Utah Cord Bank | 1-877-UCB-STEM

Exposing developing tissue to low levels of the plastic bisphenol A, commonly known as BPA, is linked to a greater incidence of prostate cancer in tissue grown from human prostate stem cells, a new study finds. The results were presented at The Endocrine Society's 95th Annual Meeting in San Francisco...

Harvard Stem Cell Institute (HSCI) researchers have identified in the most aggressive forms of cancer a gene known to regulate embryonic stem cell self-renewal, beginning a creative search for a drug that can block its activity. The gene, SALL4, gives stem cells their ability to continue dividing as stem cells rather than becoming mature cells...

A specific MicroRNA, a short set of RNA (ribonuclease) sequences, naturally packaged into minute (50 nanometers) lipid containers called exosomes, are released by stem cells after a stroke and contribute to better neurological recovery according to a new animal study by Henry Ford Hospital researchers...

By transferring four genes into mouse fibroblast cells, researchers at the Icahn School of Medicine at Mount Sinai have produced cells that resemble hematopoietic stem cells, which produce millions of new blood cells in the human body every day...

Researchers have discovered the biological chain of events that enable mammals to regenerate a lost fingertip. The finding has huge potential and could drive the development of future therapies to regenerate lost limbs. When a fingertip is lost, humans and other mammals are able to completely regenerate it...

Drug development for a range of conditions could be improved with stem cell technology that helps doctors predict the safety and the effectiveness of potential treatments. Medical Research Council scientists at the University of Edinburgh have been able to generate cells in the laboratory that reach the gold standard required by the pharmaceutical industry to test drug safety...

The expression of specific genes is partially dictated by the way the DNA is packed into chromatin, a tightly packed combination of DNA and proteins known as histones. HDAC3 is a chromatin-modifying enzyme that regulates gene expression, chromatin structure, and genome instability and it has previously been shown to associate with the oncoproteins that drive leukemia and lymphoma...

Researchers at Whitehead Institute have identified a protein that is the target of glucocorticoids, the drugs that are used to increase red blood cell production in patients with certain types of anemia, including those resulting from trauma, sepsis, malaria, kidney dialysis, and chemotherapy...

Difficult-to-study diseases such as Alzheimer's, schizophrenia, and autism now can be probed more safely and effectively thanks to an innovative new method for obtaining mature brain cells called neurons from reprogrammed skin cells. According to Gong Chen, the Verne M...

Scientists at the Danish Stem Cell Center, DanStem, at the University of Copenhagen have discovered that they can make embryonic stem cells regress to a stage of development where they are able to make placenta cells as well as the other fetal cells...

Liver transplantation is the mainstay of treatment for patients with end-stage liver disease, the 12th leading cause of death in the United States, but new research from the Icahn School of Medicine at Mount Sinai, published in the online journal Cell Stem Cell, suggests that it may one day become possible to regenerate a liver using cell therapy in patients with liver disease...

Researchers have been able to mobilize the brain's native stem cells to replenish a type of neuron lost in Huntington's disease...

Researchers from the UCLA Department of Obstetrics and Gynecology have isolated a new population of primitive, stress-resistant human pluripotent stem cells easily derived from fat tissue that are able to differentiate into virtually every cell type in the human body without genetic modification...

Researchers are still fascinated by the idea of the possibility of reprogramming the cells of any tissue, turning them into cells with the capacity to differentiate into cells of a completely different type - pluripotent cells - and they are still striving to understand how it happens. A group from the Spanish National Cancer Research Centre (CNIO), headed by researcher Ralph P...

A joint project between the Griffith University and the UQ Centre for clinical Research (UQCCR) has characterised an in vitro model that allows further studies on the breast cancer biology. These studies include the confirmation that primary tissue obtained from patients with breast cancer behaves similarly to those derived from long-term cultured cell lines...

Cartilage injuries are difficult to repair. Current surgical options generally involve taking a piece from another part of the injured joint and patching over the damaged area, but this approach involves damaging healthy cartilage, and a person's cartilage may still deteriorate with age...

According to researchers at Boston Children's Hospital, stem cells that strongly express a gene called WNT3 are biased to develop into cells and tissues including pancreas, liver and bladder. This discovery suggests that other genes may serve as biomarkers for selecting stem cells with a preference for turning into different tissue types...

The breakthrough is a significant step in improving the quality of iPS cells and identifying unwanted cells that can form tumours. The test also determines how stable iPS cells are when grown in the lab. Dr Andrew Laslett and his team have spent the last five years working on the project. The research has focused on comparing different types of iPS cells with human embryonic stem cells...

Cell Population Could Revolutionize Regenerative Medicine Researchers from the UCLA Department of Obstetrics and Gynecology have isolated a new population of primitive, stress-resistant human pluripotent stem cells easily derived from fat tissue that are able to differentiate into virtually every cell type in the human body without genetic modification...

Scientists have taken a vital step forward in understanding how cells from skin tissue can be reprogrammed to become stem cells. New research could pave the way to generate these stem cells efficiently to better understand and develop treatments for diseases such as multiple sclerosis, Parkinson's disease and muscular degeneration...