The Use of Plant-Based Stem Cell Therapy to Reduce Severe Cellular Damage from UV rays
The damage of skin by prolong contact with UV rays is a serious issue all over the world. This radiation causes aging skin and it leads to the development of the skin cancer. Devastating the aging process is emotionally and physically painful to the affected individuals bringing noticeable appearance damage. To the extent of the damage there is an urgent need for Plant-Based Stem Cell Therapy and skin reconstruction methods to heal the damaged tissue. Modern therapies need to address the root cause of the aging skin; the not only biotechnological approach but also the plant-grafting botanic approach.
Mechanism, Characteristics & Symptoms
The destruction of the skin cells by UV rays starts when the high-energy photons penetrate the skin’s outermost protective layer (epidermis) and deeply. These high-energy photons cause the naked skin cells to undergo rapid production of reactive oxygen species and damage the skin cells. This in return cause the skin cells to undergo severe oxidative stress and cause collapse the individually intact skin cell matrix to the homogeneous of intact skin cell matrix. After few days the skin will become discolored and develop deep and severe wrinkling of structural collapse. This may be painful and cause moderate to severe erythema and inflammation. Without interventions like Plant-Based Stem Cell Therapy, the barrier functions of the skin become less resilient to the effect due to the collapsing structure of the skin and the skin become overwhelm due to the functional resilient collapse structure. The se of the skin will become as a result and inflammation. The barrier function of skin leads to the unable to perform as a result due to the collapse structure of the skin. The se of the skin. Such frailty erodes the quality of life of the people it affects.
Figure 1: Effect of UV rays on skin
Shortcomings of Conventional Approaches
For the longest time, before Plant-Based Stem Cell Therapy, dermatologists had to manage the superficial effects of UV rays damage with synthetic topical antioxidants and aggressive, and often damaging, chemical exfoliation. Physicians overprescribe retinoids to promote rapid cellular turnover. Damage is removed in layers via chemical peels to make the separations in the skin seem less visible. While these strategies may give temporary improvements in the superficial appearance of the skin, they have significant cellular and/or synaptic dysfunctions. Additionally, aggressive exfoliation can cause more inflammation in the dermis. The topical synthetic ingredients in these treatment protocols are insufficient to promote cellular turnover and regeneration. Most of these approaches simply over moisturize the skin, without restoring the natural skin barrier and protecting the skin’s moisture. After these chemical peels, patients often experience significant skin irritation, as the protocol is insufficient to repair the loss of skin integrity. The above approaches, as contradictory as they may seem, do not correct the cellular damage and are superficial strategies to make the skin appear healthier.
Repair Strategies
A new paradigm offers renewed hope to researchers to reverse cellular damage from UV rays. The repairable nature of the Plant-Based Stem Cell Therapy is due to the extraordinarily high levels of epigenetic plasticity in plant stem cells. These active metabolites with plant extracts are highly bioavailable and can easily engage with dermal receptors. The signaling molecules are lipophilic and can affect the basal layers. When the molecules engage with the dermal stem cells, then end, the cells divide more than what is expected of the cells. This process reduces free radicals formed by the exposure. These active metabolites decrease the damaging effects of the inflammatory process and increase collagen levels, respectively. This regenerative process mimics natural biological healing, while the synthetic alternatives do not. Plant matrices internally reconstruct the fractured extracellular matrix, making sure the integrity is preserved for the long term.
Figure 2: The Advanced Plant-Based Stem Cell Therapy improved skin protection from UV rays
Predictions for the Future in Thailand
The potential of regenerative biotechnology, specifically Plant-Based Stem Cell Therapy, is great for Southeast Asia, especially in Thailand, which is the best positioned to be the center for this new highly advanced healing method against UV rays. It has a large range of different healing plants and has highly developed biomedical research institutions. Currently, there are a number of scientists in Thailand who are studying and cataloging the various resilient tropical indigenous plant species that are able to survive with little to no water. These plants are still able to produce strong stem cell extracts despite severe water and radiation loss. The tropical region has well developed medical tourism, which will allow the new healing methods to be implemented seamlessly. Researchers predict that the local skin care clinics will be the first to lead the world in new regenerative skin healing methods.
Constant exposure to UV rays is a continuous threat to human health, and traditional medicine is not able to heal the damage that is caused to the human skin. Using Plant-Based Stem Cell Therapy is a clear and effective method to heal the damaged tissue. These therapies heal the clear damage caused by radiation, and Thailand will be able to develop in this frontline of medical technology.