Abstract
We exploit different routes for encapsulation of food additives, such as minerals or
vitamins, in a polymeric capsule. The added active ingredients should remain inside the
capsule for at least a year in an aqueous environment (e.g. a dairy product), since
sensory properties or functionality of the ingredients may otherwise be affected.
However, after intake the active compound should readily (within 1 h) be released due
to the acidic environment in the stomach. First, we propose a phenomenological model
in order to study how a polymeric matrix may limit the diffusion of incorporated active
molecules. The relation between the release rate of the active compound and its
molecular weight is elucidated. Second, the desired capsules may be obtained by specific
binding between subunits within the capsule and the active ingredient. We show two
examples that rely on this mechanism: amylose-lipid complexes and mixed metal
hydroxides. Amylose is able to form inclusion complexes with various types of ligands,
including iodine, monoglycerides, fatty acids and alcohols, where the hydrophobic parts
of the ligands are entrapped in the hydrophobic helical cavity of amylose. Mixed metal
hydroxides are a versatile class of inorganic solids that consist of sheets of metal cations
that are octahedrally surrounded by hydroxide molecules. In between these layers
anionic species compensate for charge neutrality. In this way, various metal cations
(minerals) may be incorporated with a high loading, and negatively charged actives may
be placed between the layers. Upon digestion the particles dissolve and the ingredients
are digested. Finally, we show that nature has already developed many intriguing
capsules.
Original language | English |
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Title of host publication | Proceedings of the Physics with Industry 2010, 11-15 October 2010, Leiden, The Netherlands |
Place of Publication | Leiden, The Netherlands |
Publisher | Lorentz Center Leiden |
Pages | 67-85 |
Publication status | Published - 2010 |
Event | conference; Physics with Industry 2010; 2010-10-11; 2010-10-15 - Duration: 11 Oct 2010 → 15 Oct 2010 |
Conference
Conference | conference; Physics with Industry 2010; 2010-10-11; 2010-10-15 |
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Period | 11/10/10 → 15/10/10 |
Other | Physics with Industry 2010 |