Tubular bone stem cells help with myocardial infarction
Experiments on mice have shown that the introduction of tubular bone stem cells into the myocardial infarction zone is more effective than the introduction of cardiac stem cells.
06.09.2013Experiments on mice have shown that the introduction of tubular bone stem cells into the myocardial infarction zone is more effective than the introduction of cardiac stem cells.
06.09.2013Having developed a technology for producing functional brain cells that produce myelin, which forms the insulating shell of neurons, scientists have brought the use of stem cells in the treatment of multiple sclerosis and other myelopathies, as well as spinal cord injuries, closer.
04.09.2013Or rather, she grew up by herself: the stem cells self-organized into a brain "organoid" the size of a peanut grain. This is an incredibly valuable model for studying developmental pathologies and neurodegenerative diseases.
29.08.2013Recently, we published a popular presentation of an article about the human liver germ grown and earned in the mouse body. Here its contents are retold in much more detail.
29.08.2013Deepak Srivastava, a professor at the University of California, San Francisco, and his colleagues have developed a genetic "cocktail" that transforms human fibroblasts into cells capable of rhythmic contractions.
28.08.2013Vascular endothelial cells obtained from iPSCs open up new possibilities in the treatment of atherosclerosis, renal and pulmonary insufficiency and other diseases.
26.08.2013Scientists at the University of California, San Diego have developed a simple and easily reproducible method for producing human induced pluripotent stem cells (iPSCs) based on the use of self-replicating RNA.
26.08.2013Scientists took the skeleton of a mouse heart, removed cells from it and populated it with human cells derived from the skin. Such a heart cannot pump blood yet, but it is already beating.
14.08.2013For the first time, American researchers have gone all the way to transform specialized human cells (skin fibroblasts and bone marrow cells) into bone tissue cells.
12.07.2013Japanese scientists have constructed a rudimentary liver from human stem cells and transplanted it into a mouse organism, where the transplant grows and successfully performs the functions of a mature organ.
04.07.2013In recent years, scientists have grown many types of tissues and organs from stem cells – from a heart valve to a whole heart. Urology did not stand aside either.
18.06.2013Biologists at Penn State University have found a more effective way to differentiate induced pluripotent stem cells into mature human neurons.
17.06.2013Liver transplantation is the main method of treating patients with end–stage diseases of this organ, but a new study by scientists at Mount Sinai Medical Center suggests the possibility of liver regeneration using cell therapy.
14.06.2013Anthony Atala, a world–renowned specialist in regenerative medicine, talks about the creation of a human mini-kidney, the development of cellular biomedical technologies and prospects for cooperation with Russian scientists.
13.06.2013MIT bioengineers obtained mature liver cells from induced pluripotent stem cells.
13.06.2013Scientists at the University of California at Los Angeles have isolated from human adipose tissue a population of pluripotent stem cells resistant to cellular stress, capable of differentiating into almost any type of body cells without genetic modification.
11.06.2013During preclinical tests, such artificial veins performed much better than existing synthetic and animal analogues.
10.06.2013Bioengineers are actively looking for innovative ways to grow new cartilage from the patient's own stem cells, and thanks to a new study by scientists at the University of Pennsylvania, this treatment method has become a step closer to clinical practice.
07.06.2013Researchers at Boston University School of Medicine have managed to differentiate induced pluripotent stem cells (iPSCs) into erythrocytes and platelets.
07.06.2013The law on the circulation of biomedical cell products will allow large-scale clinical trials of the most promising developments to begin. Centers for the development of cellular technologies and regenerative medicine are expected to open in the near future.
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