Stems cells from menstrual blood help treat damaged womb tissueNovember 15th, 2007 - 6:47 pm ICT by admin
Washington, Nov 15 (ANI): A scientist in Wichita, Kansas, has claimed that
he has identified a new type of stem cell that can be reproducibly isolated
from menstrual blood collected from healthy female subjects.
“We have many problems with our current methods of stem cell therapy, like
those taken from bone marrow. They may be rejected by the recipient and/or
have limited potential to generate new tissue. Now we’ve found a possible
new way to overcome these difficulties by using cells from menstrual blood,”
said Dr. Xiaolong Meng of the Bio-Communications Research Institute in
Cells collected from the menstrual blood of women include types which can be
cultured in the laboratory, which replicate almost 70 times in a very rapid
This replication rate is far faster than cells, which are currently used,
taken from umbilical cord blood and bone marrow.
Meng’s study has found that cells that thicken the womb wall during a
woman’s menstrual cycle contain a newly discovered type of stem cell, which
might be used in the treatment of damaged and/or old womb tissue.
The cells are so unique in their ability to develop into at least nine
different cells, including heart, liver and lung, that researchers call
Endometrial Regenerative Cells (ERC).
Not only do ERC replicate at a phenomenal rate of almost every 20 hours, but
they also they produce unique growth factors at a rate of almost 100,000
greater than cells from umbilical cord blood.
A mere 5ml of menstrual blood collected from a healthy woman provided enough
cells which after two weeks of culture provided beating heart cells.
The researchers suggest that the cells could be cultured at a large scale,
thereby providing an alternative to the current methods of using bone marrow
and umbilical cord blood, which itself poses threats of rejection.
The study is published in the Journal of Translational Medicine. (ANI)
Tags: bone marrow, communications research institute, erc, female subjects, heart cells, meng, menstrual blood, phenomenal rate, replicate, stem cell, translational medicine, umbilical cord blood, wichita kansas, womb