5 Things You Didn’t Know About Cord Blood

If you’ve been doing research on cord blood, you already know that it’s an exciting area with the potential to revolutionize health care by providing new and effective therapies for previously untreatable diseases and conditions. Here are a few facts about cord blood that you might have missed.

The umbilical cord is not the only source of blood stem cells.
Stems cells, sometimes called the “master cells” of the body, are unspecialized cells that have the potential to develop into many different types of specialized cells in the body. In addition, in many body tissues, stem cells act as an internal repair system by dividing over and over again to replenish other cells as they die or are damaged. [1]

There are three possible sources of blood stem cells: [2]

  • Bone marrow – This is the spongy tissue in the center of some bones. Its main function is to make blood cells, including immune cells that recognize and fight infection. The hip bones contain the most marrow and have a rich supply of stem cells.
  • The bloodstream (also known as peripheral blood) – Normally, there are few stem cells in peripheral blood. However, giving a stem cell donor hormone-like substances called growth factors a few days before harvesting blood stimulates stem cells to grow more quickly and travel from the bone marrow into the bloodstream.
  • The umbilical cord and placenta – Stem cells can be collected from the blood remaining in the umbilical cord and placenta after childbirth.

Cord blood stem cells are different from other stem cells.
Although cord blood sometimes contains a smaller number of stem cells than samples collected from bone marrow or peripheral blood, the stem cells in cord blood are younger and each cord blood stem cell can form more blood cells than a stem cell from adult bone marrow. [2] Cord blood stem cells are more flexible than adult stem cells, meaning that they can have a lower risk of complications when used in transplants to other people. [3]

There is more than one type of stem cell in cord blood.
Cord blood actually contains two types of stem cells – blood-forming (hematopoietic) stem cells and connective tissue-forming (mesenchymal) stem cells. [4] The hematopoietic stem cells are sometimes referred to as cord blood stem cells and the mesenchymal stem cells are sometimes called cord tissue stem cells. To date, only cord blood stem cells are being used for medical treatment.

However, cord and placental tissue stem cells, as well as stem cells from placenta blood, may play an important role in an emerging medical field called regenerative medicine. Regenerative medicine involves repairing or replacing damaged body tissues and organs and restoring their function. [5] So far, scientists have learned that cord tissue stem cells have the potential to repair bones and regrow cartilage. [6] Over the next 10-20 years, the US Department of Health and Human Services expects that regenerative medicine will make significant advances. [5]

Banking blood from both the umbilical cord and placenta can make a difference.
After a baby is delivered, stem cells can be collected from both the umbilical cord and the placenta blood. LifebankUSA is the only cord blood bank in the world that offers this option. Collecting blood from both sources increases both the sample volume and number of stem cells collected. In particular, collecting from both the umbilical cord and the placenta increases the number of a certain type of stem cell called the CD34+ stem cell. [7] Research has shown that using more CD34+ stem cells can improve survival in transplant patients. [8]

The chances of using banked cord blood stem cells are higher than you think.
The use of cord blood has increased significantly over the past 15 years. According to recent estimates, the probability that a newborn or a family member might benefit from banked cord blood stems sometime in their life is approximately 1 in 400. [9] Keep in mind that, as advancements in stem cell research and treatment continue, the number of diseases and conditions that could potentially be treated with cord blood stem cells will likely increase.