An In Vitro Investigation of T-Consciousness Fields' Effects on Wound Healing through Scratch Assay

Various theories about Consciousness have been proposed, but there is no consensus definition within the scientific community. Taheri introduced the concept of T-Consciousness to differentiate his perspective from others. According to his theory, T-Consciousness is a non-physical entity and serves as the fundamental element of the universe, from which information, matter, and energy originate. This theory also posits the existence of various T-Consciousness Fields (TCFs), each with distinct functions, that are the subcategory of the Cosmic Consciousness Network (CCN), representing the whole consciousness of the universe. In the current experiment, we investigated the wound-healing effects of two types of TCFs: the Faradarmani Consciousness Field (FCF) and the T-Consciousness Charge Field (TCCF), using a scratch assay. According to Taheri’s theory, when a sample is exposed to TCFs, the information transmitted can alter the properties of that substance. To test this, we used endometrial stem cells (EnSC) as a model for in vitro wound healing. The cells were mechanically wounded with a sterile pipette tip, and the wound closure rate was measured by capturing images at 0, 6, 12, and 24-hour intervals. The experiment included four groups: control (0), control with water, cells exposed to FCF-treated water, and cells exposed to TCCF-treated water. After 6 hours, a significant reduction in empty space was observed in the TCCF-treated group compared to the control 0 group (P-value < 0.05), indicating an acceleration in wound healing. Additionally, after 24 hours, there was an insignificant 6% improvement in healing in the water control group compared to the control (0) group, suggesting that water alone facilitates healing processes. However, treatment with TCCF-treated water and FCF-treated water resulted in approximately 56% and 33% healing, respectively, compared to the control (0) group, and a 47% and 26% improvement in wound repair compared to the water control group (P-value < 0.001). On average, TCCF demonstrated a 75% greater effectiveness in promoting wound healing compared to FCF. Further studies are needed to understand the molecular mechanisms through which TCFs influence cellular processes and wound repair.