Research
Stem Cell Theraphy
Stem Cell
The Core of Regenerative Medicine
Stem cells are undifferentiated cells that have not yet developed specific functions and possess the potential to transform into a wide range of cell types and tissues in the human body. They can differentiate into nerve cells, cardiac cells, and liver cells, as well as various tissues such as the brain, skin, cartilage, bone, and muscle, offering new possibilities for regeneration and recovery.
Types of Stem Cells
Research
Adult Stem Cell
Undifferentiated cells present in various tissues of the human body. They can be obtained from bone marrow, fat, umbilical cord blood, etc., and are capable of differentiating into the specific cells required by the body.
Embryonic Stem Cell
Stem cells derived from the embryonic stage, specifically within 14 days after the fertilization of an egg and sperm. They possess the ability to differentiate into all types of cells and tissues.
Induced Pluripotent Stem Cell
Stem cells created by reprogramming the genes of specific, fully developed somatic cells.
Stem Cell Theraphy
Stem Cell
The Core of Regenerative Medicine
Stem cells are undifferentiated cells that have not yet developed specific functions and possess the potential to transform into a wide range of cell types and tissues in the human body. They can differentiate into nerve cells, cardiac cells, and liver cells, as well as various tissues such as the brain, skin, cartilage, bone, and muscle, offering new possibilities for regeneration and recovery.
Stem Cell Characteristics
Homing Effect
Stem cells administered into the human body possess the inherent ability to autonomously locate and regenerate damaged areas within the body.
Self-Renewal
Stem cells are capable of proliferating into new cells that maintain the exact same form and functional capabilities as the original cell.
Multipotential
Driven by the body's physiological needs, stem cells in an undifferentiated state can differentiate into a wide variety of tissues and organs, such as the heart, bones, nerves, skin, and liver.
Applications of Stem Cells
Regenerative Medicine
• Description : Most actively utilized in restoring damaged tissues or organs.
• Examples : Cartilage, bone, heart, neurological diseases, etc.
Delaying Progression of Intractable & Rare Diseases
• Description : Utilized to slow the progression of intractable conditions - such as diabetes, liver cirrhosis, liver fibrosis, lung disease, and kidney disease - by providing tissue protection and anti-inflammatory effects.
Improving Immune Function & Reducing Inflammation
• Description : Plays a critical role in alleviating autoimmune diseases (e.g., rheumatoid arthritis, lupus) and inflammatory diseases (e.g., Crohn’s disease, atopic dermatitis).
Anti-aging & Aesthetics
• Description : Supports skin elasticity improvement, wrinkle reduction, and hair loss treatment through growth factors and exosomes secreted by stem cells.
PIPELINE SCHEDULE
Types of Stem Cells
Adult Stem Cell
Undifferentiated cells present in various tissues of the human body. They can be obtained from bone marrow, fat, umbilical cord blood, etc., and are capable of differentiating into the specific cells required by the body.
Embryonic Stem Cell
Stem cells derived from the embryonic stage, specifically within 14 days after the fertilization of an egg and sperm. They possess the ability to differentiate into all types of cells and tissues.
Induced Pluripotent Stem Cell
Stem cells created by reprogramming the genes of specific, fully developed somatic cells.
Stem Cell Characteristics
Homing Effect
Stem cells administered into the human body possess the inherent ability to autonomously locate and regenerate damaged areas within the body.
Self-Renewal
Stem cells are capable of proliferating into new cells that maintain the exact same form and functional capabilities as the original cell.
Multipotential
Driven by the body's physiological needs, stem cells in an undifferentiated state can differentiate into a wide variety of tissues and organs, such as the heart, bones, nerves, skin, and liver.
Applications of Stem Cells
Regenerative Medicine
• Description : Most actively utilized in restoring damaged tissues or organs.
• Examples : Cartilage, bone, heart, neurological diseases, etc.
Delaying Progression of Intractable & Rare Diseases
• Description : Utilized to slow the progression of intractable conditions - such as diabetes, liver cirrhosis, liver fibrosis, lung disease, and kidney disease - by providing tissue protection and anti-inflammatory effects.
Improving Immune Function & Reducing Inflammation
• Description : Plays a critical role in alleviating autoimmune diseases (e.g., rheumatoid arthritis, lupus) and inflammatory diseases (e.g., Crohn’s disease, atopic dermatitis).
Anti-aging & Aesthetics
Description : Supports skin elasticity improvement, wrinkle reduction, and hair loss treatment through growth factors and exosomes secreted by stem cells.
PIPELINE SCHEDULE
