RU2004101970A - SYSTEM FOR REGULATING MICROBES IN A FLUID - Google Patents

Claims (72)

1. A device for controlling the content or growth of microbes in a fluid, comprising a) a micropore zeolite loaded with a means having an affinity for zeolite micropores and having antiseptic properties, and b) a fluid, the zeolite and the fluid being at least partially in contact or arranged to provide at least partial contact, characterized in that the fluid contains a therapeutically active compound or composition in a therapeutically effective amount and concentration and that the total means in honors zeolite more quantity corresponding antiseptic level for the fluid. 2. The device according to paragraph 1, characterized in that the micropores of the zeolite have main cavities of uniform size from about 3 to 11 Å. 3. The device according to paragraph 1, characterized in that the zeolite includes a mass of powder or particles. 4. The device according to paragraph 1, characterized in that the zeolite includes a structure of a consolidated mass of powder or particles. 5. The device according to paragraph 4, characterized in that the bulk porosity of the structure is at least 20%, preferably at least 30%, and most preferably at least 35%, and preferably not more than 80%, preferably not more than 70%, and most preferably not more than 65%. 6. The device according to claim 1, wherein the zeolite comprises a hydrophobic zeolite, wherein the zeolite has the general structural formula (AlO2) × (SiO2) y, where the w / x ratio is at least 15, preferably more than 100, more preferably more than 200 and most preferably more than 1000. 7. The device according to claim 1, characterized in that the tool comprises, consists essentially of or consists of molecules having a molecular weight of less than 3000, preferably less than 2000 and most preferably less than 1500. 8. The device according to paragraph 1, characterized in that the tool includes at least one antibiotic. 9. The device according to paragraph 1, characterized in that the tool includes at least one preservative. 10. The device according to paragraph 9, characterized in that the preservative includes one compound from the group consisting of benzyl alcohol, benzalkonium chloride, cetrimide, chlorobutol, chlorhexidine, chlorocresol, hydroxybenzoates, phenyl alcohol, phenoxy alcohol, phenyl mercury nitrate, chloramphenicol, phenol, especially m-cresol and their combinations. 11. The device according to claim 1, characterized in that the affinity of the agent for zeolite, expressed as the mass / mass of the amount of agent in the zeolite at the maximum degree of saturation, is at least 10%, preferably at least 25% and most preferably at least 50% . 12. The device according to paragraph 1, characterized in that the mass./mass. the amount of agent in the zeolite is less than 100% of the amount corresponding to the maximum degree of saturation, preferably less than 50%, more preferably less than 30% and most preferably less than 10%. 13. The device according to paragraph 1, characterized in that the mass./mass. the amount of the agent in the zeolite is more than 0.01% of the amount corresponding to the maximum degree of saturation, preferably more than 0.1% and most preferably more than 1%. 14. The device according to claim 1, characterized in that the amount of the agent loaded onto the zeolite is selected in such a way that it releases the agent to an antiseptic concentration of the agent in the fluid upon contact with the fluid. 15. The device according to claim 1, characterized in that the zeolite forms a column of sufficient length to ensure a substantially equilibrium concentration of the agent in the fluid after partial passage through the column. 16. The device according to claim 1, characterized in that the fluid includes gas. 17. The device according to claim 1, characterized in that the fluid includes a liquid. 18. The device according to paragraph 1, characterized in that the fluid includes molecules with a low mass, as defined, having a lower affinity, as defined, for zeolite than the tool. 19. The device according to paragraph 18, wherein the affinity of the molecules with low mass is not more than 0.5, preferably not more than 0.1, and most preferably 0.05 of the affinity of the agent. 20. The device according to claim 1, characterized in that the fluid includes molecules with a high mass, as defined. 21. The device according to p. 20, characterized in that the number of molecules with a high mass is more than 0.01 mg / ml, preferably more than 0.1 and most preferably more than 1 mg / ml. 22. The device according to paragraph 20, wherein the high-mass molecules include a molecule selected from proteins, polypeptides, carbohydrates, nucleic acid sequences, lipids, or mixtures thereof. 23. The device according to p. 20, characterized in that the molecules with a high mass include at least one therapeutically active compound or composition. 24. The device according to claim 1, characterized in that the fluid contains nutrient components for microbes. 25. A device for controlling the content or growth of microbes in a fluid, comprising a) a micropore zeolite loaded with an agent having an affinity for zeolite micropores and having antiseptic properties, and b) a fluid, the zeolite and the fluid being at least partially in contact or arranged to provide at least partial contact, characterized in that the fluid contains molecules larger than micropores of the zeolite and having a lower affinity, as defined, for the zeolite than the specified tool. 26. The device according to paragraph 25, wherein the molecules comprise or form part of a therapeutically active compound or composition. 27. The device according to paragraph 26, wherein the therapeutically active compound or composition is present in a medically active concentration in the fluid. 28. The device according to paragraph 25, characterized by any characteristic in paragraphs 1-24. 29. A method of controlling the content or growth of microbes in a fluid, the fluid containing a therapeutically active compound or composition in a therapeutically effective amount and / or concentration, characterized by the stage of contact of at least a portion of the fluid with the zeolite with micropores loaded with an affinity for zeolite micropores and having antiseptic properties, for releasing the agent from the zeolite and increasing the agent content in at least a portion of the fluid. 30. The method according to paragraph 29, wherein the contacting step comprises the step of retaining the fluid in a substantially static relationship with the zeolite. 31. The method according to paragraph 29, wherein the contacting step comprises the step of moving the fluid with respect to the zeolite. 32. The method according to paragraph 31, wherein the stage of movement includes mixing the fluid and / or zeolite. 33. The method according to paragraph 31, wherein the stage of movement includes the stage of passing the fluid through the zeolite. 34. The method according to paragraph 31, wherein the stage of movement includes the stage of passing the fluid through macropores in the zeolite. 35. The method according to paragraph 34, characterized in the stage of passing fluid through a column of zeolite of sufficient length for obtaining a substantially equilibrium concentration of the agent in the fluid in front of or at the exit of the column. 36. The method according to paragraph 29, wherein the contacting step includes the step of maintaining the fluid in a static relationship within the macropores in the zeolite. 37. The method according to paragraph 36, characterized in that during the static interaction maintain a substantially antiseptic level of the agent in the fluid. 38. The method according to paragraph 29, characterized in the stage of increasing the content of the agent in the fluid to an antiseptic level in the fluid. 39. The method according to paragraph 29, characterized in the stage of increasing the content of the agent in the fluid to an essentially equilibrium level with respect to the loaded zeolite. 40. The method according to paragraph 29, wherein the contacting step comprises periodic contact between the fluid and the zeolite. 41. The method according to paragraph 29, wherein the contacting step comprises intermittent contact between more than one dose of the fluid and the zeolite. 42. The method according to paragraph 41, wherein the discontinuous contact includes the step of maintaining at least a portion and preferably the entire dose of the fluid in a static relationship within the macropores in the zeolite. 43. The method according to paragraph 29, wherein the contacting step comprises continuous contact between the fluid and the zeolite. 44. The method according to paragraph 43, characterized in the stage of continuous or periodic addition of funds to the zeolite. 45. The method according to paragraph 44, wherein the step of adding includes the step of feeding the agent into the fluid before contact with the zeolite. 46. The method according to paragraph 44, wherein the step of adding comprises the step of separating the agent from the fluid after contact with the zeolite and feeding it to the zeolite. 47. The method according to paragraph 46, wherein the separation step comprises the step of extracting the agent by contacting the fluid with a second zeolite, an unloaded agent or loaded with a smaller amount of agent than the zeolite. 48. The method according to paragraph 29, characterized by any characteristic in the preceding paragraphs. 49. A method of controlling the content or growth of microbes in a fluid, characterized by the stage of contacting at least a portion of the fluid with a zeolite with micropores, loaded with a tool having an affinity for zeolite micropores and having antiseptic properties, to release the agent from the zeolite and increase the content of the agent in at least a portion of the fluid, and where the fluid contains molecules that are larger than the micropores of the zeolite and have less affinity, as defined, to the zeolite than the specified tool. 50. The method according to paragraph 49, wherein the fluid is a therapeutically active compound or composition in a therapeutically effective amount and / or concentration. 51. The method according to paragraph 49, characterized in any characteristic of the preceding paragraphs. 52. A device for controlling the content or growth of microbes in a fluid, comprising a) a chamber or an upstream circuit, b) a chamber or a downstream circuit, c) a layer located between the upstream chamber and the downstream chamber in such a way as to allow the passage of fluid medium, at least from the chamber of the upward flow through the specified layer to the chamber of the downward flow, and this layer includes a zeolite with micropores loaded with means having an affinity for micropores of the zeolite and having antiseptic their properties and d) a fluid which is located in at least one of the locations selected from the upstream chamber, the bed and the downstream chamber, characterized by an improvement including adaptation of the amount of agent loaded onto the zeolite such that the agent is released to an antiseptic concentration fluid in contact with the layer. 53. The device according to paragraph 52, characterized by any characteristic in the preceding paragraphs. 54. A device for controlling the content or growth of microbes in a fluid, comprising a) a chamber or an upstream circuit, b) a chamber or a downstream circuit, c) a layer located between the upstream chamber and the downstream chamber in such a way as to allow the passage of fluid medium, at least from the chamber of the upward flow through the specified layer to the chamber of the downward flow, and this layer includes a zeolite with micropores loaded with means having an affinity for micropores of the zeolite and having antiseptic their properties and d) a fluid that is in at least one of the locations selected from the upstream chamber, the bed, and the downstream chamber, characterized by an improvement including that at least the volume of the fluid in the downstream of the bed contains an antiseptic concentration of the drug. 55. The device according to paragraph 54, characterized by any characteristic in the preceding paragraphs. 56. A method of controlling the content or growth of microbes in a fluid, characterized by stages a) forming a zeolite layer with micropores loaded with an agent having an affinity for zeolite micropores and having antiseptic properties, and with macropores that allow fluid to pass through the layer and b) passage at least a portion of the fluid through the bed so as to provide release of the agent from the zeolite to increase the content of the agent in at least a portion of the fluid to an antiseptic end ntratsii means. 57. The method according to paragraph 56, characterized in any characteristic of the preceding paragraphs. 58. A hydrophobic zeolite with micropores, the zeolite having the general structural formula (A1O2) × (SiO2) y, where the y / x ratio is at least 15, characterized by an improvement in that the zeolite micropores are loaded with an antiseptic agent in an amount corresponding to more than 10% of the amount corresponding to the maximum saturation of the zeolite with a tool with an absolute amount of more than 1% wt./mass. in relation to zeolite. 59. The zeolite according to paragraph 58, wherein the zeolite is loaded with an antiseptic agent in an amount corresponding to more than 25%, preferably more than 35% of the amount corresponding to the maximum saturation of the zeolite with the agent. 60. The zeolite according to paragraph 58, wherein the zeolite is loaded with an absolute amount of more than 5% wt./mass. in relation to zeolite. 61. The zeolite according to paragraph 58, characterized by an improvement in that the loaded zeolite is dry. 62. Zeolite according to paragraph 58, characterized by any characteristic in the preceding paragraphs. 63. The use of a hydrophobic zeolite with micropores, wherein the zeolite has the general structural formula (AlO2) × (SiO2) y, where the y / x ratio is at least 15, where the zeolite micropores are loaded with an antiseptic agent, characterized in that in order to control the content or For microbial growth in a fluid, a fluid and a loaded zeolite are brought into contact to increase the concentration of an antiseptic in the fluid to an antiseptic effective concentration. 64. The application of paragraph 63, characterized by any characteristic in the preceding paragraphs. 65. A method of controlling the content or growth of microbes in a fluid, characterized by stages a) of producing a hydrophobic zeolite with micropores, the zeolite having the general structural formula (AlO2) × (SiO2) y, where the w / x ratio is at least 15, where micropores zeolite loaded with an antiseptic, and b) contacting the fluid with the zeolite to increase the concentration of the antiseptic in at least a portion of the fluid to an antiseptic effective concentration. 66. The method according to paragraph 65, characterized in the stage of maintaining the fluid in contact with the zeolite for a time sufficient for antiseptic action against microbes. 67. The method according to paragraph 65, wherein the fluid is removed and a new portion of the fluid is in contact with the zeolite. 68. The method according to paragraph 65, characterized in any characteristic of the preceding paragraphs. 69. A method of controlling the content or growth of microbes in a fluid, characterized by stages a) contacting the first part of the fluid with a zeolite with micropores loaded with a means having an affinity for zeolite micropores and having antiseptic properties, to release the agent from the zeolite and increase the content of the agent at least at least in terms of the fluid, b) maintaining the first part of the fluid in static contact with the zeolite under antiseptic conditions, c) removing the first part of the fluid from contact with the zeolite having a reduced content of the agent; and d) contacting the second part of the fluid with a zeolite having said reduced agent content. 70. The method according to paragraph 69, characterized in any characteristic of the preceding paragraphs. 71. A method of controlling the content or growth of microbes in a fluid, characterized by stages a) contacting the first part of the fluid with a zeolite with micropores loaded with a means having an affinity for zeolite micropores and having antiseptic properties to release the agent from the zeolite and increase the content of the agent at least at least in terms of the fluid, b) removing the first portion of the fluid from contact with the zeolite, c) separating at least a portion of the agent from the first portion of the fluid, e) adding at least a portion means to the second part of the fluid; and d) contacting said second part of the fluid with the zeolite. 72. The method according to paragraph 71, characterized in any characteristic of the preceding paragraphs.