrate-electrolyte drink (PCE) with a neutral control (water) and a commercially available carbohydrate-electrolyte drink (CCE) during exercise.: Nineteen healthy adults (male, N = 16; female, N = 3) took part in this single blind, three-way crossover study. Subjects were given each of the three drinks according to a randomization schedule, approximately balanced for first-order carryover effects. At the beginning of each of the three study periods, the volunteers were fitted with an intraoral appliance containing two human enamel blocks. During each study period, volunteers exercised for 75 min.d(-1) (5 repetitions of 15 min of exercise, with 5-min rests between exercise repetitions), 5 d.wk(-1) for 3 wk. Each day, drink aliquots of 200 mL were consumed during a 5-min period before exercise and after every 15-min bout of exercise, followed by a final 400-mL aliquot ingested over a 10-min period: a total of 1400 mL per study day. Dental erosion was measured as tissue loss from the enamel blocks by profilometry at the end of each study period.Water, PCE, and CCE produced 0.138 microm (SD 0.090 microm), 0.138 microm (SD 0.038 microm), and 4.238 microm (SD 3.872 microm) of enamel loss, respectively. A Wilcoxon t statistic showed a significant statistical difference between the PCE and CCE drinks (P0.001), whereas no significant difference could be detected between the PCE drink and water (P = 0.740).The PCE solution showed minimal erosion compared with the commercially available drink, and was statistically indistinguishable from water under the conditions of this study. Use of CE solutions formulated to minimize erosion during exercise may provide significant dental benefits.

Published

2005

5. Antioxidant properties of myricetin and quercetin in oil and emulsions

Author

Andrea Roedig-Penman and Michael H. Gordon

Subjects

chemistry.chemical_classification, food.ingredient, Antioxidant, General Chemical Engineering, Sunflower oil, medicine.medical_treatment, Organic Chemistry, Flavonoid, chemistry.chemical_compound, food, Flavonols, chemistry, Emulsion, medicine, Organic chemistry, heterocyclic compounds, Myricetin, Food science, Citric acid, Quercetin

Abstract

The effect of quercetin and myricetin on the stability of sunflower oil and oil-in-water emulsions was studied by storage experiments monitored by measurement of peroxide values, conjugated dienes, and headspace volatile analysis. Myricetin showed strong antioxidant activity in oils stored at 60 or 30°C and in oil-in-water emulsions stored at 30°C, whether tocopherols or citric acid were present or not; however, quercetin showed similar antioxidant activity in stripped sunflower oil but no activity in oils that contained tocopherols and citric acid. This showed that myricetin is effective owing to strong radical scavenging and metal-chelating properties, whereas quercetin has weaker radical scavenging activity, although it is also active by metal-chelation. The effects of copper and iron salts on the antioxidant activity of myricetin and quercetin were studied in sunflower oil and oil-in-water emulsions. Quercetin and myricetin enhanced the prooxidant effect of cupric chloride in oil-in-water emulsions (pH 7.4), but this effect was not observed with cupric stearate. The addition of myricetin to emulsions that contained ferric chloride at pH 5.4 also produced a strong prooxidant effect, and small prooxidant effects of flavonols were also detected in the presence of cupric chloride under these conditions. However, myricetin and quercetin reduced the prooxidant effect of ferric palmitate in oils. Myricetin also showed a strong antioxidant effect in oil that contained cupric stearate, although quercetin had no significant effect on the oxidative stability of this system. It therefore appears that flavonols may exert a prooxidant effect in the presence of metal salts, but the nature of the metal salt is important in determining whether a prooxidant effect occurs.

Published

1998