To create energy, the cells of our body draw from our reserves, through a transformation process leading to the production of adenosine triphosphate (ATP). The red blood cells serve as a means of transport for the oxygen that will catalyze this energy reaction.
This oxidative process will therefore allow the production of energy in the form of adenosine triphosphate (ATP) but will also create free radicals. An imbalance between free radicals and antioxidant intake will cause oxidative stress. Without evacuation, these “wastes” can damage the cells at different degrees of severity.
These imbalances will lead to global aging, which will multiply the risk of chronic diseases such as cardiovascular disease or inflammatory pathologies. As a consequence, oxidative stress can lead to venous insufficiency, which can cause heavy legs, pain, varicose veins or cramps. This stress can also be the precursor of neurodegenerative diseases such as Alzheimer’s or Parkinson’s disease.
To counteract the effects of oxidative stress, antioxidants will compensate for the redox imbalance. These molecules are found in the body and can be provided through a diet rich in vitamins and trace elements.
GMOVE-SUIT, support of the redox balance
There is a dynamic balance between the production of free radicals and antioxidants. An imbalance can develop as a result of certain pathologies, too much sedentary life or as a consequence of an unbalanced diet.
To fight against this imbalance, a healthy lifestyle and regular physical activity will be real assets. In complement, the use of the GMOVE-SUIT will act at the cellular level by regulating the balance of the free radicals and antioxydants by improving circulation. GMOVE-SUIT can also help in the elimination of waste and accumulated toxins. It will also be a way to get some people out of a sedentary lifestyle and help them to do sports again.
GMOVE-SUIT, by its vascular action, is going to optimize the blood flow and allow the maintenance of the good delivery of oxygen, nutrients and the elimination of waste.