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Above is a soy protein
meat sample made by high moisture extrustion. Photo by Keshun
Liu
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Taking
the Mush Out
of Meat Substitutes
By Jeremy Diener
MU researchers are creating realistic,
healthy meat substitutes.
In seeking to eat healthier, more Americans
are turning to vegetable-based meat substitutes that resemble
chicken and beef. However, while many meat substitutes can be
made to taste like beef or chicken, the texture is often mushy
or flaky. A team of researchers at the University of Missouri-Columbia
is helping create vegetable-based meat substitutes that are remarkably
similar to the texture, appearance and feel of actual meat.
Researchers Fu-hung Hsieh, professor of biological
engineering and food
science, and Keshun Liu, adjunct associate professor in food
science, are perfecting a manufacturing process that mixes powdered
vegetable proteins in a high-moisture setting to create fibrous
structures that look and feel like real meat. This process ultimately
will allow consumers to purchase healthier meat substitutes without
sacrificing the experience of eating a steak or chicken breast,
the researchers said.
“Food makers have been creating
vegetable protein-based meat substitutes that taste like real
meat for years, but have not been as successful at recreating
the texture of meat,” Hsieh said. “Consumers will
want these vegetable protein-based products because the textures
will be more appealing to them.”
The process involves combining different
types of powdered vegetable proteins, which are combined with
water and processed through a heated extruder. After leaving the
extruder, the substance is cooled in a controlled manner. The
process facilitates the creation of the meat substitute, and the
formation of the desired fibrous structures.
To perform quality-control measures, the
researchers collaborated with Gang Yao, assistant professor of
biological engineering. Yao used a novel, non-invasive approach
adapted from a method commonly used in chemistry studies: fluorescence
polarization spectroscopy. The method uses polarized, or directional,
light to generate fluorescence, or luminescence, in the sample.
An instrument then reads the signal generated by the fluorescence.
If the signal is strong, fiber structure is good. If it’s
weak, this signals that adjustments need to be made in the extrusion
and/or cooling process. The researchers are the first to use fluorescence
polarization spectroscopy to measure fiber structure in meat substitutes.
Using this method, food manufacturers will be able to make quality
control adjustments on the fly.
“This method is desirable because
it’s effective, small, relatively inexpensive and offers
the most accurate readings of any method while never coming into
contact with the food product, thereby minimizing the opportunity
for contamination,” Yao said.
The findings will be featured in an upcoming
issue of the Journal
of Food Science.
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Last Update:
July 2, 2009
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