Consuming 5 Grams of Leucine post workout is precisely what your body needs for JET GAINS.
Leucine is one of the most effective ways to reverse exercise-induced protein degradation in muscle.
Leucine intake has been shown to directly stimulate muscle protein synthesis and inhibit muscle protein breakdown, ultimately promoting muscle growth by activating the nutrient-sensing molecule mTOR.
The muscle-building effect of leucine consumption has been shown in several studies to be most potent after resistance training.
Consuming 2.5 grams of betaine post workout is exactly what your body needs for JET GAINS.
Betaine increases cellular water retention through osmosis. The ability of betaine to maintain hydration reduces the negative impact that dehydration can have on exercise performance – and help your muscles look fuller with more volume after your training session on top of fuel post workout muscle gains!
Betaine’s uncanny ability to function as an osmolyte increases muscle growth by causing the muscle fiber to swell.
Betaine’s ability to function as a methyl donor increases the uptake of creatine into the muscle cell by stimulating the conversion of homocysteine into methionine, which effectively lowers homocysteine levels.
Consuming 5 Grams of Creatine post workout is exactly what you need post workout for JET GAINS.
Creatine monohydrate is one of the most well documented muscle building supplements of all time and for good reason.
JET GAINS utilizes the superior form of Creatine Monohydrate, Creapure™ for increased muscle gains.
Several studies have shown the positive influence of creatine monohydrate supplementation on high-intensity exercise performance, where the gains really happen!
Creatine supplementation increases power output during intense exercise, while also stimulating muscle gains from each workout.
The unique capacity of creatine to boost size and strength comes from its ability to function as a primary energy storage molecule that rapidly reverses the depletion of muscle cell energy during muscular contraction.