For Questions Regarding Scheduling Call Us:
First Session Free with Coupon Code:
FREELIGHT
First Session $79.95 Free with coupon code freelight
LEARN MORE
How the Synergistic Power of Light, Water, and Melatonin Can Prevent Dementia

How the Synergistic Power of Light, Water, and Melatonin Can Prevent Dementia

Dementia is one of the most debilitating illnesses that humans can experience. Due to the increasing aging population and the modern lifestyle, dementia cases are expected to rise to 131.5 million by 2053. This condition is characterized by memory loss and cognitive decline, affecting how a person lives and their loved ones. But did you know that there might be a solution to prevent dementia? Recent research suggests that the synergy of light, water, and melatonin could help control the phase separation of proteins in the brain, ultimately preventing the development of dementia. This blog post discusses how this new study can positively impact our future.

Preventing Protein Clumping

Phase separation is a natural occurrence where proteins group in the brain, a process necessary for brain functioning. Still, it can also lead to clumping that can advance to diseases such as Alzheimer's or other dementia's. However, the structure of proteins can be regulated by manipulating light, water, and melatonin. This hypothesis was recently tested in a new study published in the Journal Nature. The study revealed that exposing cells that neurons have formed clumps shown in the brain with dementia to bright lights significantly managed to reverse the process.

A woman standing outdoors enjoying the benefits of red light at Light Lounge in Southlake.

Light

Researchers investigated the effects of light on the protein hydrogels in single cells through biochemical, biophysical, and optical approaches. Bright lasers can alter the dynamics of the proteins without damaging the cell. It's identified that coherence of light and exposure of aqueous substrates may play a role in arresting phase separation. Light directly influences the cells' behavior, resulting in protein synthesis and structure. In the study, low-intensity lasers have been observed to penetrate the scalp and skull and could provide therapeutic benefits to manage dementia via the coherence of light.

Water

Water is another element that plays a significant role in regulating phase separation. An increase in hydration levels could optimize proteins' folding and prevent clumping, potentially preventing brain cell damage that leads to dementia development. However, the study highlighted that water's influence may not be potent and may have little to no effect on intracellular phase separation.

Melatonin

Another powerful element influencing phase separation is melatonin, a hormone produced in the pineal gland, widely known to regulate our circadian rhythm. In the study, the research group found that melatonin can modulate cellular function and regulate intracellular phase separation. It does so by enhancing the hydration of cells. The hydration changes the water component in cells and acts on the proteins' behavior. An increase in water content has been linked with successful protein folding, while low water content hinders this process. Therefore, melatonin's influence is far-reaching and can be used as fodder for treating dementia.

New Horizons in Dementia Treatment

This study suggests a unique approach to managing the progression of dementia, an illness that's become a public health crisis. Besides indicating the synergistic nature of light, melatonin, and water for preventing dementia, this study opens doors for future research on light and protein interactions. This treatment, which integrates ancient remedies like light therapy and water with modern pharmacology and medical science, presents a new opportunity to prevent Alzheimer's disease and other forms of dementia. It's an exciting breakthrough and offers a new ray of hope for millions worldwide battling dementia by providing new and innovative treatment methodologies.

Please consult a medical doctor before using light or any other solution. This blog is reporting on the following study: https://pubmed.ncbi.nlm.nih.gov/36982909/


CITATIONS:

Join our mailing list for the latest updates and promotions.