Stem Cells: The guardian of the eight major systems of the human body

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Stem Cells: the guardian of the eight major systems of the human body

Stem Cells: the guardian of the eight major systems of the human body.  Stem cells have become the backbone of replenishing and renewing damaged cells due to their strong self-replication ability and multi-directional differentiation potential.

The human body is composed of eight major systems, which coordinate and cooperate with each other to ensure the normal conduct of various complex life activities in the human body.

However, various factors have caused different degrees of damage to the functional cells in each system. At this time, stem cells have become the backbone of replenishing and renewing damaged cells due to their strong self-replication ability and multidirectional differentiation potential.

1. Stem cells regulate the digestive system

The digestive system consists of two parts: the digestive tract and the digestive glands.

Functions: Ingest, transport, digest food and absorb nutrients, excrete waste, and provide materials and energy required by the body.

Stem cells can differentiate into various functional cells of the digestive system, such as various functional cells of the gastrointestinal tract and liver. These new functional cells can replace necrotic cells and restore the normal physiological structure and function of the human digestive tract and digestive glands. .

2. Stem cells repair the respiratory system

The respiratory system is a general term for organs that perform gas exchange between the body and the outside world.

Function: Perform gas exchange with the outside world, inhale oxygen, exhale carbon dioxide, and perform metabolism.

Stem cells can differentiate into various functional cells of the human respiratory system, such as alveolar cells, fibroblasts, capillary cells, bronchial cells, etc. These new functional cells can replace necrotic and diseased cells and restore trachea, bronchus, and lungs. Function, and then restore the normal physiological structure and function of the respiratory system.

3. Stem cells improve the endocrine system

The endocrine system is composed of endocrine glands and endocrine cells distributed in other organs. In addition to the regulation of the nervous system, the regulation of human physiological activities is also regulated by hormones secreted by the endocrine system organs.

The occurrence of endocrine diseases is caused by the pathological changes of the endocrine glands. Problems in the endocrine system can cause various diseases such as hyperthyroidism, hypothyroidism, hypoadrenal function, adrenal hyperfunction, and medullary diseases. Women are prone to cause menopausal syndrome, premature ovarian failure, polycystic ovary, etc., and men are prone to cause hypogonadism.

Stem cells can differentiate into various functional cells of the human endocrine system, such as thyroid follicular epithelial cells, adrenal epithelial cells, adrenergic cells, etc. These new functional cells can replace necrotic cells and restore human thyroid hormone, adrenal hormone, The normal secretion of pituitary hormones restores the mutual regulation of the endocrine system, the nervous system, and the immune system, and together maintains the normal state of the body.

4. Stem cells protect the blood circulatory system

The blood circulatory system is the channel through which blood flows in the body and is composed of blood, blood vessels and the heart.

Function: transport all nutrients to each cell, and then transfer waste from cell metabolism into the blood.

The functional cells in the blood circulatory system are easily damaged. We often hear that hypertension is caused by problems with the functional cells of the blood circulatory system, which leads to problems in the blood circulatory system. Cardiovascular and cerebrovascular diseases such as coronary heart disease and myocardial infarction, which are easily caused by high blood pressure, can be said to be caused by damage to the functional cells in the blood circulatory system.

Stem cells are seed cells in the human body, which can differentiate into many kinds of cells in the body. Healthy and young stem cells can differentiate into cells that constitute the blood circulatory system, replace diseased and necrotic cells, gradually restore the normal physiological structure and function of the blood and heart, protect the blood circulatory system, and prevent and treat coronary heart disease, myocardial infarction and other diseases Both have excellent results.

5. Stem cells repair the nervous system

The nervous system is composed of nerve cells, mainly including the brain and spinal cord.

Function: Information exchange is realized by receiving, integrating, transmitting and outputting information. That is to say, the function of nerve cells in the human body is to produce various human mental activities and control their own behaviors.

When the human brain and spinal cord are severely damaged, and the nerve cells are severely damaged, people will lose the ability to move freely, causing paralysis, Parkinson, etc., and also lose the ability to grasp emotions, leading to autism, Alzheimer’s, etc.

Neural stem cells are a type of stem cell group that has the ability to differentiate into nerve cells, which can differentiate into nerve cells in the human body. Neural stem cells can accumulate in damaged tissues to repair and replenish damaged nerve cells. They can also secrete many nutritional factors to promote the repair of damaged cells. Finally, neural stem cells can also strengthen the connections between nerve synapses and establish new neural circuits.

6. Stem cell protection exercise system

The movement system is composed of three organs: bone, bone connection and skeletal muscle.

With age, bone and joints will inevitably undergo degenerative changes due to sports wear, which is a normal manifestation of aging. The increase in age means the increase in “wear and tear”, which is like the appearance of wrinkles on the face, whitening of hair, and presbyopia when people are old. The aging performance of the motor system may be the degeneration of the intervertebral disc and the subsequent appearance. Lumbar spurs and so on. This is a natural phenomenon, the law of normal metabolism of the human body.

Stem cells can differentiate into young and healthy bone cells, osteoblasts, osteoclasts and all the cells needed by bone tissue, while stimulating the growth of muscle cells and bone cells, reducing fatigue in the skeletal system, enhancing the body’s control ability, and maintaining the movement of skeletal muscles. Ability to make muscles stronger, relieve symptoms of waist and knee soreness, and restore the youthful vitality of bones.

7. Stem cells adjust the urinary system

The urinary system is composed of kidneys, ureters, bladder and urethra, and its main function is excretion.

Stem cells can differentiate into various functional cells of the human urinary system, such as flat cells, podocytes, and mesangial cells in the glomerulus. These new functional cells can replace necrotic and diseased cells and restore glomerular filtration Function and reabsorption of renal tubules, and then restore the normal physiological structure and function of the urinary system.

8. Stem cells improve the reproductive system

The reproductive system is a general term for the organ components closely related to reproduction in the organism.

Functions: produce germ cells, reproduce new individuals, secrete sex hormones and maintain side sex characteristics. Stem cells can repair the aging and degeneration of the reproductive system, restore system functions, and enhance the body’s youth and vitality.

Stem cell storage and treatment are the development direction of future medicine. Its excellent self-replication ability and multi-directional differentiation potential play an important role in the fields of disease treatment and biomedicine. It is a major revolution in traditional medical methods and medical concepts.

(sourceinternet, reference only)

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