Amyotrophic Lateral Sclerosis (ALS) is perhaps one of the most tragic neurodegenerative diseases encountered amongst modern clinical practice. This case progressively abstracts upper and lower motor neurons. A genetically mutated condition that causes muscle weakness and wasting, lack of control and leads to death. This affliction is strong enough that the one suffering loses their ability to exert biological control yet still retains cognitive control. That comes up as a big psychological and also the real cost. Traditional medicine oriented on relieving the suffering emerged from pain resulting due to disease rather than attempting to arrest its progression. And regenerative medicine helps to bridge that gap. The now-tested Anti-Aging Stem Cell Nutrition adds an option for those researchers wishing to directly address the target of physiological and psychological distress due to oxidative biochemical stress and dysfunction of mitochondria that cause suffering among so many who sustain this fate.
Blocking the Transition from Pathophysiological to Clinical Phase
A pathological biological error that leads to the malfunction and eventual degeneration of motor neurons in ALS defines a process of sequential pathophysiological transitions. The first event is the formation of aggregates of misfolded, toxic TDP-43 proteins condensed inside the neuron cytoplasm. The over-excitation in large amount of glutamate leads the neurons to an entry of calcium, caspase and neuronal death. These pathologically aggregated proteins ultimately result in weakness of voluntary muscles that is focal at first, but then leads to the autonomic loss of function of speaking and swallowing, and breathing. Its effect on life quality is disastrous, characterized by a 3- to 5-year increased risk of death following diagnosis. Even though you get all of these debilitating symptoms physically, scientifically there is a rationale as to why the quality of life is affected. Cellular tissues as a habitat for numerous cells are exposed to chronic neuroinflammation. Glial cells whose role is to protect the brain kick start this destruction by allowing pro-inflammatory cytokines that then do much more significant damage to neurons as they amplify the destructive process. It is this vicious cycle of damage that further predisposes the disease to be refractive to one-target driven pharmacology and moves science closer to Anti-Aging Stem Cell Nutrition.
Figure A: Current Limitations of Conventional Interventions
In the vast majority of cases, standard approaches to tonic management of ALS relies on Riluzole or Edaravone pharmaceutical medicines. Cunningly disguised conductors of change from the pharmaceutical world that enable a temporary extension of survival or a controlled slowing down of the functional decline process. However, none had any predictive power or miraculous recovery of lost motor skills. The deficits these therapies have are a project of the neurons irretrievably lost or of other irreversibly diseased neuronal architecture that healed, but never properly. The side effects of the drugs themselves, or their high costs due to needing lifelong use for many patients become even more critical issues. Management of Standard Physical therapy or respiratory support is therefore pro-active and are directed towards mediation. These reactive nature of these therapeutic regimes attests to the gaps of medicinal therapies — and not only in COVID-19, which the medical community acknowledges. Apart from the therapies utilized, which will be a mandatory standard of care, alone they are inadequate to repair and reverse the biological clock ticking away on neuronal aging and death without the supportive nutraceutical healing properties associated with Anti-Aging Stem Cell Nutrition.
Stem Cell Therapy and Regenerative Nutrition; a potential you are not familiar with
The use of stem cells in the treatment for ALS marks a transition from management to complete reversal. When employed for therapeutic purposes, stem cells are intended to either migrate into and or replace astrocytes or encourage secretion of neurotrophic factors that will promote the sustenance of degenerate neurons. Stem cells release exosomes, containing growth factors and microRNA that have the ability to reduce inflammation and enhance axonal regeneration, a paracrine effect Anti-Aging Stem Cell Nutrition helps in the adjustment of the internal condition of the body. It uses a particular range of bioactive components to activate the body’s very own stem cells and shield against oxidative damage. Metabolic needs of the central nervous system (CNS) are met through both extending the lifespan of transplanted cells and triggering the internal reparation mechanisms of the body. This bi-modal strategy together is designed to stabilize the blood brain barrier while decreasing the oxidative burden that often prevents healing of neural tissue.
Figure B: Stem cell therapy and regenerative nutrition for regenerative medicine
Latest Treatments Available in Thailand
Thailand has been at the forefront of progressive regenerative medicine because of their well-established infrastructure and strict regulatory guidelines against cellular research. The future for ALS treatment in this realm seems promising, as personalized cellular therapy is gaining traction. Both resources and an international patient friendly culture for advanced medicine make the country competitive for foreign patients needing advanced medical services. With the help of biological preparation in the field of cells, we get greater results of treatment and integration into Thai practice Anti-Aging Stem Cell Nutrition. Hopefully, as this local work continues to translate, the country can take a leading role in cell-based neurologic rehabilitation both here and through regional partners.