Edible Moisture Barriers: How to Assess of their Potential and Limits in Food Products Shelf-Life Extension?

Authors: Bourlieu, C.¹; Guillard, V.¹; Valles-Pamies, B.²; Guilbert, S.¹; Gontard, N.¹

Source: Critical Reviews in Food Science and Nutrition, Volume 49, Number 5, May 2009 , pp. 474-499(26)

Publisher: Taylor and Francis Ltd

Abstract:

Control of moisture transfer inside composite food products or between food and its environment remains today a major challenge in food preservation. A wide rage of film-forming compounds is now available and facilitates tailoring moisture barriers with optimized functional properties. Despite these huge potentials, a realistic assessment of the film or coating efficacy is still critical. Due to nonlinear water sorption isotherms, water-dependent diffusivities, and variations of physical state, modelling transport phenomena through edible barriers is complex. Water vapor permeability can hardly be considered as an inherent property of films and only gives a relative indication of the barrier efficacy. The formal or mechanistic models reported in literature that describe the influence of testing conditions on the barrier properties of edible films are reviewed and discussed. Most of these models have been validated on a narrow range of conditions. Conversely, few original predictive models based on Fick's Second Law have been developed to assess shelf-life extension of food products including barriers. These models, assuming complex and realistic hypothesis, have been validated in various model foods. The development of nondestructive methods of moisture content measurement should speed up model validation and allow a better comprehension of moisture transfer through edible films.

Keywords: Moisture transfer; lipid; water vapour permeability; modelling

Document Type: Research article

DOI: http://dx.doi.org/10.1080/10408390802145724

Affiliations: 1: UMR 1208 Ingenierie des Agropolymeres et Technologies Emergentes, CIRAD, INRA, Montpellier SupAgro, Universite Montpellier 2, Montpellier, France 2: Nestle Research Center Lausanne, Functional Food Colloids, SUISSE,

Publication date: 2009-05-01

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