1. Processing Effects on Phytonutrients
Luke R. Howard, Ph.D
Luke R. HoLukeward, Ph.D.
3. Factors Influencing Phytonutrient Content of Fruits and Vegetables Genotype
Cultural practices
Environmental growing conditions
Maturation
Postharvest handling and storage conditions
Processing
4. Chemical and Physical Factors Influencing the Stability of Vitamins and Phytonutrients Heat
Light
Oxygen
Co-factors
Metals
Enzymes
Chemical structure/solubility
Tissue localization: Free vs bound
5. Processing Factors Influencing Phytonutrient Content Unit operations
Washing/cleaning
Physical removal of tissues
Soaking (beans and peas)
Blanching (steam vs water)
Particle size reduction
Enzyme treatments, pressing, clarification
6. Processing Factors Influencing Phytonutrient Content Filling and Brining
Ratio of product:brine
Dissolved oxygen
Food additives
7. Processing Factors Influencing Phytonutrient Content Preservation method
Thermal process (time and temperature, still vs agitated, aseptic)
Freezing process (rate and temperature)
8. Factors Influencing Phytonutrient Content of Fresh-cut Products Washing/sanitizing
Peel removal
Degree of wounding
Package atmosphere
Storage temperature
9. Processing Effects on Blueberry Polyphenolics
11. Total Anthocyanin Retention and Polymeric Color in Blueberry Juices
12. Total Anthocyanin Retention and Polymeric Color in Canned Blueberries
13. Total Anthocyanin Retention in Blueberries Canned in Syrup
14. Total Anthocyanin Retention and Polymeric Color in Blueberry Puree
15. Total Flavonol Retention in Blueberry Juices
16. Total Flavonol Retention in Blueberries Canned in Syrup�
17. Total Flavonol Retention in Blueberry Puree
18. Total Procyanidin Retention in Blueberry Juices
19. Total Procyanidin Retention in Blueberries Canned in Syrup
20. Total Procyanidin Retention in Blueberry Puree
21. Chlorogenic Acid Retention in Blueberry Juices
22. Chlorogenic Acid Retention in Blueberries Canned in Syrup
23. Chlorogenic Acid Retention in Blueberry Puree
24. ORACFL Retention in Blueberry Juices
25. ORACFL Retention in Canned Blueberries
26. ORACFL Retention in Blueberry Puree
27. Phenolic and Antioxidant Changes in Fresh-cut Carrots
28. Processing and Sampling Carrot coins (with peel removed) packed in ventilated bags
Stored at 4oC
Sampled at 0, 3, 7, 14 and 21 days
29. Chemical Analyses Phenolics – HPLC
HCA quantified as chlorogenic acid equivalents at 320 nm
pHBA quantified as hydroxybenzoic acid equivalents at 265 nm
Carotenoids – HPLC C30 column
Beta, alpha and carotene isomers quantified as beta carotene equivalents
31. PCL Antioxidant Assay Antioxidant capacity
Measured using a Photochem® antioxidant analyzer
L + hv + O2 L.+ + O2.-
Detection of excess superoxide radicals left after quenching by antioxidants
O2.- + L.+ L (luminescence)
32. �HCA and pHBA Contents of Fresh-cut Carrots as Affected by Storage�
33. Antioxidant Capacity of Fresh-cut Carrots as Affected by Storage
34. Relationship Between HCA Content and Antioxidant Capacity
35. Alpha, Beta and Total Carotene Contents of Fresh-cut Carrots as Affected by Storage
36. Other Studies
37. Effect of Cooking on Total Flavonoid Content of Spinach
38. Effect of Peel Removal on Total Phenolic Content in Ross Clingstone Peaches
39. Effects of Thermal Processing and Canned Storage on Total Phenolic Content in Peaches
40. Comparison of Individual Procyanidin Oligomers in Frozen and Canned Clingstone Peaches
41. Total Flavonoid Content of Frozen Vegetables as Affected by Storage
42. Total Carotenoid Content of Frozen Vegetables as Affected by Storage
43. Retention of Flavonoids in Canned Green Beans
44. Retention of Polyphenolics in Pasteurized Blueberry Juice
45. Effect of Cooking on Procyanidin Content of Pinto Beans
46. Total Anthocyanin Content of Canned Cherries Stored at 22oC
47. Total Phenolic Content of Canned Cherries Stored at 22oC
48. ORAC of Canned Cherries Stored at 22oC
49. Changes in Antioxidant Activity as Affected by Heating
50. Changes in the Overall Antioxidant Properties of Foods as Affected by Heating No changes
No changes in naturally occurring AOX
Loss of native AOX = formation of compounds with novel or improved AOX
Improvement of AOX properties of native compounds
Formation of novel compounds having AOX properties (MRPs)
51. Changes in the Overall Antioxidant Properties of Foods as Affected by Heating Decrease
Loss of native AOX
Formation of novel compounds having pro-oxidant activity (MRPs)
52. Conclusions Different unit operations and preservation methods markedly affect the retention of fruit and vegetable phytonutrients and antioxidant capacity
Increased number of processing steps exacerbates phytonutrient losses
Processing by-products are a potentially rich source of phytonutrients
Water-soluble phytonutrients readily leach into liquid canning media
53. Conclusions Fresh-cut produce may exhibit high antioxidant capacity due to the synthesis and accumulation of wound-induced phenolic compounds
Mitigation strategies are needed to prevent losses of phytonutrients during processing
More research is needed on the bioavailability of phytonutrients in processed foods
54.
