More than 90% of free radicals in cells are generated in mitochondria, so the risk of mitochondrial damage is greatest. The heart is the logistics and distribution center, mitochondria are the power plants of life, and ATP is the courier, transporting energy to all parts of the body to maintain our life activities.
Research demonstrates that damage caused by free radicals initiates a self-perpetuating cycle in which oxidative damage impairs mitochondrial function, leading to the production of more free radicals.
Aging is a major predictor of most chronic diseases, which account for the majority of global morbidity, hospitalizations, health costs and mortality, and age is also a major risk factor for geriatric syndromes, including frailty and immobility and reduced physical resilience.
So what ingredients can fight oxidative free radicals?
Glutathione peroxidase is the most important anti-free radical enzyme in the human body. It combines with toxins and metals in the body to protect the body from free radicals and is the key to eliminating free radicals in the liver and lungs. , toxins and toxins in the intestines and kidneys, breaking down the key component of acetaldehyde, thereby shortening the duration of hangovers and combating the toxic effects of alcohol and drugs.
Is an antioxidant that helps protect nerve cells from damage caused by harmful chemicals called free radicals. When diabetic patients have poor blood sugar control, they are prone to neuropathy, with symptoms such as numbness and pain in their feet, burning or pin-pricking pain. If not treated in time, poor blood sugar control may lead to further aggravation of peripheral neuropathy, thus affecting daily life.
NDA+ is an antioxidant coenzyme. As a key participant in metabolism, it plays an important role in energy production. The scientific research team of Shanghai Jiao Tong University School of Medicine conducted a large-scale study on blood NAD+ (nicotinamide adenine dinucleotide) and Correlation analysis between age and gender found that there are significant gender differences in the relationship between blood NAD+ levels and aging. Male NAD+ levels decreased significantly with age, especially in middle-aged and elderly men.
*Special note - This article is for informational purposes only and cannot replace a doctor's treatment diagnosis and advice. It should not be regarded as a recommendation or proof of efficacy of the medical products involved. If it involves disease diagnosis, treatment, and rehabilitation, please be sure to go to a professional medical institution to seek professional advice.