Sentences with phrase «cell disorder makes»
, my mast cell disorder makes cocoa a big no - no.
http://www.beyondthebite4life.com/ Not exact matches
By dissecting the heritage of these cells, we can find new targets to tackle a range of conditions including infectious diseases, cancers and immune disorders, and even make vaccines more effective.»
Yang said the study not only indicated which genes are affected by traumatic brain injury and linked to serious disease, but also might point to the genes that govern metabolism, cell communication and inflammation — which might make them the best targets for new treatments for brain disorders.
Harvard Stem Cell Institute (HSCI) scientists have taken the first steps toward developing a treatment that would make bone marrow — blood stem cell — transplantation safer and, as a result, more widely available to the millions of people living with blood disorders like sickle cell anemia, thalassemia, and ACell Institute (HSCI) scientists have taken the first steps toward developing a treatment that would make bone marrow — blood stem cell — transplantation safer and, as a result, more widely available to the millions of people living with blood disorders like sickle cell anemia, thalassemia, and Acell — transplantation safer and, as a result, more widely available to the millions of people living with blood disorders like sickle cell anemia, thalassemia, and Acell anemia, thalassemia, and AIDS.
In general, lithium alters the way calcium signals are sent and received — and the new cell lines will make it possible to study this effect specifically in bipolar disorder - specific cells.
According to NHLBI, sickle cell anemia is the most common form of sickle cell disease, a serious disorder in which the body makes sickle - shaped red blood cells.
«This study represents our progress towards making airway spheres from any patient with a lung disorder and learning about that patient's disease from those cells.
The finding, reported in the Nov. 21 issue of Cell, was made with techniques developed only within the last few years and marks a turning point in autism spectrum disorders (ASDs) research.
These findings may help explain why some people with mutations in certain ribosomal protein genes develop conditions such as Diamond - Blackfan anemia — a blood disorder in which the bone marrow doesn't make enough red blood cells — but don't have problems in other body tissues, Ware says.
These so - called hematopoietic stem cells (from Greek meaning «to make blood») have been reliably used over the past 40 years to seed bone marrow transplants in the treatment of some cancers and immune disorders.
Unraveling what happens in nerve cells during memory formation can help illuminate critical glitches that occur in short - term memory and lead to impaired decision - making in a range of neuropsychiatric and neurodegenerative disorders.
Now, researchers reporting in the Cell Press journal Current Biology on July 2 have found that people with autism spectrum disorder (ASD) don't make this natural adjustment like other people do.
Now researchers at UC San Francisco have taken the first step toward a comprehensive atlas of gene expression in cells across the developing human brain, making available new insights into how specific cells and gene networks contribute to building this most complex of organs, and serving as a resource for researchers around the world to study the interplay between these genetic programs and neurodevelopmental disorders such as autism, intellectual disability and schizophrenia.
«This step opens up an opportunity to take cells from patients with genetic blood disorders, use gene editing to correct their genetic defect, and make functional blood cells,» said Ryohichi Sugimura, a doctor at Boston Children's Hospital and lead author of one of the studies.
Dr. Sadelain has made major contributions to the generation and optimization of CAR T cells to treat cancer, as well as the development of stem cell therapies for blood disorders.
ANN ARBOR, Mich — By combining engineered polymeric materials known as hydrogels with complex intestinal tissue known as organoids — made from human pluripotent stem cells — researchers have taken an important step toward creating a new technology for controlling the growth of these organoids and using them for treating wounds in the gut that can be caused by disorders such as inflammatory bowel disease (IBD).
Not so long ago, the advent of powerful genomic tools and genetic engineering techniques made it seem that studies involving mice engineered to carry human disease genes would be the best approach for exploring human disorders, superior to looking at cells isolated in a laboratory.
Myeloproliferative neoplasms (MPNs) are blood disorders in which the bone marrow makes too many of one or more types of blood cells — white blood cells, red blood cells or platelets.
Diamond - Blackfan anemia (DBA) is a rare blood disorder that occurs when the bone marrow fails to make red blood cells, which are essential for carrying oxygen from the lungs to all the other parts of the body.
Congenital amegakaryocytic thrombocytopenia (CAMT) is a rare, inherited disorder characterized by a severely low number of megakaryocytes, a type of bone marrow cell that makes platelets that are important for clotting and preventing bleeding.
UC Irvine researchers have discovered a dramatically improved method for genetically manipulating human embryonic stem cells, making it easier for scientists to study and potentially treat thousands of disorders ranging from Huntington's disease to muscular dystrophy and diabetes.
Yasmina Ykelenstam: Who is the director of immunopharmacology there and he actually makes a supplement for mast cell disorders called NeuroProtek and there's another called CystoProtek --
Unfortunately though, this is something a lot of people are ignorant of, perhaps because Big Pharma and mainstream medicine, which focuses much of its attention on locating and manipulating individual receptors, genes, and cells involved in various health disorders, have done such a good job of making us believe that they hold the solution to all our health woes.
If you do not have enough iron, your body can not make hemoglobin, the oxygen - carrying component of red blood cells, and you may develop anemia, a disorder that occurs when there is not enough hemoglobin in the blood.
At best it'd make the fatty acids rancid; at worst, the process releases free radicals which, due to their high reactivity, are linked to damage within cells associated with a range of disorders such as cancer, Alzheimer's, diabetes, atherosclerosis and arthritis.
Most people with major depressive disorder (MDD) have higher levels of inflammation in the brain and have trouble making new brain cells (neurogenesis).
Many people with hyperthyroid disorder become anemic, which means that your body doesn't have enough iron to make red blood cells.