Differences in Biological Function in Zero-Gravity Environment Attributable to Decreased Efficiency of Inter-Organ System Chemical Signaling Due to Decreased Variability of Fluid Accumulation; Concept for Variable Limb Pressure Therapy

Many biological functions, both those consistent with optimal health and those associated with disease expression (in genetic ailments) depend upon the interaction of genes expressing proteins in different organ systems. For these genes to express themselves, they encode proteins which, in turn, transmit messenger RNA which may interact with organ systems other than that which secreted the proteins.

For mRNA to propagate within tissue systems, it must not only be able to move through the spaces between cells through osmosis, but it must be able to enter and occupy individual cells. Many factors affect the ability of chemical signals to enter a cell, but the factor of greatest importance when assessing the differences between biological function in normal and zero-gravity environments is the force exerted by interstitial fluids against cell membranes. Where individual cells are thought generally to maintain an exact balance between internal and external pressure of fluids, under certain circumstances, external pressure may briefly exceed internal pressure. This may drive absorption and therefore diffusion of chemical signals.