Effect of ultra-high hydrostatic pressure on hydrosoluble vitamins

The effect of ultra-high hydrostatic pressure on selected hydrosoluble vitamins (B1, B6 and C) is studied. Vitamin retention after pressurization has been compared to that induced by several classic food processing treatments, such as pasteurization or sterilization. Ascorbate, pyridoxal, and thiami...

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Bibliographic Details
Published in:Journal of food engineering 1999-02, Vol.39 (3), p.247-253
Main Authors: Sancho, Félix, Lambert, Yann, Demazeau, Gérard, Largeteau, Alain, Bouvier, Jean-Marie, Narbonne, Jean-François
Format: Article
Language:English
Subjects:
ascorbic acid
Biological and medical sciences
Chlorine compounds
Degradation
egg yolk
food composition
Food industries
food processing
food processing quality
Food products
Fundamental and applied biological sciences. Psychology
High performance liquid chromatography
Hydrostatic pressure
nutrient retention
pasteurization
Pressure effects
pressure treatment
Pressurization
pyridoxine
Reaction kinetics
Research and development. New food products, dietetic foods and beverages
Solubility
Sterilization (cleaning)
sterilizing
strawberries
thiamin
vitamin content
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Summary:The effect of ultra-high hydrostatic pressure on selected hydrosoluble vitamins (B1, B6 and C) is studied. Vitamin retention after pressurization has been compared to that induced by several classic food processing treatments, such as pasteurization or sterilization. Ascorbate, pyridoxal, and thiamin hydrochloride, included in a multivitamin model system ( mvMS), are analyzed by high performance liquid chromatography (HPLC), and under current operating parameters for the above processes. Thereafter, these vitamins indicate the impact of ultra-high hydrostatic pressure on the nutritional quality of tested matrices, on the basis of equivalent effects induced by several industrial treatments. Minor variations are found among the vitamins after pressurization. Vitamins B1 and B6 undergo no significant losses after the treatments. Vitamin C levels, although significant, are not dependent on the intensity of the ultra-high hydrostatic pressure process. Naturally occurring vitamin C losses are analyzed in two representative foodstuffs (egg yolk and strawberry coulis) after several processes, in order to validate the model system results. A survey of ascorbate retention has been carried out on ultra-high pressurized strawberry coulis, over 30 days. Results have shown that ultra-high hydrostatic pressure plays only a minor role in degradation kinetics of vitamin C. This article will integrate a general and structured evaluation framework, including other precise nutritional data of food processing.
ISSN:0260-8774
1873-5770
DOI:10.1016/S0260-8774(98)00143-5