Anabolic steroids are synthetic versions of hormones that human body produces naturally. Their main role is to assure increased physical performance in all sports and athletic pursuits. Steroidal compounds enhance stamina, strength, weight and size of muscles and may improve the energy levels during physical training. Oral and injectable steroids posses the ability to increase athletic performance, have a positive effect on red blood cells production and bones density. The steroids are used in accordance with requirement and needs of any athlete individually. There are special compounds which are not suitable for women and a series of anti-estrogen products which main role is to counter the eventual side effects of steroids use and to restore natural testosterone levels of the human body. These compounds nowadays became an important part of muscle building process among professional athletes and bodybuilders, as well as regular people, males and females that have the goal to become more attractive and exhibit good looks. Follow us on Twitter | Steroids Store - Pinterest .
Human Growth Hormone’s metabolism effects include its major effect of shifting the human body’s preference of energy source from carbohydrates to lipids (fats). As a result, Human Growth Hormone use will commonly result in rising blood sugar levels (known as a diabetogenic effect). This effect is, of course, dose-dependent and directly correlated with doses. Excessive Human Growth Hormone doses or periods of use can possibly result in the beginning of type-2 diabetes. However, through its manipulation of energy sources from carbohydrates to body fat as the preferred source, the fat loss effects can be very dramatic and as a result will also decrease cholesterol levels. Human Growth Hormone also tends to deplete potassium, phosphorous, and sodium levels, which should be kept in mind by the user (proper supplementation with these minerals is advised especially with higher Human Growth Hormone doses). Human Growth Hormone also tends to have a lowering effect on circulating levels of T3 (thyroid hormone) , which can temporarily disrupt metabolism. Once again, this is a dose-dependent effect.