Abstract

T-Consciousness Fields (TCFs) as non-material and non-energy fields have been introduced by Mohammad Ali Taheri. Previously, the effect of these fields on the properties of materials was shown to be distinct and different from electric and magnetic fields. However, their effect in the absence of gravity has not been investigated. Gravity is one of the fundamental forces that affect everything in the universe. Its value is expressed as 1G on the surface of the earth. The clinostat simulates microgravity (MG) conditions, allowing experiments to be performed under near-weightlessness conditions. In the present study, two experiments were performed separately. First, the effect of the Faradarmani Consciousness Field, as one of the TCFs, was investigated on the Raji lymphoid cell line for 48 hours under MG stress. According to the data obtained from the flow cytometry assay, apoptosis was observed in the cells exposed to MG, and the percentage of sub-G1 phase in the samples without Faradarmani treatment increased by 85% compared to the treated sample. The percentage of G1 and S phases under Faradarmani was about 135% and 45% higher than the control sample, respectively. In the second experiment, the effect of three types of TCFs on the HEK-293 cell line was evaluated within 24 hours under MG conditions. The results showed that the percentage of the sub-G1 phase in microgravity stress conditions was twice as high as the sample under the influence of TCFs. Also, TCFs caused a significant increase in the S phase up to about 18.6%. According to the obtained results, the application of these fields inhibited the apoptosis caused by MG stress and increased cell survival. These results show that TCFs can function independently of gravity. According to Taheri's theory, the information transmitted due to the application of these fields has caused the development of a new system in the microgravity environment and the compensation of reduced gravity. To better understand the effect of T-Consciousness Fields, it is suggested to measure the state of cellular energy and ATP concentration under 1G and MG gravity with and without applying TCFs.

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