Sustanon 250 profile
Sustanon 250 is primarily used for hormone replacement therapy, a mixture of testosterone esters that is thought to provide long-term testosterone release. It is thought that by using short, medium and long acting esters, the stable flow of the compound can be maintained and very infrequent injections will be required. However, this theory turned out to be wrong, because over time, the complex peaks in the blood decreased rapidly and slowly. To maintain stable blood levels, the drug must be injected as often as other short esters.
Sustanon 250 composition
Sustanon 250 was mixed with esters of testosterone in doses of 30mg propionic acid, 60mg phenylpropionic acid, 60mg isopropionic acid and 100mg decanoic acid. It should also be noted that there is a Sustanon 100. It is: 20mg propionic acid, 40mg phenylpropionic acid and 40mg isopropionic acid. Since Sustanon 100 does not contain decanoate, the active life of the compound is shorter than that of Sustanon 250. Apart from this difference, the compounds are quite similar.
Compared to other testosterone steroid
Sustanon 250, in addition to the ester compounds, has no distinct advantage over other testosterone compounds. The effect should be much the same as that of any testosterone compound. In terms of the effect of esters, Sustanon 250 appears to be the most detrimental. Many users have complained of water-retention problems with long-acting esters, but the compound should be injected regularly due to the presence of long-acting esters. This leads many users to choose another testosterone ester that is better designed for their target.
Testosterone promotes strength and muscle growth through a number of mechanisms. First, testosterone promotes the retention of nitrogen in muscles, which allows them to store more protein and promote the repair and growth of these muscles. Secondly, testosterone binds to androgen receptors, promoting receptor-dependent mechanisms of muscle growth and fat loss. Testosterone also helps increase the concentration of androgen receptors in cells, which are essential for muscle growth and repair.
As mentioned earlier, testosterone plays a role in promoting fat loss. Testosterone binds to androgen receptors in fat cells. This breaks down body fat and prevents the formation of new fat. Of course, since testosterone promotes muscle growth, it also indirectly promotes fat loss, since any excess calories could be used to build muscle rather than as body fat.
Like most anabolic steroids, testosterone increases the production of red blood cells. An increase in the number of red blood cells in the blood can improve endurance through better oxygenated blood, as well as the user’s ability to recover after strenuous exercise. It should be noted, however, that there are other steroids and compounds that are much more adept at this function.
Other mechanisms by which testosterone helps promote anabolism include its role in promoting the growth of insulin factor 1 and inhibiting the release of catabolic hormones in the body. Testosterone also has many advantages when it comes to improving performance. That is, it has the ability to increase the number of muscle motor neurons, which improves muscle contraction. Like many other anabolic steroids, testosterone promotes glycogen synthesis. This, of course, helps increase the user’s endurance and strength by providing more fuel for high-intensity exercise.
Like other testosterone compounds, the drug dose a user takes depends largely on the user’s experience and goals. Testosterone users with doses as low as 200-250 mg/week reported good results, with experienced users taking several grams of testosterone per week. It is widely used. That includes women taking testosterone. Since some of the esters in Sustanon 250 have a longer active life, it is not recommended that women take Sustanon 250 or other long-acting formulations.