Cordygen NanO2 Review
Imagine your next big race or workout. Now, imagine taking it to the next level. Picture yourself being able to exercise at a higher level with a lower heart rate. See your body processing oxygen easier, burning fat faster, and getting better results.
This is what the new product Cordygen-NanO2 claims to do. By helping the body process and use oxygen, it aims to enhance athletic performance.
But is Cordygen-NanO2 really going to turn your athletic dreams into real results?
Cordygen-NanO2 Ingredients
Among cordyceps-based products, Cordygen-NanO2 is supposedly the best because it acts quicker and is easier on the stomach. Here's a breakdown of its main energy-enhancing ingredients:
Potato Maltodextrin - a fast-digesting food additive.
Isomaltulose - a sugar substitute which helps the body keep energy longer.
Trehalose - a preservative.
Cordycepin - originally extracted from a fungus, it is now produced in a lab. In clinical studies, Cordycepin improves exercise endurance in rats [1] and reduces fatigue in mice. [2] Unfortunately, results in humans have yet to be proven.
Adenine - aids cellular respiration, thus improving metabolism and fat burning.
Adenosine - helps in energy transfer and may increase energy, a great benefit for athletes.
Cordygen-NanO2 Dosage
The directions say to mix one serving into 2 to 8 ounces of water and drink 15 to 30 minutes before training or competition. Cordygen-NanO2 may be taken on non-training days as well. It's important to pay attention to how your body reacts to the product.
To Take Or Not to Take?
Cordygen-NanO2 appears to be both effective and safe, a rare combination in an athletic supplement. If you are an athlete looking for an extra boost to help you see results, Cordygen-NanO2 may be a good bet.
References
[1] Kumar, Rajesh; Negi, P.S.; Singh, Bhagwat; Ilavazhagan, Govindasamy; Bhargava, Kalpana; Sethy, Niroj Kumar. "Cordyceps sinensis promotes exercise endurance capacity of rats by activating skeletal muscle metabolic regulators." Journal of Ethnopharmacology. 2011 136 (1): 260-266. Available from: http://www.sciencedirect.com/science/article/pii/S0378874111002923
[2] Yan, Feng; Zhang, Yan; Wang, Beibei. "Effects of polysaccharides from Cordyceps sinensis mycelium on physical fatigue in mice." Bangladesh Journal of Pharmacology. 2012 7 (3). Available from: http://www.banglajol.info/bd/index.php/BJP/article/view/11727
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