The study, «Facilitation of axon regeneration by enhancing mitochondrial transport and rescuing energy deficits,» which has been published in The Journal of Cell Biology, suggests potential new strategies to stimulate the regrowth of
human neurons damaged by injury or disease.
Not exact matches
Researchers at Geron, meanwhile, had successfully derived
neurons from
human embryonic stem cells and were pursuing research that would eventually look to repair the
damage caused by spinal - cord injuries, a possible use for embryonic stem cells that was much touted at the time.
The researchers caution, however, that it's not yet clear how closely the toxin - induced neural
damage in rats mimics the state of diseased
neurons in Parkinson's, especially because the mechanism that leads to such
damage in
humans remains unknown.
The results obtained by Afsaneh Gaillard's team and that Pierre Vanderhaeghen at the Institute of Interdisciplinary Research in
Human and Molecular Biology show, for the first time, using mice, that pluripotent stem cells differentiated into cortical
neurons make it possible to reestablish
damaged adult cortical circuits, both neuroanatomically and functionally.
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.
The parasite could also directly alter
neurons involved in memory and learning, or it could trigger a
damaging host response, as in many
human autoimmune diseases.
In
humans, deafness is most often caused by
damage to inner ear hair cells — so named because they sport hairlike cilia that bend when they encounter vibrations from sound waves — or by
damage to the
neurons that transmit that information to the brain.
Human - Induced pluripotent stem cells form functional
neurons and improve recovery after grafting in stroke -
damaged brain.
Mutations in tau cause neurodegeneration in
human brains, and tau modified by the addition of phosphate groups (p - tau) forms aggregates and
damages neurons.
Health improvement (allowing to post - pone / escape the diseases and thus live, healthier / disease - free longer, but not above
human MLSP of around 122 years; thus these therapies do not affect epigenetic aging whatsoever, they are degenerative aging problems not regular healthy aging problem (except OncoSENS - only when you Already Have Cancer - which cancer increases epigenetic aging, but cancer removal thus does not change anything / makes no difference about what happens in the other cells / about what happens in the normal epigenetic «aging» course in Normal non-cancerous healthy cells) Although there is not such thing as «healthy aging» all aging in «unhealthy» (as seen from elders who are «healthy enough» who show much
damage), it's just «tolerable / liveable» enough (in terms of
damage accumulating) that it does not affect their quality of life (enough yet), that is «healthy aging»: ApoptoSENS - Clearing Senescent Cells (this will have great impact to reduce diseases, the largest one, since it's all inflammation fueled by the inflammation secretory phenotype (SASP) of these senescent cells) AmyloSENS - Dissolving the Plaques (this will allow
humans to evade Alzheimer's, Parkinsons and general brain degenerescence, allowing quite a boost; making people much more easily reach the big 100 - since the brain is causal to how long we live; keeping brain amyloid - free and keeping our memories /
neuron sharp / means longer LongTerm Potentiation - means longer brain function means longer heavy brain mass (gray matter / white matter retention seen in «sharp - witted» Centenarians who show are younger brain for their age), and both are correlated to MLSP).
Does this mean we're close to a
human therapy using injections of healthy
neurons to repair
damaged spines?
Fact is, toxicological studies of the effects of algae (primarily spirulina) consumption on
humans and animals, including feeding as much as 800mg / kg, and replacing up to 60 % of protein intake with algae sources, have shown no toxic effects, and in contrast, algae intake has actually been found to prevent
damage caused by toxins that affect the heart, liver, kidneys,
neurons, eyes, ovaries, DNA, and testicles.
It can cause the
damage of our brain cells that is
neurons which is fatal because
neuron are not able to repair like other body cells of
human body.