Microchimerism, Lupus, and Diabetes Medical Education on ReachMD

Ready to Claim Your Credits?

You have attempts to pass this post-test. Take your time and review carefully before submitting.

Good luck!

Details

Presenters

Comments

Overview
While the transfer and persistence of fetal cells into the maternal circulation is counter-intuitive, an even stranger occurrence is the reverse. Dr. Nelson discusses the evidence that maternal cells are transferring into the fetus. In the case of neonatal lupus it appears that maternal stem cells differentiate into cardiac tissue and might incite a deleterious fetal immune response. In the case of juvenile diabetes, maternal stem cells may differentiate into islet cells that can produce insulin. It appears that this might mitigate the course of the disease.

Recommended

Details

Presenters

Comments

Overview
While the transfer and persistence of fetal cells into the maternal circulation is counter-intuitive, an even stranger occurrence is the reverse. Dr. Nelson discusses the evidence that maternal cells are transferring into the fetus. In the case of neonatal lupus it appears that maternal stem cells differentiate into cardiac tissue and might incite a deleterious fetal immune response. In the case of juvenile diabetes, maternal stem cells may differentiate into islet cells that can produce insulin. It appears that this might mitigate the course of the disease.

Microchimerism, Lupus, and Diabetes