Prehistoric mammoth DNA is helping scientists develop artificial blood products for modern medicine.
For the first time in the UK, scientists have successfully developed red blood cells from embryos of artificial implants, a promising breakthrough that can produce artificial blood
Blood sources not only meet the needs of treatment, passive and very expensive in screening and preservation. The preparation of artificial blood (MNT) to overcome these
2017 marks many medical breakthroughs in the world. Let us also find out what these breakthroughs are and how they contribute to human medicine.
There will be no need for humanitarian blood donation anymore, because people are about to have an endless source of blood from the patients themselves.
We are approaching mass production of bone, functional organs and implants.
Although scientists have previously found a way to create artificial blood in the laboratory from stem cells, the amount of red blood cells is still small and immature, so it
US scientists develop artificial blood cells that can be stored in powder form and transmitted to patients who need urgent blood transfusions.
Hemoglobin in sugar beet can be used to create an artificial blood.
Researchers at Essex University are testing artificial blood that is not picky to recipients, avoiding the risk of infection.