Not exact matches
The secret to
repairing our
tissues and growing new
organs is getting all touchy - feely with cells
When radioisotopes lodge in certain
organs — such as iodine - 131 in the thyroid gland — the constant bombardment of surrounding
tissue can overwhelm
repair mechanisms and trigger cancer.
The Center's goal is to understand basic mechanisms of
tissue and
organ formation, and then to use this knowledge to regenerate,
repair, and replace
tissues damaged by aging, disease and injury.
But scientists working on a way to
repair the vital
organ have now engineered
tissue that closely mimics natural heart muscle that beats, not only in a lab dish but also when implanted into animals.
The Center's goals are to understand the basic mechanisms underlying
tissue and
organ formation, and then to use this knowledge to regenerate,
repair, and replace
tissues damaged by aging and injury.
Artificial
organs may instead one day help
repair or even replace a person's damaged
tissues.
But even more far - ranging treatments may be possible with embryonic stem cells, the blank - slate cells that give rise to all
organs and
tissue types and that (theoretically) can
repair all forms of organic damage and disease.
The substance may be used for biomedical applications, ranging from cell culture and drug delivery to
repairing and replacing
tissue,
organs and cartilage.
Recent experiments, for instance, suggest that when an
organ lacks LGR -5-positive cells, differentiated cells may be able to «dedifferentiate» and
repair tissues — a radical change from the one - way street toward specific identities that stem cells were thought to travel.
The study of these creatures has the potential to be rather robust in implications for regenerative medicine, an area of treatment for
repairing or replacing human cells,
tissues or
organs on Earth to restore normal function.
In future, Radisic envisions her lab - grown
tissues being implanted into the body to
repair organs damaged by disease.
Type 3 ILCs (ILC3s) are in addition essential for the development of lymphoid
organs such as lymph nodes and for
tissue repair.
A team led by Ludwik Leibler from the Laboratoire Matière Molle et Chimie (CNRS / ESPCI Paris Tech) and Didier Letourneur from the Laboratoire Recherche Vasculaire Translationnelle (INSERM / Universités Paris Diderot and Paris 13), has just demonstrated that the principle of adhesion by aqueous solutions of nanoparticles can be used in vivo to
repair soft -
tissue organs and
tissues.
That means they have the potential to
repair damaged
tissue and even grow into new
organs.
In animal
tissues and
organs, cells lock into a scaffold of collagen proteins that allows the cells to stick together and coordinate activities, such as
tissue repair.
It promised to realise the dream of
repairing damaged
tissues and
organs using a patient's own cells.
Regenerative medicine R&D efforts are focused largely on developing stem cell and
tissue engineering therapies as a means to regenerate, replace or
repair damaged
tissues and
organs.
Avoiding the pluripotent state is important because it avoids the potential danger that «rogue» iPS cells could develop into a tumor if used to replace or
repair damaged
organs or
tissue.
They are known to «home» to signals of inflammation in damaged
tissue and
organs to do their job
repairing normal wear and tear on the body.
They circulate through our blood to
repair tissue and
organ damage.»
In adult organisms, stem cells and progenitor cells act as a
repair system for the body, replenishing specialized cells, but also maintain the normal turnover of regenerative
organs, such as blood, skin, or intestinal
tissues.
They are also commonly referred to as «
repair cells» for their ability to heal injured
organs or body parts by accelerating
tissue repair and regeneration, decreasing inflammation as well as increasing blood flow through the growth of new blood vessels.
Regenerative medicine is dedicated to the study of
repairing, replacing or regenerating damaged human cells,
tissues or
organs to restore or establish normal function; and it has potential applications to treat a wide variety of conditions.
We are focused on the discovery, development and commercialization of cell based therapeutics that prevent, treat or cure disease by
repairing and replacing damaged or aged
tissue, cells and
organs and restoring their normal function.
Adult stem cells are commonly referred to as «
repair cells» for this ability to heal injured
tissues,
organs or body parts, their primary functions being:
Theorists envision creating machines that will be able to travel through the circulatory system, cleaning the arteries as they go; sending out troops to track down and destroy cancer cells and tumors; or
repairing injured
tissue at the site of the wound, even to the point of replacing missing limbs or damaged
organs.
Basic scientists show stem cells help
repair damaged
tissue and
organs.
By studying them, we are beginning to gain insight into human disease — to understand why
organs such as the heart can not
repair themselves or why, as we age, the incidence of debilitating diseases such as cancer, heart disease and Alzheimer's increases so rapidly, and we are developing new therapies that will enhance our abilities to regenerate damaged
tissues and prolong healthy lifespan.
These adult stem cells are commonly referred to as «
repair cells» for their ability to heal injured
tissues,
organs or body parts, their primary functions being:
Embryonic stem cells — «pluripotent» cells that can develop into any type of cell in the human body — hold tremendous promise for regenerative medicine, in which damaged
organs and
tissues can be replaced or
repaired.
This novel approach utilizes adult stem and regenerative cells from your body fat which aim to
repair the damaged
tissue in your lungs while reducing inflammation and restoring the flow of oxygen - rich blood to these vital
organs.
While sleeping, we
repair damaged
tissues and
organs, we metabolize hormones our body no longer needs, and our brains use this time to organize our thoughts and experiences, and to make permanent neurological links (memories) for the learning we experienced that day.
This means that instead of experiencing protein degradation and
tissue or
organ breakdown with age, peptides enable you to actually synthesize or
repair tissue and
organ as you age.
Fats are used by your body to make
repairs on damaged muscles,
organs, cells,
tissues, etc..
Proteins are made up of amino acids and are used by the body to maintain,
repair, and build
tissues, including muscles and other
organ systems...
Proteins are nutrients that are essential to the building, maintenance and
repair of your body
tissues such as your skin, internal
organs and muscles.
Human Growth Hormone is the «master hormone» controlling many
organs and body functions and is directly responsible for stimulating
tissue repair, cell replacement, brain functions, and enzyme function!
They destroyed their ability to
repair damaged
tissue, gave them fatty liver, stopped their internal
organs from developing, and if the rats encountered toxic substances, the diets dug them an early grave.
When We Eat A Protein Source, our body utilizes the 20 amino acids (individual segments of «protein») to
repair our bones, muscles,
organs and essentially every body part and
tissue in the human body.
These amino acids are also important for skin health,
tissue regeneration and
organ repair.
They restore energy levels, build and
repair tissues and muscles and preserve bone and
organ health.
Protein plays an important role in muscle, cell and
organ function and is necessary for building and
repairing the body's
tissues.
Proteins Proteins are the basic building blocks for
organs,
tissues, cells, hormones, antibodies and enzymes and they are essentials for
repair, reproduction and maintenance.
Proteins are the basic building blocks for cells,
tissues,
organs, enzymes, hormones and antibodies, and are essential for growth, maintenance,
repair and energy.
These
organs give dogs essential amino acids to support their skin and coat health, help with optimal
organ functions, and
repair damaged
tissues.
Antibodies and enzymes to support bones, muscles, cell
repair and production, soft
tissue, vital
organs, growth, and the aging process in your senior pet.
Proteins Proteins are the basic building blocks for cells,
tissues,
organs, enzymes, hormones and antibodies, and are essential for growth, maintenance, reproduction and
repair.
Just a few of the mind - bending things that are already happening include bio-printing, where we are close to being able to
repair damaged
tissues or even print entire
organs.