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Saccharin
The oldest sweetener of them all was discovered around 1879. Saccharin
itself is about 550 times sweeter than sugar, while sodium-type saccharin
has 450 times the sweetening strength of sugar. An important advantage
of saccharin is its stability in heat and cold. Saccharin also keeps
well in solutions of water such as lemonade. The strong flavour that
used to be associated with saccharin has now been virtually eliminated
as a result of improvements. Saccharin and cyclamate together makes
an optimum combination that increases the sweetening power while
providing a rounded, sugar-like flavour.
Cyclamate
Cyclamates were discovered around 1935. Cyclamate has 35 times the
sweetening power of sugar. Cyclamate is known for its excellent flavour,
and has proven itself particularly in combination with saccharin.
Cyclamate plus saccharin remains stable in cooking and baking. Saccharin
and cyclamates are excreted by the human body via the kidneys unchanged.
Aspartame
Aspartame is a more recent sweetening agent, having been discovered
only in 1965. It is a sweetening agent based on quasi-natural protein
components and is metabolised with them. It consists of two nutrition-biological
active amino acids that occur in over half of all of foodstuffs,
namely phenylalanine and asparagine. With around 4 kca/g, aspartame
is thus not wholly calorie-free. However, it has considerable sweetening
strength, being 200 times sweeter than sugar.
In
the USA, aspartame is known under the registered brand name NutraSweet. A marked
benefit of aspartame compared with other sweetening agents is its pleasant,
purely sweet sugar-like taste. Aspartame is less suitable for heating to high
temperatures, so is not recommended for cooking and baking or for products
sterilised by heat.
Sweetening
agents have synergetic characteristics, which means that the sweetening strength
of combinations of sweetening agents is greater than the sum of individual
sweetening agents.
Acesulfame K
Acesulfame K (E950), or Acesulfame Potassium, is a
calorie-free sweetener approved for use since 1983. It is an organic
synthetic salt. It is 200 times sweeter than sugar, has synergistic
sweetening effect with other sweeteners, has a long shelf-life and
is heat stable
It is often used as part of the sweetener composition of beverages.
Sucralose
Sucralose (E955) is a zero-calorie sugar substitute
artificial sweetener approved for use in the European Union since
2004. It is the only low calorie sweetener that is made from sugar.
Sucralose is produced by changing three alcohol groups on the sugar
molecule with three chlorine atoms. This results in a stable sweetener
that tastes like sugar without the calories. It is about 600 times
sweeter than sugar. It is heat stable and can be used for baking
and for products that require a longer shelf life.
Stevia
Stevia rebaudiana Bertoni is a small shrub native
to South America. It is a member of the Asteraceae family and has
proven adaptable to cultivation in many parts of the world. For centuries
its leaves have been used by the Guarani people of Paraguay to sweeten
beverages, until it was discovered by the Italian-Swiss botanist
Dr. Moisès Santiago de Bertoni (1857-1929). The sweet components
found in the Stevia leaf are up to 200 times sweeter than sugar and
have no caloric content.
Rebaudioside A (Reb A) is the sweetest and purest extract of the
Stevia leaf. This is used for the sweetener.
Stevia is not yet allowed in the European Union. The authorisation
procedure is in progress.
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