• Chemix ATP  Orange - 40 Servings

Chemix ATP Orange - 40 Servings

Item #: CMX27UPC: 860003220481
$44.95
-20% Off w/code DPS10
In stock

Chemix ATP is an ultra-premium, highly potent workout-enhancement product designed to increase your physical and mental endurance in the gym! ATP is a simple, yet extremely effective formula that contains 3 ingredients to help your body create more ATP(adenosine triphosphate), your body’s energy currency.

D-ribose is the sugar moiety that is part of all nucleotides such as DNA, RNA(it’s the “ribose” in deoxyribonucleic/ribonucleic acid) and more importantly ATP. D-ribose is critical for ATP re-synthesis, as it is the limiting-reagent for ATP synthesis. D-ribose is also responsible for making the enzyme cofactors NAD+ and FADH2+, which are crucial to cellular respiration during oxidative phosphorylation(the main source of ATP production in the body). Studies have shown that supplementing with D-ribose can replenish ATP levels to levels pre-exercising, as well as increase muscular strength and total work output. Subjects taking D-ribose for 4 weeks were able to perform almost 20% more reps vs the placebo! It was also shown to decrease DOMS, or delayed onset muscle soreness. Needless to say, D-ribose is crucial for training harder and longer in the gym.

Bottom line, ATP will allow you to push harder than ever before in the gym! The synergistic effect from these three well-studied ingredients will give you the physical and mental energy to train harder in the gym every day and allow you to recovery faster than ever. Say goodbye to DOMS and say hello to ATP!

References:
Mikulski, Tomasz, et al. "Effects of supplementation with branched chain amino acids and ornithine aspartate on plasma ammonia and central fatigue during exercise in healthy men." Folia Neuropathol 53.4 (2015): 377-86.

Staedt, Ulrich, et al. "Effects of ornithine aspartate on plasma ammonia and plasma amino acids in patients with cirrhosis. A double-blind, randomized study using a four-fold crossover design." Journal of hepatology 19.3 (1993): 424-430.

Saks, V. A., et al. "Role of the creatine/phosphocreatine system in the regulation of mitochondrial respiration." Acta Physiologica Scandinavica 168.4 (2000): 635-641.

Guimarães-Ferreira, Lucas. "Role of the phosphocreatine system on energetic homeostasis in skeletal and cardiac muscles." Einstein (Sao Paulo) 12 (2014): 126-131.

Hespel, Peter, et al. "Creatine supplementation: exploring the role of the creatine kinase/phosphocreatine system in human muscle." Canadian journal of applied physiology 26.S1 (2001): S79-S102.

Kreider, R. B., et al. "Effects of oral D-ribose supplementation on anaerobic capacity and selected metabolic markers in healthy males." International journal of sport nutrition and exercise metabolism 13.1 (2003): 76-86.

Cao, Wei, et al. "Effect of D-ribose supplementation on delayed onset muscle soreness induced by plyometric exercise in college students." Journal of the International Society of Sports Nutrition 17.1 (2020): 1-9.

Kerksick, C., et al. "Effects of ribose supplementation prior to and during intense exercise on anaerobic capacity and metabolic markers." International journal of sport nutrition and exercise metabolism 15.6 (2005): 653-664.

Seifert, John G., Allison Brumet, and John A. St Cyr. "The influence of D-ribose ingestion and fitness level on performance and recovery." Journal of the International Society of Sports Nutrition 14.1 (2017): 1-6