초록 ▼

A surface which carries a material which is infected with prions is cleaned with an alkaline cleaning solution to remove as much proteinaceous material as possible from the surface. The solution contains an alkaline cleaning agent which attacks prions remaining on the surface and which attacks prion

A surface which carries a material which is infected with prions is cleaned with an alkaline cleaning solution to remove as much proteinaceous material as possible from the surface. The solution contains an alkaline cleaning agent which attacks prions remaining on the surface and which attacks prions removed from the surface during the cleaning step. After the cleaning step, the surface is exposed to a strong gaseous oxidant, preferably hydrogen peroxide vapor. The hydrogen peroxide or other strong oxidant attacks the prions, particularly the unclumped prion strands, deactivating the prions.

대표청구항 ▼

Having thus described the preferred embodiment, the invention is now claimed to be: 1. A method of deactivating prions which is less damaging to surfaces than a conventional treatment with at least one of 1N sodium hydroxide and heating to 120° C. for one hour followed by microbial decontamina

Having thus described the preferred embodiment, the invention is now claimed to be: 1. A method of deactivating prions which is less damaging to surfaces than a conventional treatment with at least one of 1N sodium hydroxide and heating to 120° C. for one hour followed by microbial decontamination, comprising: pretreating surfaces that carry prion infected material with an alkaline cleaner, whereby at least a portion of the prions remaining in a residual film on the surfaces are destroyed and thereafter, optionally rinsing and drying the surfaces; and treating the surfaces with the residual film thereon with an oxidizing agent in gaseous form to deactivate residual prions in the film. 2. The prion deactivation method of claim 1, wherein the oxidizing agent includes hydrogen peroxide vapor. 3. The prion deactivation method as set forth in claim 1, wherein the alkaline cleaner includes a strong alkali of the group consisting of alkali metal hydroxides, alkali earth metal hydroxides, and combinations thereof. 4. The prion deactivation method as set forth in claim 3, wherein the strong alkali includes one or more of sodium hydroxide and potassium hydroxide. 5. The prion deactivation method as set forth in claim 1, wherein the alkaline cleaner further includes an additive selected from the group consisting of surfactants, cationic polymers, anti-redeposition agents, corrosion inhibitors, buffers, chelating agents, and combinations thereof. 6. The prion deactivation method as set forth in claim 5, wherein the step of treating the surfaces with an oxidizing agent in gaseous form is carried out at 45-60° C. 7. The prion deactivation method as set forth in claim 6, wherein the cleaning and gaseous oxidizing agent treatment steps are carried out in a temperature range between 50° C. and 60° C. 8. The prion deactivation method as set forth in claim 1, further including: rinsing the alkaline cleaner from the surfaces prior to the gaseous oxidizing agent treatment step. 9. The prion deactivation method as set forth in claim 8, further including: after rinsing the surface, wrapping the surface in a microbe barrier; and subjecting the wrapped surface to the gaseous oxidizing agent treatment step. 10. The prion deactivation method as set forth in claim 1, wherein the cleaning and gaseous oxidizing agent treatment steps are carried out in the same vessel. 11. The prion deactivation method as set forth in claim 10, wherein the cleaning and gaseous oxidizing agent treatment steps are carried out without intermediate removal of the surfaces from the vessel. 12. The prion deactivation method as set forth in claim 1, wherein the gaseous oxidizing agent treatment step includes: a) introducing the surface to be treated to a chamber; b) reducing the pressure within the chamber to below atmospheric pressure; and c) introducing hydrogen peroxide vapor to the chamber. 13. The prion deactivation method as set forth in claim 12, wherein the gaseous oxidizing agent treatment step includes repeating steps b) and c) one or more times. 14. The prion deactivation method as set forth in claim 12, wherein step b) includes reducing the pressure within the chamber to about 10 Torr or below. 15. The method as set forth in claim 12, further including: after step c), reducing the pressure within the chamber to below atmospheric pressure; and raising the pressure to a higher subatmospheric pressure with filtered air. 16. A prion deactivation method comprising: pretreating surfaces that carry prion infected material with an alkaline cleaner that deactivates prions; and treating the surfaces with an oxidizing agent in gaseous form to deactivate any remaining prions, the oxidizing agent including hydrogen peroxide vapor, the oxidizing agent treating step being carried out at from about 45-60° C. 17. The prion deactivation method as set forth in claim 16, wherein the step of treating the surfaces with an oxidizing agent in gaseous form follows the step of pretreating the surfaces with an alkaline cleaner, the surface being a surface of a medical instrument which is susceptible to damage by strong alkali treatment. 18. A prion deactivation system for removing and deactivating prions on an item comprising: a chamber for receiving the item; a well fluidly connected with the chamber for receiving a concentrated alkaline cleaner; a supply of water fluidly connected with the well for providing water to mix with the concentrated alkaline cleaner and form an alkaline cleaning solution; a source of hydrogen peroxide vapor fluidly connected with the chamber. 19. The prion deactivation system as set forth in claim 18, further including: a heater for heating the chamber to a temperature of at least 30° C. 20. A method of deactivating prions comprising: pretreating surfaces that carry prion infected material with a cleaner that removes prions, the cleaner having an alkali concentration of about 0.02M to about 0.2M and comprising a surfactant; and deactivating prions on the surfaces with an oxidizing agent in gaseous form, the oxidizing agent including hydrogen peroxide. 21. The method of claim 20, wherein the oxidizing agent is at a temperature of from 45-60° C. 22. A method of deactivating prions on surfaces of medical devices which are incompatible with treatments which include strong alkali or treatments which include soaking the instrument in concentrated hydroxide or hypochlorite for two hours followed by one hour in an autoclave, the method comprising: pretreating surfaces that carry prion infected material with a cleaner that removes prions, the cleaner including a surfactant and having an alkali concentration of about 0.02M to about 0.2M; and at a temperature of 25° C.-60° C., treating the pretreated surfaces with an oxidizing agent in gaseous form which deactivates prions remaining on the surfaces.