Aging and environmental issues can cause damage and loss of mitochondria in the human body. When the number of damaged mitochondria in a cell reaches a certain level and cannot repair themselves, it can lead to cell damage or even death, affecting the normal functioning of organs and tissues and eventually leading to the development of diseases. Mitochondrial recombination therapy extracts high-activity, high-quality healthy mitochondria from cells to repair the damaged mitochondria within affected cells, thus improving mitochondrial function and increasing cellular vitality to restore cells to a youthful state.

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What is Mitochondrial Activation Regeneration Therapy?

First of all, cells are the basic unit of structure and function in living organisms. All structures of the human body derive from cells, which is why cells are often called the building blocks of life. Especially primitive and undifferentiated stem cells are a type of cell that is not fully differentiated and has the potential to regenerate various tissues and organs. Adult stem cells, among stem cells, come from various tissues. In adult tissues, mesenchymal stem cells and progenitor cells serve as the body's repair system, replenishing mature tissues. Stem cells not only can differentiate into all specialized cells, but also maintain the normal turnover of new tissues such as blood, skin, or intestinal tissues. Therefore, timely recharging and activating the body's mitochondria is an advanced technology that makes stem cells more active. As long as the activity of the body's stem cells is high, the goals of regenerative medicine can be naturally achieved, allowing for the repair of damaged organs without relying too heavily on medication.

Targeting mitochondrial dysfunction in disease and aging

Deficiencies in mitochondrial function can lead to a decline in cellular vitality and even cell death, significantly impacting health and leading to aging and disease. To prevent diseases and protect mitochondria, you can use nutritional supplements containing mitochondrial activators to enhance mitochondrial activity within cells and achieve protective effects for mitochondria. Additionally, for treating diseases caused by damaged mitochondria, mitochondrial recombination therapy can be used, which utilizes high-activity, high-quality mitochondria to replace damaged mitochondria within cells, helping cells regain their original functions and return to a youthful state. On the other hand, in the application of stem cell therapy for diseases, using patented technology to strengthen the mitochondria of stem cells can enhance mitochondrial function, optimizing stem cell activity and improving the quality of stem cell therapy. Through the methods mentioned above, you can achieve both the maintenance and treatment of mitochondria to prevent aging and treat mitochondrial-related diseases.

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Activation and aging of mitochondria

Growth and aging are two sides of the same coin. When you are young, your body grows rapidly, so many reactions within your body accelerate to keep up. However, as you age, certain substances can accelerate aging, and some substances that help maintain youth gradually decline. The enzymatic activity within mitochondria decreases with age. Additionally, as age increases, the DNA within mitochondria is prone to mutations (mitochondrial DNA has a mutation rate 10 times that of nuclear DNA). If mitochondrial enzymes are unable to repair these DNA mutations, they accumulate and, to a certain extent, the mitochondria can no longer function properly. When the power plant of the cell doesn't function, energy cannot be produced, and the levels of oxidative free radicals rise significantly, damaging normal cellular substances. Although it doesn't rapidly destroy cells like a disease might, aging becomes like boiling a frog slowly in warm water, a self-induced and inevitable process that gradually causes organ damage. Nonetheless, early prevention of such damage, and reducing and protecting mitochondria from harm, can help minimize the destruction of normal cells and achieve health or even delay aging.