Cord and cord blood stem cells are the first gift from nature to a newborn baby, it contains stem cells that can help to protect your baby’s health, furthermore family members also a chance of using it for treatment.
With progressing research showing that stem cells may one day act as a super repair kit that can reconstruct damaged functions of organs, it is not hard to understand why more and more parents choose to preserve their newborn’s precious stem cells.
Cord blood stem cells are reputed in Europe and America as “The First Gift from God” to a newborn baby. Collecting cord blood is an once-in-a-lifetime chance at the instant of cutting the cord when your baby is born. For your newborn there is a 5-10 minute window to collect these cells. Cord blood stem cells are pure, regenerative, easily available, and less repulsive when used for future treatment. International literatures have recorded over 80 diseases have been treated with cord blood transplants with more usages progressing every day. Your decision will be vital to the health asset of your child and the family.
What are stem cells?
Every life form starts off with a fertilized egg developing into billions and billions of cells in the body; a fertilized egg originally comes from a single cell that differentiates into 2 cells, then 4, then 8… and so on, forming an individual. Stem cells, alike to tree stems that divide into nodes, is named that way because it is the first cells in the body and has the characteristics of “differentiating” into specialized stem cells and “self-renewal.”
Hematopietic Stem Cells, HSCs
|Hematopoietic stem cells (HSCs) are stem cells that give rise to all the blood cell types including myeloid (monocytes and macrophages, neutrophils, basophils, eosinophils, erythrocytes, megakaryocytes/platelets, dendritic cells), and lymphoid lineages (T-cells, B-cells, NK-cells). They are most commonly used to treat Malignancies Cancers, Blood Disorders. Immunodeficiencies and Metabolic diseases.|
Mesenchymal Stem Cells, MSCs
|Mesenchymal stem cells or MSCs are multipotent stem cells that have a high potential in differentiating into a variety of cell types. Cell types that MSCs have been shown to differentiate into in vitro or in vivo include osteoblasts, chondrocytes, myocytes, adipocytes, and, as described lately, beta-pancreatic islets cells. They are mainly used to treat chronic disease, enhance the regeneration of nervous system and restore damaged tissue and organs, thus shorten the recovery time after transplantation. Besides, MSC is capable of suppressing the effect of Graft Versus Host Disease.|