Regenerative Medicine
Medical Investment
stem cell therapy
Reverse the clock of life and regenerate the source of youth
The 60 trillion cells that make up the human body are constantly changing, aging and dying while constantly regenerating new cells. Stem cells are the seed cells that regenerate various tissue cells in the human body, acting as the body's cell production plant. Known in the medical field as "universal cells," stem cells are a type of multipotent cell with the ability to self-replicate. They can activate the body's own "self-healing function," enhance cell activity, improve cell quality, and prevent and delay cell pathology. They help the body achieve comprehensive recovery from disease and combat aging.
Three major types of stem cells
Three Types of Stem Cells
Population of pluripotent stem cells (iPS cells)
Population of pluripotent stem cells (iPS cells)
In 2006, Professor Shinya Yamanaka's team succeeded in establishing stem cells for the first time in the world. These cells have the ability to differentiate into cells of various tissues and organs and have the ability to proliferate almost indefinitely. By introducing specific genes, these cells can be restored to their pre-differentiation state.
By applying iPS cells to medicine, cells lost due to disease or injury can be created from iPS cells and transplanted, making regenerative medicine a reality.
Embryonic stem cells (ES cells)
The human body is composed of many cells, but these cells originally come from a single fertilized egg. ES cells are cells extracted from the first stage of the fertilized egg, called the blastocyst. Like iPS cells, ES cells have the ability to differentiate into a variety of tissue types and have the capacity to proliferate virtually indefinitely. ES cells have similar abilities to iPS cells, but because they do not carry the risk of developing tumors, they hold promise for medical treatment. However, creating embryonic stem cells from fertilized eggs presents challenges due to ethical concerns.
Mesenchymal stem cells (MSCs)
Mesenchymal stem cells are stem cells that can be isolated from tissues such as fat, bone marrow, and teeth, and can differentiate into fat, bone, and nerves. Unlike iPS cells and ES cells, these stem cells use cells that have already differentiated to a certain degree, so the direction of differentiation is limited.
Mesenchymal stem cells have been proven to be highly safe and are widely used in various medical applications both domestically and internationally. These stem cells are isolated from the body's own cells and can differentiate into bone cells, cartilage cells, nerve cells, muscle cells, and more. Stem cell therapy is recognized as an effective treatment for a wide range of diseases and is currently one of the most sought-after areas of regenerative medicine.
Clinical Applications of Stem Cells
Clinical Application Of Stem Cells
干细胞技术最显著的价值是:通过对干细胞进行体外分离、培养、定向诱导分化等,能够培养出一种全新的、正常的、更年轻的细胞、组织、器官等。然后通过特殊的技术移植到体内,代替那些正常或非正常死亡的细胞,为多种难治性疾病的治疗带来了划时代的革命。
Stem cell culture process
Stem Cell Cultivation Process
Autologous fat harvesting
stem cell culture
Stem cell intravenous transfusion
Stem Cell Therapy Process
Treatment algorithm
Treatment uses stem cells extracted from the patient's own abdominal fat. The extracted fat is separated, purified, cultured, and expanded to create a fibroblast precursor cell injection solution, which is then infused back into the bloodstream, the affected area, or subcutaneously to achieve both disease treatment and cosmetic and anti-aging benefits.
