Anti-Aging

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Anti-Aging, Chronic Inflammatory Aging

By extending telomeres, the aging of cells is delayed, enhancing tissue repair and regenerative capacity.

Cellular Disorders

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Neurodegenerative Disorders

Examples include Amyotrophic Lateral Sclerosis (ALS), Parkinson's Disease (PD), and similar conditions involving progressive nervous system degeneration.

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Autoimmune Disorders

Conditions such as Systemic Lupus Erythematosus (SLE), Rheumatoid Arthritis (RA), Multiple Sclerosis (MS), and Myasthenia Gravis (MG) arise from the immune system mistakenly attacking the body's own cells.

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Cancer

Characterized by the uncontrolled growth and division of diseased cells, which may metastasize through the blood and lymphatic systems.

Telomeric Transmission Therapy,
by maintaining and repairing telomeres and cells in a non-invasive manner,
paves new ways for anti-aging and delaying diseases related to cellular aging.
Discover Our Approach Films

The common roots of human aging and various diseases can be traced back to cellular decline and functional degradation. Thus, the health and lifespan of the human body are largely dependent on the health of its cells.

Influencing Factors of Cellular Aging:

01.
Cellular Decline

Over time, cells gradually lose the ability to divide and maintain functions, leading to tissue function decline and related age-associated diseases.

02.
DNA Damage and Repair Imbalance

The accumulation of DNA damage affects the normal functioning of cells, being a critical factor in aging.

03.
Telomere Shortening

Telomeres, located at the ends of chromosomes, shorten gradually until they reach a critical length, causing cells to stop dividing and enter a state of aging.

04.
Chronic Inflammation

During cellular aging, an increase in chronic inflammation promotes the development of various age-related diseases.

Functions of Telomeres:

Protective Role:

Telomeres protect the ends of chromosomes, preventing DNA breaks and chromosomal end fusion, maintaining the integrity of genetic information.

Regulation of Cell Lifespan:

The length of telomeres serves as a “timer” for the number of times a cell can continue to divide, affecting cell lifespan. Excessively short telomeres trigger cellular aging processes, leading to functional decline.

In reality, genetic factors often determine the risk of developing certain diseases.

While lifestyle improvements can reduce the likelihood of illness, they cannot fully stop the cellular aging process.

Genetic factors not only affect disease risk but also influence telomere length and stability.

Some hereditary conditions are linked to the accelerated shortening of telomeres, leading cells to age prematurely.

Therefore, Telomeric Transmission Therapy is not only suitable for personal health management but is particularly valuable for individuals with a family history of genetic diseases.

This therapy can slow disease progression and offer preventive intervention before the onset of illness, helping individuals maintain their health more effectively.