Humans Only Suffer from One Disease—Cellular Disease

The World Health Organization (WHO) defines "health" as "a state of complete physical, mental, and social well-being, not merely the absence of disease or infirmity." However, according to experts, only 15% of China's population meets this definition of health. Meanwhile, 15% are in a state of illness, and the remaining 70% are in a state of "suboptimal health" or "subhealth."

In simpler terms, these 70% of people typically do not exhibit organ, tissue, or functional diseases or defects, but they often feel unwell, experiencing fatigue, sluggishness, reduced vitality, and diminished adaptability. They frequently find themselves in states of anxiety, irritability, and helplessness.

Cells are the most basic units of the human body, which consists of 50-70 trillion cells. Only when cells are healthy can tissues and organs function properly. If some cells in the body malfunction, it can trigger a chain reaction, leading to suboptimal health—conditions that doctors cannot diagnose as diseases.

A report from the Chinese Academy of Social Sciences warns that if Chinese intellectuals fail to address their suboptimal health, many will gradually develop liver disease, kidney disease, bone and joint disorders, and two-thirds may die from cardiovascular diseases.

A study conducted by a California hospital involved autopsies of 300 young individuals who died in car accidents. These individuals were in their prime, seemingly healthy and vibrant. However, the autopsies revealed that their blood vessels were partially blocked to varying degrees. While they were not classified as cardiovascular patients during their lifetime, their conditions represent the often-overlooked state of suboptimal health and chronic disease.

01. The Root of Suboptimal Health: Cellular Dysfunction

The New York Times bestseller Choose Health states, "Humans suffer from only one disease—cellular disease."

In the context of true health, whether it's a common cold, a mental health condition like depression, or a life-threatening illness like cancer, all diseases stem from cellular dysfunction. When you are in a state of suboptimal health, it means your cells are malfunctioning and sending you a warning.

Three Stages of Cellular Dysfunction:

Cellular Dysfunction (Suboptimal Health)

Local Tissue Damage (Ulcers, Inflammation)

Organ Function Decline (Diabetes, Uremia, Hypertension, Heart Disease, etc.)

When cells malfunction, the body can no longer maintain homeostasis, self-regulation, and repair. This is the root cause of disease. In other words, true health is a state where all cells are functioning optimally.

In suboptimal health, subtle changes occur in cells. Some studies suggest that alterations in cell membranes lead to ischemia and hypoxia in tissues, resulting in reduced physiological function, particularly in brain cells, which lowers the central nervous system's responsiveness.

Characteristics of Suboptimal Health:

Functional changes rather than pathological damage.

Observable physical changes without detectable pathological alterations using current medical technology.

Poor quality of life, with prolonged low health levels.

Unhealthy signs outside the affected areas of chronic diseases.

Multi-organ dysfunction or disorders cause a range of symptoms.

Normal results in routine medical checkups.

Due to factors like excessive work pressure, irregular diets, lack of exercise, and more, an increasing number of people are experiencing suboptimal health. This state represents the early stage of disease, and timely intervention can effectively prevent the onset and progression of illnesses.

02. Cellular Oxygenation: A Solution to Suboptimal Health

Cellular oxygenation supports self-renewal and differentiation, maintaining a dynamic balance between tissue regeneration and decline. However, as people age, the number and activity of stem cells in the body significantly decrease, leading to aging and disease.

Cellular oxygenation can repair and regulate damaged cells, activate dormant cell functions, increase the number of healthy cells, enhance cell activity, improve cell quality, and prevent or delay cellular aging. This approach fundamentally treats diseases and slows aging.

1) Improving Bone and Joint Function

Once bone and joint tissues are damaged, they are difficult to repair, often leading to irreversible degenerative joint diseases. Cellular oxygenation promotes the secretion of cartilage-specific type II collagen and proteoglycan matrices, aiding in the repair of damaged bone tissues. Implanting stem cells into cartilage injury areas can regenerate cartilage matrices or new bone tissues, effectively repairing bone defects. Stem cell therapy for bone and joint health is a proven method to prevent degenerative orthopedic diseases and maintain joint health.

This technology has been introduced in six countries and regions, with over 100,000 clinical cases treated. In China, eight years of clinical trials involving more than 2,000 patients have shown remarkable results, proving the safety, efficacy, and lack of side effects of this approach.

2) Enhancing Liver Function

Cellular oxygenation targets the liver, promoting synthesis, detoxification, and bilirubin excretion (or reducing bilirubin and transaminase levels). It significantly increases albumin, serum PIP, and hepatocyte growth factor levels, delaying or preventing liver fibrosis. By regenerating liver cells and restoring normal liver function, cellular oxygenation keeps the liver youthful.

3) Improving Lung Function

Cellular oxygenation homes to damaged lung tissues, repairing injured cells and laying the foundation for lung tissue repair and functional recovery after fibrosis. The regeneration rate of lung tissues (alveoli, blood vessels, etc.) exceeds the destructive effects of external stimuli and internal inflammatory factors. Stem cells inhibit inflammation, prevent and eliminate pulmonary fibrosis, and maintain healthy lung function.

4) Boosting Kidney Function

Cellular oxygenation targets damaged kidney tissues, improving local microcirculation, restoring normal cell metabolism, and creating a new oxygen-rich environment. This alleviates symptoms of kidney failure caused by ischemia and hypoxia, repairing damaged cells and rebuilding kidney tissues.

Animal studies have shown that mesenchymal stem cells effectively repair renal tubules, significantly improving kidney conditions.

5) Enhancing Ovarian Function

For women, the ovaries are vital organs that influence fertility and overall health. Premature ovarian failure not only affects fertility but also has widespread systemic impacts. Ovarian function repair and improvement are closely linked to the function, quantity, and activity of stem cells.

Cellular oxygenation improves the ovarian microenvironment through paracrine effects, repairing damaged ovarian tissues and restoring normal physiological functions.

6) Rejuvenating Male Function

Scientists have reported that cellular oxygenation can restore erectile function in men who have undergone prostate surgery. A Phase 1 clinical trial involving 15 men with post-surgery erectile dysfunction showed that after cellular oxygenation, 8 men regained normal sexual function without medication or penile implants.

As a groundbreaking medical advancement, cellular oxygenation represents a revolutionary breakthrough beyond traditional drug and surgical treatments. To truly overcome suboptimal health, repairing and renewing human cells is essential. This approach also holds immense promise for treating major refractory diseases, offering new hope to countless patients.