Medical researchers from Keele University and Nottingham University have integrated remote controlled magnetic nanoparticles to incite the differentiation of stem cells into new bone tissue for the treatment of bone diseases, disorders, and injuries. In pre-clinical trials, the nanoparticles were coated with proteins that stimulate the stem cells, and then delivered directly to the damaged tissue via an external magnetic field. Continue reading
According to a recent study conducted by scientists at the Harvard Stem Cell Institute, stem cells may hold the key to replacing the body’s unwanted storage of white fat cells with calorie-burning brown fat cells. The researchers studied the stem cells that typically mature into white fat cells, and, after screening the effects of 1000 compounds on the cells, they found two that stimulate the stem cells to differentiate into brown fat cells instead. Continue reading
Scientists at the Cincinnati Children’s Hospital Medical Centre have induced adult stem cells to differentiate into small clusters of gastric tissue that replicate the functions of the human stomach. The lab-made structures, known as “mini-stomachs”, were created by replicating the chemical pathways of early stage stomach development of stem cells in a petri dish. Continue reading
According to new research from the Stowers Institute for Medical Research, hematopoietic stem cells [stem cells that produce blood] are directly regulated by megakaryocytes, the blood cells responsible for healing wounds. The researchers found that megakaryotes produce two growth factors; one that signals for hematopoietic stem cells to proliferate, and one that keeps them in an inactive state. This relationship controls the amount of blood being produced in the body. Continue reading
A research team led by Dr. Songtao Shi from the Herman Ostrow School of Dentistry of USC has discovered that mesenchymal stem cells [MSCs] found in the gums are able to regulate the body’s immune system to treat inflammatory diseases. In an animal model suffering from colitis [an inflamed condition of the colon], the scientists were able to transplant these gingival MSCs, significantly reducing the inflammation. Continue reading
A team of researchers led by Professor Andrew Lotery at Southampton General Hospital have discovered a source of retinal stem cells on the surface of the eye. If scientists can harvest these readily accessible stem cells, convert them to light-sensitive cells, and then transplant them back into the eye, the cells could provide new treatments for age-related macular degeneration [AMD].
Currently, AMD is the leading cause for blindness in patients over the age of 50, and there is no known cure. However, the discovery of stem cells on the retina could facilitate a new method for scientists to replenish the light-sensitive cells in a patient’s eyes without the risk of rejection by the immune system, presenting a new potential treatment for the disease.
Although AMD tends to affect patients later on in life, the higher regenerative abilities of younger stem cells are preferable over older ones for medical therapies. One way to assure access to the enhanced regenerative abilities of your own stem cells is to preserve them while they are still young, so that they can be used later in life in emerging regenerative therapies. Today, preserving your own stem cells, also known as autologous stem cells, is simple and affordable for families. To learn how you can preserve your own valuable stem cells through non-invasive and effective methods, please visit StemSave or call 877-783-6728 (877-StemSave) today.
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Researchers from the Cincinnati Children’s Hospital Medical Centre have successfully grown functional human intestinal tissues by utilizing stem cells. After stimulating the stem cells with a “molecular cocktail” of chemicals and growth factors, the team observed as the cells developed into the mucosal lining and muscle layers, while exhibiting digestive functions such as nutrient uptake and responding to molecular signals. Continue reading