«
Stem cell disease model clarifies bone cancer trigger.»
«Duchenne muscular dystrophy is
a stem cell disease: Study paves the way for new treatments for devastating genetic disease.»
Therefore, we might consider neurodegenerative diseases of humans to some degree also as «
stem cell diseases».
Not exact matches
Venter reiterated this sentiment: «Using the combined power of our core areas of expertise — genomics, informatics, and
stem cell therapies, we are tackling one of the greatest medical / scientific and societal challenges — aging and aging related
diseases,» he said in a statement.
His research has spanned hematopoiesis, gene therapy,
stem cell biology, genomics and cancer, consistently focusing on bringing the very latest research advances to patients with heretofore incurable
diseases.
«Using the combined power of our core areas of expertise — genomics, informatics, and
stem cell therapies, we are tackling one of the greatest medical / scientific and societal challenges — aging and aging related
diseases,» said Dr. Venter.
He conducted his postdoctoral research at Brigham and Women's Hospital / Harvard Medical School, where he researched the role of the Wnt signaling pathway in mouse models of kidney
disease, and was part of a team that discovered a
stem cell subtype responsible for solid organ fibrosis.
Since its foundation in 2005, the NYSCF has become a leader in using
stem cell research and technology to find cures for a range of
diseases, from heart
disease and diabetes to Alzheimer's and Parkinson's.
You may not be for
stem cell research, but what if there was a treatment that utilized
stem cells (that would have been tossed away) that would curb a crippling
disease tormenting your child or loved one?
Case in point, the religious tries to halt
stem cell research, which could mean that a cure for a
disease that one of my kids develops might not be found.
research; since most of the reports have concentrated on justifying the creation of cloned human embryos for research into and treatment of neurodegenerative
diseases such as Parkinson's, «
stem -
cells» has become synonymous with «embryonic
stem -
cells» in the public imagination.
Is the right kind of Christian the one who wants to end
stem cell research that has the potential to unlock cures for devastating
diseases, like GW Bush did and Mitt Romney will surely do?
He was featured last April in a segment that included Michael J. Fox - who suffers from Parkinson's
disease and is an avid supporter of foetal
stem -
cell research through his charitable foundation.
Stem cells can transform into any other human
cells, so they have immense potential for generating all sorts of adult
cells and thus can be used in research concerning human degenerative (and other)
diseases.
In fact, the latest research in epigenetics,
stem cells, and the developmental origins of health and
disease is unlocking a whole new line of understanding of what breastmilk contains and its role in development.
(Some experts point out that a sick baby who receives his or her own
stem cells during a transplant could very well just develop the
disease all over again.)
These unformed
stem cells have the ability to turn into mature blood
cells — and could save the life of someone who needs a bone marrow transplant, and possibly other
diseases, since
stem -
cell research remains in its infancy, really.
So hold on tight, I'm gonna share EVERYTHING I've learned so far about cord blood with you... starting with this enlightening link on the general benefits... including the fact that «To date it can treat more than 80
diseases using Haematopoietic
Stem Cell (HSC) transplants, including leukemia, sickle cell anemia, and metabolic disorders.&ra
Cell (HSC) transplants, including leukemia, sickle
cell anemia, and metabolic disorders.&ra
cell anemia, and metabolic disorders.»
Cord blood
stem cells can be used to treat dozens of
diseases and are being tested in FDA - regulated clinical trials to help people with autism, brain injury, and other conditions.
«There are perfectly ethical ways of obtaining
stem cells to cure
disease, which do not involve embryo destruction, so no matter what moral value one places on the human embryo, we do not need to use it.»
There are hopes in the medical community that
stem cell research and therapeutic cloning will facilitate organ cloning and enable the replacement of damaged
cells with healthy ones for sufferers of degenerative
diseases.
Stem cell research and diabetes
Stem cell research is a relatively new area of investigation, believed by many in the scientific and medical communities to have important new potential for the treatment of many
diseases and conditions particularly those like diabetes, which are characterised by severe damage to certain
cells and tissues..
Lab - grown tissues derived from patients»
stem cells may also allow researchers to screen drugs and test their effectiveness on
diseases like cancer.
Instead, after several days, researchers harvest embryonic
stem cells, which theoretically can develop into any type of
cell and, according to many researchers, may someday be used to treat neurodegenerative
diseases or other conditions.
Since the first human brain organoids were created from
stem cells in 2013, scientists have gotten them to form structures like those in the brains of fetuses, to sprout dozens of different kinds of brain
cells, and to develop abnormalities like those causing neurological
diseases such as Timothy syndrome.
Senator Bernie Sanders (I — VT) has said he believes
stem -
cell research «represents an exciting and promising line of research that could provide treatments and cures for many debilitating
diseases.»
On Thursday, the United Nations» member states will consider two resolutions: One resolution would ban all human cloning methods, including efforts to use cloned embryonic
stem cells to try and generate healthy tissues, or to treat degenerative
diseases such as Parkinson's.
Furthermore, by making use of embryonic
stem cells and in vitro differentiation, SIF - seq can be used to assess enhancer activity in a wide variety of
disease - relevant
cell types.»
To develop their «
disease in a dish» model, the team took skin
cells from patients with Allan - Herndon - Dudley syndrome and reprogrammed them into induced pluripotent
stem cells, which then can be developed into any type of tissue in the body.
Adds Pennacchio, «The range of biologically or
disease - relevant enhancers that SIF - seq can be used to identify is limited only by currently available
stem cell differentiation methods.
An engineered bone that has its own marrow can encourage donor
stem cells to produce blood, a feat that could help people with anaemia and rare immune
diseases
Fat - derived
stem cells can heal nasty wounds associated with Crohn's
disease, and could be the first mass
stem cell treatment to be used in Europe
International
Stem Cell scientists have converted them into liver
cells and plan to convert them into neurons for treating Parkinson's
disease, pancreatic
cells for diabetes, and other tissues.
Because they can differentiate into almost any
cell type in the body,
stem cells have the potential to be used to create healthy
cells to treat a number of
diseases.
Human embryonic
stem cells are at last being tested in common, potentially fatal
diseases such as heart failure and diabetes
Trials of
cells made from human embryonic
stem cells are also poised to begin in people with type 1 diabetes and heart failure, the first time embryonic
stem cells have been used in the treatment of major lethal
diseases.
Decades after they were discovered, human embryonic
stem cells are being trialled as a treatment for two major
diseases: heart failure and type 1 diabetes
«In effort to treat rare blinding
disease, researchers turn
stem cells into blood vessels: Patients around the world contribute skin samples to test potential new therapy.»
Both
diseases result from the death of retinal
cells, a process that Lanza suspects can be slowed or even halted using
stem -
cell - derived replacements.
In a groundbreaking study that provides scientists with a critical new understanding of
stem cell development and its role in disease, UCLA researchers at the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research led by Dr. Kathrin Plath, professor of biological chemistry, have established a first - of - its - kind methodology that defines the unique stages by which specialized cells are reprogrammed into stem cells that resemble those found in the emb
stem cell development and its role in disease, UCLA researchers at the Eli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research led by Dr. Kathrin Plath, professor of biological chemistry, have established a first - of - its - kind methodology that defines the unique stages by which specialized cells are reprogrammed into stem cells that resemble those found in the emb
cell development and its role in
disease, UCLA researchers at the Eli and Edythe Broad Center of Regenerative Medicine and
Stem Cell Research led by Dr. Kathrin Plath, professor of biological chemistry, have established a first - of - its - kind methodology that defines the unique stages by which specialized cells are reprogrammed into stem cells that resemble those found in the emb
Stem Cell Research led by Dr. Kathrin Plath, professor of biological chemistry, have established a first - of - its - kind methodology that defines the unique stages by which specialized cells are reprogrammed into stem cells that resemble those found in the emb
Cell Research led by Dr. Kathrin Plath, professor of biological chemistry, have established a first - of - its - kind methodology that defines the unique stages by which specialized
cells are reprogrammed into
stem cells that resemble those found in the emb
stem cells that resemble those found in the embryo.
Scientists believe that embryonic
stem cells could also be useful for treating neurodegenerative
diseases and diabetes, among other conditions.
«This research represents an important step toward the goal of being able to better treat thyroid
diseases and being able to permanently rescue thyroid function through the transplantation of a patient's own engineered pluripotent
stem cells,» explained co-corresponding author Anthony N. Hollenberg, MD, Chief of the Division of Endocrinology, Diabetes and Metabolism at BIDMC and Professor of Medicine at Harvard Medical School.
So Izpisúa Belmonte and his colleagues harvested fibroblasts, which are far more common than
stem cells, from the skin of people with the bone marrow
disease Fanconi anaemia.
ORDINARY
cells from people with a genetic
disease can be «fixed» by gene therapy and then reprogrammed to be
stem cells that will produce a limitless supply of defect - free
cells.
A team of researchers at the Stanford University School of Medicine has used a gene - editing tool known as CRISPR to repair the gene that causes sickle
cell disease in human
stem cells, which they say is a key step toward developing a gene therapy for the disorder.
«They don't get to the root cause of
disease development, progression and relapse — cancer
stem cells — the way inhibiting ADAR1 does.
The Porteus team started with human
stem cells from the blood of patients with sickle
cell disease, corrected the gene mutation using CRISPR and then concentrated the human
stem cells so that 90 percent carried the corrected sickle
cell gene.
Stem cells have long been heralded as a potential treatment for a range of brain ailments, but research has so far focused on movement disorders such as Parkinson's
disease.
However, there is still limited data on the short and long - term effects of administering
stem cell therapy in chronic respiratory
disease.
After exploring the molecular pathway in mice, the researchers focused on cardiac
stem cells in patients with heart
disease.