H2 AND WORKOUTS

Supplemental molecular hydrogen (H2) is gaining popularity as a targeted antioxidant with effective and safe properties for various health concerns. While H2 provides benefits for everyone, it holds particular advantages for athletes. It can improve VO2 max levels and offer the following benefits:

1. Reduction of muscle fatigue
2. Maintenance of peak performance for longer durations
3. Acceleration of healing in soft-tissue injuries

As an elite athlete, I personally attest to these benefits. I incorporate H2 into my daily routine, and I continually witness improvements in my performance.

Today, we will explore in more detail how and why H2 impacts athletic performance.

Muscular Response to Intense Exercise

During exercise, the contraction of muscles enables every movement of your body. Intense workouts result in muscular exertion beyond normal levels, leading to the breakdown and rebuilding of muscle tissue—a fundamental aspect of training for athletic enhancement.

For athletes to succeed, they must strengthen their muscles and physical systems to handle more intense and prolonged muscular activity.

However, there is a balance to consider. The body has protective mechanisms to prevent damage and excessive stress. It signals the cessation of muscle function, induces soreness, and produces lactic acid.

The key question for many athletes is: How can I push harder and further?

The answer lies in one molecule: oxygen.

Oxygen: Powering Your Muscles The primary energy source for cells is adenosine triphosphate (ATP), which is produced within the mitochondria of nearly all cells in the body.

ATP is commonly generated through a process called glycolysis, which involves the breakdown of glycogen (blood sugar). Glycolysis can occur aerobically or anaerobically:

1. Aerobic glycolysis utilizes oxygen, resulting in the production of around 32 ATP molecules per glycogen molecule. This process is considered normal and healthy for energy production.

2. Anaerobic glycolysis occurs when cells lack sufficient oxygen. It is a less efficient process, yielding only two ATP molecules per glycogen molecule. Anaerobic glycolysis generates lactic acid waste and a higher quantity of harmful free radicals.

The oxygen supply to cells is crucial for athletic performance as it dictates the rate of fatigue and the duration of exertion. Heavy breathing during exercise reflects the body's effort to deliver oxygen where it is needed. Cardiovascular exercise plays a significant role in facilitating oxygen transportation.

Fatigue and soreness act as signals to prevent injury and damage. Pushing too hard leads to exercise-induced oxidative stress, which floods the system with harmful free radicals produced during anaerobic glycolysis.

How H2 Impacts Athletic Performance

H2 provides benefits throughout the entire workout cycle for athletes.

At the beginning, it improves cardiovascular performance by increasing oxygen supply to muscles and supports mitochondrial health for enhanced ATP production.

At the end, H2 acts as a selective and highly effective antioxidant, rapidly eliminating the free radicals generated by anaerobic glycolysis. This reduces exercise-induced oxidative stress and improves muscle performance, enabling athletes to exert themselves more intensely, for longer durations, and with less fatigue.

The best part is that H2 has no known contraindications or side effects.

Numerous studies have demonstrated remarkable results. While there is extensive research available, we will highlight a few particularly enlightening studies:

A double-blind placebo study conducted on male soccer players showed that those who took H2 experienced:

1. Reduced blood lactate levels
2. Improved decline of muscle function induced by exercise
3. A study on martial arts athletes revealed that those who received supplemental H2 experienced:
4. Reduced quantities of muscular lactic acid after intense exercise
5. Improved post-exercise heart rate
6. A double-blind study on overweight, middle-aged women demonstrated significant improvements with H2 supplementation in:
7. VO2 max (efficiency of oxygen delivery)
8. Time before exhaustion
9. Total work completed
10. A study on endurance cyclists investigating the effects of H2 on endurance found:
11. Participants who took H2 had a significantly longer period of peak power output compared to the placebo group
12. The test group experienced less fatigue

Another double-blind study involving 36 professional athletes with soft-tissue injuries during their sports season showed that those who used H2 as part of the trial had a quicker return to normal flexion and extension of the injured limb compared to the control group.

Considering my personal experience, extensive research, and the remarkable changes in performance and endurance, I decided to share this with the world. Hence, I now offer H2 Infuse, our revolutionary H2 supplement that provides one of the highest concentrations of H2 without requiring expensive equipment. Simply dissolve a tablet in a glass of water and enjoy.

If you seek to elevate your athletic performance, you are likely to experience remarkable improvements by incorporating H2 Infuse into your diet.

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References:

1. https://www.scientificamerican.com/article/why-does-lactic-acid-buil/
2. https://www.openanesthesia.org/aba_aerobic_vs/https://www.vital-reaction.com/blogs/news/molecular-hydrogen-and-athletes
3. https://todayspractitioner.com/hydrogen/the-performance-enhancing-effects-of-molecular-hydrogen-2/
4. https://pubmed.ncbi.nlm.nih.gov/22520831/
5. https://journals.lww.com/acsm-msse/fulltext/2016/05001/Molecular_Hydrogen_Affected_Post_Exercise_Recovery.3217.aspx
6. https://pubmed.ncbi.nlm.nih.gov/25295663/
7. https://www.researchgate.net/publication/332334918_Hydrogen_gas_from_clinical_medicine_to_an_emerging_ergogenic_molecule_for_sports_athletes
8. https://www.sportsperformancebulletin.com/nutrition-for-endurance-athletes/supplements/hydrogen-supplementation-can-add-sparkle-performance/