Iswari Supersnack Mix BIO Hemp Protein & Lucuma 60g
Iswari Supersnack Mix BIO Hemp Protein & Lucuma 60g
A balanced healthy breakfast for every day! A great blend of buckwheat groats, flakes of gluten-free and germinated oats, almond flour, Lucuma and hemp protein. More
Manufacturer: IswariProduct code: 5600244397505 Weight: 0.09 kgShipping and Payment
1,64 €
A balanced healthy breakfast for every day! A great blend of buckwheat groats, flakes of gluten-free and germinated oats, almond flour, Lucuma and hemp protein. More
Manufacturer: IswariProduct code: 5600244397505 Weight: 0.09 kgShipping and Payment
Product: Breakfast Mix Hemp Protein & Lucuma Product description: Breakfast Mixes from Iswari are unique because they are: RAW – their ingredients were processed at a low temperature up to 42 °C, Made of naturally gluten free ingredients, Low-glycemic – sweetened only with coconut sugar (delicious unrefined sweetener with 35 GI), Enriched by superfoods. 100 % Organic Ingredients: milled buckwheat, lucuma powder (14 %), coconut sugar, raw sprouted oat flakes, almond flour, hemp protein (8 %), raisins. Suggested Use / Preparation: Pour warm water or milk alternative (up to 42 °C) over 4 large tablespoons of the breakfast mix. Stir and wait for 2 minutes. Add slices of fresh fruit (banana, strawberry, apple, etc.). You can sweeten it with agave syrup or coconut sugar. The mix can also be used as a topping, i.e. add one or two tablespoons to cereal porridge or rice pudding, oat flakes, yoghurt, etc. to flavor your breakfast and increase its nutritive value. Manufacturing process: Mixing the ingredients and placing them into the pouches or tubes. Raw: yes Gluten: no Packing / Preservation / Shelf-life: 60 g pack / Store in a dry cool places. / Shelf life of 15 months from the day of sealed pack production. Country of origin: Czech Republic Ø Nutritional Values for 100 g: Energy 1625 kJ / 385 kcal Fat 7,7 g (of which saturated fatty acids 0,7 g) Carbohydrates 63,4 g (of which sugars16,3 g) Fiber 3,0 g Protein 14,1 g Salt < 0,03 g