Fermented black bean extract
Fermented black bean extract (Touchi extract) is a protein-rich powder obtained by water extraction of small soybeans (Glycine max) fermented with Aspergillus oryzae. The extract contains an - glucosidase inhibitor. Touchi is a Japanese traditional food which was introduced from China. For over 3000 years, people have eaten it as a preserved food or used it for seasoning.
You will be hooked on our Fermented Black Bean the first time you use it! It is full of flavor and gives you that salty and savory taste you crave with 96% less sodium per 100 grams when compared to table salt. Fermented Black Bean tastes great when making a dip, or any kind of soup and beef or vegetarian chili. Try sprinkling some into a homemade veggie burger mix before you form the patties for a little extra flavor. Fermented Black Bean makes excellent sauces as well and is delicious in seafood and meat dishes. Black beans are also an excellent source of nutrition for the skin.
For centuries Asian medicine has used black beans to improve skin and maintain a healthy diet. They have an abundance of essential amino acids, Vitamin E and are rich in antioxidants. These nutritional components can help to protect skin and keep it healthy. Antioxidants are known to promote anti-aging. With the Asian community consuming so many Black Beans, it’s no wonder why they have such beautiful complexions!
No major chemical modification of the components is involved during extraction of „fermented black
bean extract‟ with water, despite the extraction is performed at elevated temperature. Although only
the water soluble components will be extracted, the Panel considers that the composition and the
nature of the nutrients remain similar to the traditional fermented black bean products. The
chromatograms obtained from HPLC analysis of „fermented black bean extract‟ and fermented black
bean paste were very similar and exhibit peaks consistent with low molecular weight peptides and
amino acids.
The Panel acknowledged that the applicant‟s arguments on the similarity between
fermented black bean sauce and „fermented black bean extract‟ are based on the commonly shared
fermentation process and data obtained by SDS-Gel Electrophoresis. The applicant indicates that the
water extraction of 15 g of fermented black beans yields 4.5 g of Touchi extract, which is the
maximum dose per day proposed by the applicant. The Panel considers that the data on the
composition and on the production process do not raise concerns.
The applicant indicated, however, that „fermented black bean extract‟ can be considered as providing
approximately 60 g protein (minimum 55 g), no more than 1 g fat and 25 to 30 g of carbohydrate per
100 g. Furthermore analysis of the composition of a single batch of „fermented black bean extract‟
indicated the presence of 7.8 g ash/100g. If 7.8 g ash/100 g is added to the specifications, about 93-98% of the material is accounted for.
The Panel notes that the specifications as provided by the applicant do not include levels of a variety
of ingredients known to be present in soybean which might be relevant from a safety point of view,
including for example kojic, cyclopiazonic and beta-nitropropionic acid and biogenic amines,
especially histamines and ethyl carbamate, as well as levels of antinutritive substances including
tannic acid, trypsin inhibitor and isoflavones. Isoflavones are flavonoids with structural similarities to
oestrogens. The applicant indicated that the whole soybean contains approximately 200 mg of
isoflavones per 100 g, but actual levels present in the Touchi extract are not provided. Taking into
account that the preparation process does not concentrate isoflavones and the intended maximum
intake of 4.5 g Touchi extract per day, the content of isoflavones is not of concern.
The Panel asked the applicant for detailed compositional information, such as the quality of the
protein/peptide content, qualitative and quantitative data on the carbohydrate fraction (other than
calculating the content of carbohydrates by 100 % minus other constituents), on secondary plant
constituents such as kojic, cyclopiazonic and beta-nitropropionic acid and biogenic amines, especially
histamines and ethyl carbamate, as well as levels of other potential anti-nutritive substances including
tannic acid and trypsin inhibitor. The Panel also asked for data on micronutrients, if available,
because these would be supportive for the overall characterisation of „fermented black bean extract‟.
The HPLC chromatograms of a sample of the „fermented black bean extract‟ and of a fermented
black bean paste were shown to be similar, exhibiting peaks consistent with amino acids and low
molecular weight peptides. However neither amino acids nor peptides were identified. It is noted that
amino acids and peptides are referred as “proteins”. Data obtained by SDS Gel-
Electrophoresis indicate that upon fermentation with A. oryzae the levels of peptides with a molecular
weight smaller than 20 kDa are significantly increased as compared to the starting raw soybeans, with
a concomitant decrease of the larger peptides. Specifically, on fermentation of soybean meal no
peptides greater than 60 kDa in size were detected, compared to ca. 22 % in the starting material.
The applicant provided results from stability studies that indicate that bulk powder of „fermented black bean extract‟ is stable over 36 months at room temperature as established by measuring the
taste, appearance, and α-glucosidase inhibitory activity at regular intervals.
The stability of „fermented black bean extract‟ has also been monitored over time in typical
formulations both at room temperature and at elevated temperature (accelerated studies). Based on
taste, appearance, and α-glucosidase inhibitory activity, formulations of „fermented black bean
extract‟ appear stable at room temperature over 24 months and at 55° C over 6 months, respectively.
The applicant also indicated that generally, foods formed by fermentation have a higher risk of
containing microorganisms and that therefore a pasteurisation step is included in the final stages of
product manufacture. In addition, preparation of the product in the powder form lowers the amount of
moisture to < 15 % thereby reducing the potential for microbial growth and increasing the shelf-life of
the product. Limits on microbial growth are included in the product specification.
