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✓ Ultra-filtered whey protein isolate
✓ Contributes to the maintenance of a tight muscle
✓ Very high protein concentration
✓ No carbohydrates and very low lactose content
|Reference: Vanilla||100 g||Per portion (30 g)|
|Fat||1 g||0,3 g|
|of which saturates||0,7 g||0,1 g|
|Carbohydrate||2,6 g||0,8 g|
|of which sugars||1,3 g||0,4 g|
|Protein||91 g||27,3 g|
|Salt||0,45 g||0,13 g|
|L-Leucin (BCAA)||9510 mg||2853 mg|
|L-Isoleucin (BCAA)||5880 mg||1764 mg|
|L-Valin (BCAA)||5590 mg||1677 mg|
Whey protein isolate (contains milk, soya lecithin), flavour, sweetener: E955.
Whey is obtained by filtering milk. The residue is dried to form whey protein concentrate. This whey protein concentrate still contains milk fats and milk sugars (lactose).
When whey protein concentrate undergoes additional filtration (membrane filtration), whey protein isolate is formed. Due to this additional processing, the whey protein isolate has a higher purity; a protein content of more than 90%, and it is virtually fat-free and lactose-free. In addition, whey protein isolate is better absorbed by the human body than whey protein concentrate.
Whey protein hydrolysate is created by hydrolyzing whey protein concentrate and/or whey protein isolate. During hydrolysis, protein splitting enzymes break down the long protein chains (pre-digestion) and whey peptides (short amino acid chains) are formed.
This makes the whey protein hydrolysate even more easily soluble and digestible even faster than even whey protein isolate. Whey protein hydrolysate is therefore also virtually fat-free and lactose-free.
Proteins contribute to the growth of muscle mass.
Proteins contribute to the maintenance of muscle mass.
Proteins contribute to the maintenance of normal bones.
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