THE Electrofuel
An intra-workout blend, formulated for the dedicated
THE Electrofuel. Designed for the dedicated and backed by experts, it’s time to optimise your body’s potential.
Boasting 30g of carbohydrates per serving, with a precise 2:1 maltodextrin to fructose ratio, the formulation delivers the energy you need to fuel your training. Designed to provide a balanced and efficient source of energy to your muscles when you need it most.3
Added electrolytes, sodium and potassium, will help replenish the minerals lost through sweating and support optimal muscle function.1
- Optimal intra-workout blend.
- 30g of carbohydrates — providing the fuel for your day whilst boosting recovery.3
- 2:1 maltodextrin: fuctose ratio
- 300mg Sodium
- Suitable for vegetarians and vegans
Prolonged bouts of high-intensity exercise require a dedicated fueling strategy. Maintaining your muscle glycogen stores, blood sugar levels, and fluid balance all play crucial roles in athletic performance.
THE Electrofuel is formulated with a 2:1 maltodextrin to fructose ratio, and key electrolytes, as sweat loss induced dehydration and muscle glycogen depletion cause muscular fatigue in endurance exercise.
Pre-emptive carbohydrate loading and the onboarding of adequate carbohydrates and electrolytes during exercise can delay the onset of fatigue and further extend your ability to perform at a higher intensity for longer periods of time.
1. Potassium contributes to normal muscle function
2 .Magnesium contributes to electrolyte balance
3. Carbohydrates contribute to the recovery of normal muscle function (contraction) after highly intensive and/or long-lasting physical exercise leading to muscle fatigue and the depletion of glycogen stores in skeletal muscle. This beneficial effect is obtained with the consumption of carbohydrates, from all sources, at a total intake of 4g per kg body weight, at doses, within the first 4 hours, and no later than 6 hours, following highly intensive and/or long-lasting physical exercise leading to muscle fatigue and the depletion of glycogen stores in skeletal muscle.