Quantum Communication Between Brain and Cells: Hormonal Signaling and Photonic Interaction in Human Physiology

Divvi De Vendre

Abstract: This article presents a speculative yet detailed overview of how the brain communicates with eukaryotic cells through a system involving DNA-attached hormones, G protein-coupled receptors, and biophotonic signaling. It explores the role of quantum entanglement and photon communication in enabling ultra-fast, error-checked communication across the body. Drawing from interdisciplinary sources, the paper discusses the significance of hormonal dimers, particularly as an example, progesterone and estradiol, in transmitting signals to the brain. It warns of disrupted hormonal communication contributing to flawed mRNA transcription, potentially resulting in cellular anomalies such as cancer. While conceptual, the discussion opens avenues for integrating quantum physics into cellular and molecular biology.

Keywords: quantum biology, biophotons, hormone signaling, DNA communication, endocrine system

How to Cite?: Divvi De Vendre, "Quantum Communication Between Brain and Cells: Hormonal Signaling and Photonic Interaction in Human Physiology", Volume 15 Issue 1, January 2026, International Journal of Science and Research (IJSR), Pages: 1610-1612, https://www.ijsr.net/getabstract.php?paperid=SR26124071938, DOI: https://dx.doi.org/10.21275/SR26124071938