A study by scientists from Japan showed that intra-articular injections of mesenchymal stem cells (MSCs) stimulate the expression of several genes that stop the progression of osteoarthritis (OA).
According to a study by researchers at the Perelman School of Medicine at the University of Pennsylvania, the new biosealant therapy will help repair damaged cartilage. In addition, this method will improve healing by retaining the mesenchymal stem cells in the damaged area.
Scientists have succeeded for the first time in growing a jaw along with joints from pig stem cells. The researchers plan to soon use the resulting bone as a graft in clinical trials on patients with severe birth defects.
The discovery of a new type of tendon stem cells can significantly improve the situation in the treatment of ligament damage, avoiding surgery.
A study by Canadian scientists showed that the patient’s own mesenchymal stem cells from the patient’s own bone marrow holds great interest as a potential therapy for osteoarthritis of the knee joint (KOA) because of the unique ability to repair damaged cartilage.
Scientists have discovered in the growth plate of bone a new type of stem cells, which forming bones, cartilage and tissue of the spongy or cancellous portions of bones, containing bone marrow. Prepared reserves of these cells can one day help doctors restore or replace cartilage in the joints, heal fractures faster, build up bone tissue in osteoporosis, and even grow new bones and cartilage for plastic surgery.
German scientists from the Albert Ludwig University of Freiburg together with their Swiss counterparts from the University of Basel, determined the main regulator of stem cells in bone regeneration. The results of the international study were published on June 18, 2018 in Proceedings of the National Academy of Sciences.
Research scientists from Rockefeller University for the first time showed that a small cluster of embryonic stem cells shapes the fate of other human embryonic cells. This discovery, which is published in Nature, creates new perspectives for studying the early stages of human development and can help in the creation of methods for treating a wide range of diseases.
A new study by American scientists from the Florida campus of The Scripps Research Institute (TSRI) identifies factors that play a key role in the differentiation of mesenchymal stem cells. The results, published on January 8, 2018 in Cell Death & Differentiation, will help improve the methods of using these cells in clinical practice.
Stem cell therapy
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- Effective Stem Cell Cancer Treatment Developed in Japan14.11.2021 - 00:04
- Stem cells can restore vision in inherited retinal diseases08.11.2021 - 01:08
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