Chlorella is one of the best natural remedies to prevent and reverse AD not only because it detoxifies our brains from mercury but also because, like turmeric, it can
regenerate damaged brain tissue:
Recent research on the effect of aromatic turmerone, a turmeric extract, shows that the plant extract may help
regenerate damaged brain cells after things like a stroke.
Not exact matches
Since neurons don't
regenerate,
brain damage is often permanent — but scientists would like to change that.
As any good neurosurgeon will tell you, the nerves in the
brain do not
regenerate when they are
damaged.
Damaged axons in the
brain and spinal cord of mammals don't
regenerate, and spinal cord injuries can therefore lead to permanent paralysis.
Although the research indicates it may someday be possible to
regenerate neurons from the body's own cells to repair traumatic
brain injury or spinal cord
damage or to treat conditions such as Alzheimer's disease, the researchers stressed that it is too soon to know whether the neurons created in these initial studies resulted in any functional improvements, a goal for future research.
In fact, so much of the progress that we're making in laboratories, including mine, is on developing neuroprotective therapies that can protect the retina from degeneration,
regenerate optic nerve fibers all the way back to their targets in the
brain, and even replace
damaged retinal ganglion cells with self - therapies that completely rebuild the optic nerve.
Furthermore, the success of this project can lead to the development of novel axon -
regenerating therapeutics that could transform the clinical treatment of angle - closure glaucoma and other types of optic neuropathies, as well as have the potential to be adapted to
regenerating the long - distance axonal projections
damaged by spinal cord injury,
brain trauma, and white matter stroke.
«Our hope is to one day treat diseases like heart failure or Parkinson's disease with drugs that help the heart and
brain regenerate damaged areas from their own existing tissue cells.»
Leaving the distressed cells alone risks having them cause collateral
damage to other cells, while destroying them eliminates potentially critical
brain cells, many of which don't
regenerate.
Sleeping is the time when many
regenerating processes are occurring inside your body, mainly repairing
damaged cells and tissue, as well as helping the
brain sort out important information it has acquired throughout the day.
Before the discovery of neuroplasticity, scientists believed that a
damaged brain can not
regenerate.
Today, all around the country, scientists like you are developing therapies to
regenerate damaged organs, creating new devices to enable
brain - controlled prosthetic limbs, and sending sophisticated robots into space to search for signs of past life on Mars.
Today, our scientists are mapping the human
brain to unlock the answers to Alzheimer's; developing drugs to
regenerate damaged organs; devising new material to make batteries ten times more powerful.