Last Updated on September 16, 2022
If you’re a dedicated athlete, you’ve probably wondered how to use Topical Edge. The benefits of using this product are numerous, including improving your recovery time and helping you train harder. Time is a precious commodity for many athletes, and Topical Edge is an extremely convenient way to build strength. In addition to making you more efficient, Topical Edge also reduces perceived exertion, allowing you to focus on improving your performance.
Bicarbonate buffers lactic acid
Sodium bicarbonate is used in EDGE to buffer lactic acid, which can have a positive impact on performance. It can be extremely gastrointestinal to take orally, which is why the EDGE formulation utilizes a transdermal delivery method. This allows the bicarbonate to reach the muscles without adverse effects. Bicarbonate-buffered solutions may help to reduce cardiovascular events, lower blood pressure, and decrease the occurrence of hypotensive events. However, the researchers did not assess other primary outcomes.
The pH 5.6 bicarbonate buffer system offers significant advantages in the development of new dosage forms. For example, compared to a glucose-polymer solution, bicarbonate buffers significantly reduce the amount of lactic acid released. However, the buffer system does have disadvantages. It can be difficult to work with in the laboratory, and may not provide physiologically relevant dissolution tests. The film model approach is an alternative that can provide more relevant dissolution tests.
The researchers involved in Topical EDGE recruited eight competitive cyclists. Each participant completed two high-intensity intervals on two days apart. Half of the participants were randomly assigned to use the PR Lotion, and the other half used a control lotion containing all the ingredients of PR Lotion except the active ingredient. After the first session, the participants crossed over to the alternate lotion. This rigorous study design helped the team identify which lotion was more effective.
In addition to increasing the amount of bicarbonate in muscle tissues, bicarbonate supplementation may enhance muscle buffering capacity. It may increase the intensity and duration of training, and augment the buffering capacity gained through training. In this way, bicarbonate can help the body recover more quickly from intense exercise. The bicarbonate buffering effect is particularly important in the case of endurance athletes who compete in multiple events per day.
In the gastrointestinal tract, a gastro-resistant product takes 2 h to disintegrate. However, in vitro tests are not necessarily a good predictor of in-vivo behaviour. Consequently, bicarbonate buffers are an excellent way to monitor drug release. The pH of the small intestine can be used to evaluate drug release. Consequently, it is important to understand how bicarbonate buffers work in the body.
It lowers heart rate
One of the key goals of training is to feel better, and a product like Topical Edge is designed to achieve that goal. By decreasing heart rate, athletes can train harder and recover faster. Research has shown that Topical Edge can lower heart rate significantly. The product has been tested on athletes and shown significant changes in physiology. During high-intensity tests, blood lactate levels were increased by 11% in users compared to controls. This may help with performance, as lactate provides fuel to muscles working anaerobically.
The clinical trial on the effectiveness of Topical Edge showed that it lowered heart rate and improved recovery time for athletes, both during and after a grueling five-minute time trial. In addition, athletes reported lower perceived exertion while exercising for fifteen minutes. These results suggest that the product may actually be able to lower athletes’ heart rates by as much as 13%, depending on the athlete’s goals.
It reduces perceived exertion
A new clinical trial involving an application of Topical Edge has found that athletes’ perceived exertion levels decrease after using the product. The study found that athletes who used the product experienced a reduction of up to 37% in heart rate after five minutes of intense exercise, compared to the placebo group. Additionally, the athletes experienced a decreased perceived exertion level after a 15-minute time trial, with the same power output and less tax on the body.
The researchers tested the product on eight competitive cyclists and had them complete two sessions of high-intensity intervals on separate days. The first session was performed by the participants in the placebo group. The second session was conducted by those in the PR group, while the placebo group completed the same tests as the first. This double-blinded, randomized controlled crossover trial was used for the study. The researchers found that Topical Edge significantly reduced perceived exertion and decreased recovery time in endurance athletes, and was able to improve the muscle’s performance.
Using the Borg Rating of Perceived Exertion (RPE) scale, researchers can measure how much physical activity an individual feels is exerting. The Borg RPE scale is a measurement of the intensity of physical activity and includes six to twenty anchors. A rating of 12 to 14 indicates moderate intensity, while a higher score means a higher exertion level. This measurement allows for a better assessment of actual heart rates in the same situation.
In addition, the EIP scale is a category scale with ratio properties. Participants choose a number from 0 to 10 that is higher than 10. The authors provided standardized instructions for each scale and replicated the results from the first study. The findings support the hypothesis that the EIP-induced muscle soreness increases an individual’s perceived exertion during MIE exercise. However, the study also found that EIMD had no effect on maximum rate of perceived exertion. Moreover, EIMD reduced TTE and power output.
It reduces muscle soreness
In a well-designed study on athletes, Topical Edge reduced delayed onset muscle soreness (DOMS), heart rate, perceived exertion, and blood lactate. DOMS is a measurement of pain after vigorous exercise. Using Topical Edge reduced DOMS by 53.5%, while the control group experienced a continued rise of 34.3%. These improvements in recovery time and muscle soreness are significant in helping athletes train harder and make larger gains.
Because muscles produce acid as a by-product during exercise, it’s important to neutralize it after a workout. Acidic muscle tissue lowers the pH level, disrupting nerve firing and causing muscle soreness. Bicarbonate can neutralize acid and reduce muscle soreness. Amp Human Performance has taken this science and applied it to the skin to help athletes recover quicker and reduce soreness.
Muscle soreness is caused by the damage to myofibrils, the tiny cells that make up each muscle fiber. Over time, these cells are damaged and can result in muscle soreness. Inflammation is a natural response to injury and inflammation causes muscle pain and swelling. But it’s not the only factor in delayed onset muscle soreness. Here are some tips to help you get the best relief from muscle soreness.
Using tart cherry juice before and after exercising helps minimize muscle strains and pains. One study found that tart cherry juice significantly reduced post-workout soreness by 18%. It is also a good idea to nap two hours after your workout. Restorative sleep helps the body release natural growth hormones and repair muscles. The results are promising for athletes. Soreness from exercise can be reduced when we sleep.
About The Author
Wendy Lee is a pop culture ninja who knows all the latest trends and gossip. She's also an animal lover, and will be friends with any creature that crosses her path. Wendy is an expert writer and can tackle any subject with ease. But most of all, she loves to travel - and she's not afraid to evangelize about it to anyone who'll listen! Wendy enjoys all kinds of Asian food and cultures, and she considers herself a bit of a ninja when it comes to eating spicy foods.