Ali Karakus Explores Quantum Entanglement to Slow Aging

ISTANBUL, TURKEY / ACCESSWIRE / May 25, 2024 / Turkish neuroscience researcher Ali Karakus is undertaking a project to explore how quantum entanglement could affect cellular aging. The research leverages the phenomenon where interconnected particles influence each other instantaneously, regardless of distance, to investigate aging mechanisms.

Karakus' innovative approach aims to slow down or reverse the aging process of human brain and facial cells using quantum entanglement and time dilation. By entangling human cells on Earth with counterparts sent into space, the study seeks to transfer slowed aging effects back to Earth-bound cells.

Human brain and facial cells are collected using minimally invasive techniques and entangled in a laboratory. The entangled cells are then sent into space, where their aging process is monitored. Collaboration with NASA and ESA is crucial for this phase. Data on cellular senescence, DNA methylation, and telomere length is collected continuously.

Challenges include maintaining entanglement over long distances and ensuring cell viability in space. Ethical considerations, such as informed consent from donors and stringent biosecurity measures, are also addressed.

Karakus and his team plan future studies on Drosophila melanogaster to validate their hypothesis through a quantum simulation by 2026, aiming to pioneer breakthroughs in age-related therapies.