Abstract
In this paper, we propose a novel and futuristic theoretical framework aimed at rejuvenating and repairing human brain neurons through the application of quantum entanglement. We hypothesize that by inducing atomic entanglement in nucleotides and photonic entanglement in cryptochromes, and subsequently reinjecting these entangled particles into brain neurons, we can exploit the unique properties of quantum entanglement to enhance neuronal repair and regeneration. Our study delves into the underlying quantum mechanisms, presents detailed mathematical formulations, and outlines comprehensive experimental protocols for achieving neuronal rejuvenation. Additionally, we explore the potential amplification of these effects by exposing entangled particles to the space environment, leveraging factors such as microgravity, cosmic radiation, vacuum conditions, temperature extremes, and electromagnetic isolation. This approach is specifically tailored for brain neurons, as other cells in the body do not process and transmit information in a manner that would benefit from quantum entanglement. Furthermore, we discuss the potential application of this method in treating blindness and neurodegenerative diseases such as Alzheimers disease.
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