Scientists know how to grow human heart tissue – Institute …

By Dr. Matthew Watson

Scientists used stem cells to grow human heart tissue that contracted spontaneously in a petri dish marking progress in the quest to manufacture transplant organs.

A team from the University of Pittsburgh, Pennsylvania, used induced pluripotent stem (iPS) cells generated from human skin cells to create precursor heart cells called MCPs. iPS cells are mature human cells reprogrammed into a versatile, primitive state from which they can be prompted to develop into any kind of cell of the body. The primitive heart cells created in this way were attached to a mouse heart scaffold from which the researchers had removed all mouse heart cells, they wrote in the journal Nature Communications.

The scaffold is a network of non-living tissue composed of proteins and carbohydrates to which cells adhere and grow on. Placed on the 3D scaffold, the precursor cells grew and developed into heart muscle, and after 20 days of blood supply the reconstructed mouse organ began contracting again at the rate of 40 to 50 beats per minute, said a University of Pittsburgh statement.

It is still far from making a whole human heart, added senior researcher Lei Yang. Ways have to be found to make the heart contract strongly enough to pump blood effectively and to rebuild the hearts electrical conduction system. However, we provide a novel resource of cells iPS cell-derived MCPs for future heart tissue engineering, Yang told AFP by email. We hope our study would be used in the future to replace a piece of tissue damaged by a heart attack, or perhaps an entire organ, in patients with heart disease.

According to the World Health Organisation, an estimated 17 million people die of cardiovascular ailments every year, most of them from heart disease. Due to a shortage of donor organs, end-stage heart failure is irreversible, said the study. More than half of patients with heart disease do not benefit from drugs. Heart tissue engineering holds a great promise based on the reconstruction of patient-specific cardiac muscle, the researchers wrote.

Last month, scientists in Japan said they had grown functional human liver tissue from stem cells in a similar process. Creating lab-grown tissue to replenish organs damaged by accident or disease is a Holy Grail for the pioneering field of stem cell research. Until a few years ago, when iPS cells were created, the only way to obtain stem cells was to harvest them from human embryos. This was controversial because it required the destruction of the embryo, a process to which religious conservatives and others object.

Source: http://news.sudanvisiondaily.com

As the Chief Doctor of the Institute of Cell Therapy, Y.V.Gladkikh, MD, PhD, Dr. med. sc. commented: In addition to laboratory success in obtaining the functional cardiac tissue, currently there is evidence of successful implantations of heart valves and blood vessels fragments, grown from stem cells, to patients. And in 2012, the Ministry of Health of Ukraine officially approved method of treatment of critical limbs ischemia with the use of cell preparation Angiostem, developed by the biotechnological laboratory of the Institute of Cell Therapy.

See original here:
Scientists know how to grow human heart tissue - Institute ...

Related Post


categoriaIPS Cell Therapy commentoComments Off on Scientists know how to grow human heart tissue – Institute … | dataMarch 25th, 2017

About...

This author published 5852 posts in this site.

Share

FacebookTwitterEmailWindows LiveTechnoratiDeliciousDiggStumbleponMyspaceLikedin

Comments are closed.





Personalized Gene Medicine | Mesenchymal Stem Cells | Stem Cell Treatment for Multiple Sclerosis | Stem Cell Treatments | Board Certified Stem Cell Doctors | Stem Cell Medicine | Personalized Stem Cells Therapy | Stem Cell Therapy TV | Individual Stem Cell Therapy | Stem Cell Therapy Updates | MD Supervised Stem Cell Therapy | IPS Stem Cell Org | IPS Stem Cell Net | Genetic Medicine | Gene Medicine | Longevity Medicine | Immortality Medicine | Nano Medicine | Gene Therapy MD | Individual Gene Therapy | Affordable Stem Cell Therapy | Affordable Stem Cells | Stem Cells Research | Stem Cell Breaking Research

Copyright :: 2024