Provided are electrokinetically-altered fluids (e.g., gas-enriched (e.g., oxygen-enriched) electrokinetic fluids) comprising an ionic aqueous solution of charge-stabilized gas-containing nanostructures in an amount sufficient to provide, upon contact with a cell, modulation of at least one of cellul
Provided are electrokinetically-altered fluids (e.g., gas-enriched (e.g., oxygen-enriched) electrokinetic fluids) comprising an ionic aqueous solution of charge-stabilized gas-containing nanostructures in an amount sufficient to provide, upon contact with a cell, modulation of at least one of cellular membrane potential and cellular membrane conductivity. Further provided are the methods of making the electrokinetically-altered ionic aqueous fluid compositions. Particular aspects provide for regulating or modulating intracellular signal transduction associated by modulation of at least one of cellular membranes, membrane potential, membrane proteins such as membrane receptors, including but not limited to G-Protein Coupled Receptors (GPCR), and intercellular junctions (e.g., tight junctions, gap junctions, zona adherins and desmasomes). Other embodiments include particular methods of producing the electrokinetically-altered fluids. The electrokinetically-altered fluid compositions and methods of producing the fluid include electrokinetically-altered ionic aqueous fluids optionally in the form of solvated electrons stabilized, at least in part, with molecular gas (e.g., oxygen).
대표청구항▼
1. An ionic aqueous solution of charge-stabilized gas-containing nanobubbles having an average diameter of less than 100 nanometers, and wherein the gas in the solution is present in an amount of at least 15 ppm at atmospheric pressure. 2. The ionic aqueous solution of claim 1, wherein the charge-st
1. An ionic aqueous solution of charge-stabilized gas-containing nanobubbles having an average diameter of less than 100 nanometers, and wherein the gas in the solution is present in an amount of at least 15 ppm at atmospheric pressure. 2. The ionic aqueous solution of claim 1, wherein the charge-stabilized gas-containing nanobubbles comprise charge-stabilized oxygen-containing nanobubbles, or charge-stabilized nitrogen-containing nanobubbles. 3. The ionic aqueous solution of claim 2, wherein the percentage of the dissolved oxygen molecules present in the solution as the charge-stabilized oxygen-containing nanobubbles is a percentage selected from the group consisting of greater than: 0.01%, 0.1%, 1%, 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, and 95%. 4. The ionic aqueous solution of claim 1, wherein the total dissolved gas is present in the charge-stabilized gas-containing nanobubbles. 5. The ionic aqueous solution of claim 1, wherein the charge-stabilized gas-containing nanobubbles have an average diameter of less than a size selected from the group consisting of: 90 nm, 80 nm, 70 nm, 60 nm, 50 nm, 40 nm, 30 nm, 20 nm, 10 nm, and less than 5 nm. 6. The ionic aqueous solution of claim 1, wherein the ionic aqueous solution comprises a saline solution. 7. The ionic aqueous solution of claim 1, wherein the solution is super-gasified. 8. The ionic aqueous solution of claim 1, wherein the charge-stabilized gas-containing nanobubbles comprise at least one positively-charged ion selected from the group consisting of alkali metal based salts, alkaline earth based salts, and transition metal-based positive ions, in each case along with any suitable counterionic components. 9. The ionic aqueous solution of claim 1, wherein the solution comprises at least one of a form of solvated electrons, and an electrokinetically modified or charged oxygen species. 10. The ionic aqueous solution of claim 9, wherein the solution comprises a form of solvated electrons stabilized, at least in part, by molecular oxygen. 11. The ionic aqueous solution of claim 1, wherein the charge-stabilized gas-containing nanobubbles persist for a time period selected from the group consisting of at least two, at least three, at least four, at least five, at least 6, and at least 12 months, in a closed gas-tight container. 12. The ionic aqueous solution of claim 1, wherein the ionic aqueous solution comprises dissolved gas in an amount selected from the group consisting of at least 25 ppm, at least 30 ppm, at least 40 ppm, at least 50 ppm, and at least 60 ppm oxygen at atmospheric pressure. 13. The ionic aqueous solution of claim 12, wherein the gas in the charge-stabilized gas-containing nanobubbles of the ionic aqueouis solution is present in an amount of at least 25 ppm. 14. The ionic aqueous solution of claim 8, wherein the alkali metal based salts comprise at least one of Li+, Na+, K+, Rb+, or Cs+, wherein the alkaline earth based salts comprise at least one of Mg++ or Ca++, and wherein the transition metal-based positive ions comprise at least one of Cr, Fe, Co, Ni, Cu, or Zn, in each case along with any suitable counterionic components.
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