Long-Term Vitamin Stabilisation & Low Moisture Products

Research Paper Title

Long-Term Vitamin Stabilization in Low Moisture Products for NASA: Techniques and Three-Year Vitamin Retention, Sensory, and Texture Results.

Background

Multiyear spaceflight will require innovative strategies to preserve vitamins in foods, in order to retain astronaut health and functionality long-term. Furthermore, space foods must be low weight/volume to comply with cargo restrictions, and must retain sensory quality to ensure consumption.

Methods

Low water activity products were developed, fortified with vitamins A, B1, B9, C, and E at twice their spaceflight requirements, stored for three years at 21 °C and one year at 38 °C, and analysed annually for retained vitamin content and organoleptic quality. The vitamins were encapsulated in carbohydrate or lipid coatings and tested in relatively low and high fat versions of compressed bars and powdered drink mix formulations.

Results

Susceptibility to degradation at 21 °C followed the sequence B9 > A > B1 > C > E; degradation rates were fitted to first-order kinetics. Vitamins A and C were more sensitive at the higher storage temperature. Vitamin retention was slightly higher in compressed bars verses powders. Effects of matrix lipid level on stability were vitamin dependent. Sensory characteristics for products stored three years at 21 °C remained mostly above 6.0 on a 9-point hedonic scale, whereas those stored for one year at 38 °C remained mostly above 5.0. Compressed bars firmed significantly during storage.

Conclusions

All vitamin levels after three years at 21 °C remained above the space flight requirements, demonstrating the suitability of the selected fortification schemes and food matrices for long-term preservation.

Practical Application

Vitamins A, B1, B9, C, and E were retained at 70% to 95% levels for three years at 21 °C in carefully formulated, fortified low water activity products. Product compression and vacuum packaging slightly helped to further preserve vitamins. The sensory quality of these products was retained throughout storage.

Reference

Barrett, A.H., Richardson, M.J., Froio, D.F., Connor, L.F.O., Anderson, D.J. & Ndou, T.V. (2018) Long-Term Vitamin Stabilization in Low Moisture Products for NASA: Techniques and Three-Year Vitamin Retention, Sensory, and Texture Results.

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