Not exact matches
The successful growth of
human skin cells in culture has made it possible to restore epidermis after severe burns and other forms of
damage
The naturally occurring arsenic kills
human cells, leading first to
skin scarring and then, as it slowly builds up in the body, to brain
damage, heart disease and cancer.
The ability of scientists to convert
human skin cells into other
cell types, such as neurons, has the potential to enhance understanding of disease and lead to finding new ways to heal
damaged tissues and organs, a field called regenerative medicine.
Gianneschi and his team found that the synthetic melanin nanoparticles in their experiments were not only absorbed and distributed normally by the keratinocytes in the epidermis, but they also protected
human skin cells from UV radiation
damage.
These penetrate tissue and heat up when excited by radio - frequency waves; and they have been shown to thaw arteries and heart valve tissue from pigs, as well as
human skin cells, rapidly and evenly, without the typical
damage.
In
humans, these
cells function to protect
skin from
damaging environmental stresses such as ultraviolet radiation exposure.
Astaxanthin has proved itself as a strong UVB absorber and is able to reduce DNA
damage that causes
cell and collagen degradation in the
human skin, which can result in premature aging, hyperpigmentation, wrinkle formation, erythema, and
skin cancer.