| abstract |
In the conventional technology, macromolecular polysaccharides, which the aloe vera gel inherently has, are broken down into small molecules for the following reasons: First, cellulose is broken down by the enzyme such as cellulose; Second, agitation in the cellulose breakdown process by the enzyme of cellulase and the like is performed in a heated state for an extended period of time; Third, nearly the same technique is employed also in the aloin absorption process by the activated charcoal; Fourth, a plurality of times of filtering causes intense oxidation to the gel juice. For the reasons described above, the molecular weight of macromolecular polysaccharides, which the aloe vera gel inherently has, is reduced to 80,000 dalton or less. Therefore, by use of the conventional technology, it is impossible to provide macromolecular polysaccharides that the aloe vera gel has in a state where aloin is removed. n To solve the above-mentioned problem, we provide aloe powder which is made from aloe vera gel, characterized by that a molecular weight of polysaccharides contained in the powder is not less than 400,000 dalton and an aloin content ratio of the powder is not more than 50 ppm. |