USRE47582EActiveUtilityPatentIndex 70
Free radical sterilization system and method
Est. expiryJul 28, 2029(~3.1 yrs left)· nominal 20-yr term from priority
Inventors:GOLKOWSKI CZESLAW
A61L 2103/50A61L 2202/11A61L 11/00A61L 2/202A61N 1/44A61L 2/208A61L 2/04A01N 59/00A01N 25/34A61L 2/186A61L 2202/122A61L 2/14F26B 3/04F26B 25/005F26B 21/003F26B 11/04F26B 21/30A61L 2103/15F26B 3/02A61L 2202/26A61L 2/00A61L 2/22A61L 2202/15A61L 2202/14A61L 9/00B05B 12/14A01N 1/0294A61L 9/015A61M 1/0019A61L 9/03F22D 7/00A61M 1/94A61M 1/85A61M 1/915A01N 1/168A61M 1/69
70
PatentIndex Score
4
Cited by
81
References
38
Claims
Abstract
A free radical sterilization system having a chamber defining a region, and a generator for generating free radical reach effluent from a free radical electric generator and/or a vaporizer. A closed loop circulating system without a free-radical destroyer is provided for supplying the mixture of free radicals from the electric generator mixed with the hydrogen peroxide solution in the form of the effluent to the chamber. The free-radical sterilization system is used in sterilizing items in the chamber and, with an open-bottomed wound chamber, in treating wounds on a body.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A free radical sterilization system comprising:
a) a chamber for containing items to be sterilized;
b) an effluent generator having an input coupled to the chamber and an output coupled to the chamber for closed-loop circulation, comprising:
i) a blower/distributor comprising a blower having an input coupled to the input of the effluent generator and at least one output, and a flow distributor for distributing blower flow from the at least one output of the blower to at least a first output and a second output in selected portions;
ii) a plasma electric free radical generator having an input coupled to the first output of the blower/distributor and an output coupled to the output of the effluent generator; and
iii) a vaporizer having an input coupled to the second output of the blower, and an output coupled to the output of the effluent generator, the vaporizer contacting, a liquid sterilizing agent with the output of the blower/distributor to produce bactericidal effluent at the output of the vaporizer;
such that bactericidal effluent from the effluent generator flows through the chamber and back through the effluent generator in a closed loop without an intervening free-radical destroyer.
2. The free radical sterilization system of claim 1 , further comprising:
c) an open loop pre-heater and dryer comprising:
i) an input valve having an input open to atmosphere and an output;
ii) a heater having an input coupled to the input valve and an output coupled to the chamber; and
iii) an exhaust blower having an input coupled to the chamber and an output exhausting to atmosphere;
such that air is taken in through the input valve, heated by the heater, passes through the chamber and is exhausted to atmosphere in an open loop.
3. The free radical sterilization system of claim 1 , in which the chamber comprises a tumbler.
4. The free radical sterilization system of claim 1 , in which the chamber comprises a wound chamber having an open bottom surface.
5. The free radical sterilization system of claim 1 , in which the liquid sterilizing agent is hydrogen peroxide.
6. The free radical sterilization system of claim 1 , in which the vaporizer contains a determined amount of liquid sterilizing agent at a beginning of a sterilization run.
7. The free radical sterilization system of claim 1 , in which the flow distributor of the blower/distributor distributes 30% of the flow to the first output and 70% to the second output.
8. The free radical sterilization system of claim 1 , in which the blower/distributor comprises:
a) a multiple-output centrifugal blower having an input coupled to the input of the effluent generator and a plurality of outputs, each of the plurality of outputs of the multiple-output centrifugal blower having an output flow which is a fraction of a total output flow of the multiple-output centrifugal blower approximately equal to the total flow divided by the number of outputs in the plurality of outputs; and
b) a flow distributor comprising at least:
i) a first manifold having a plurality of inputs coupled to a first selected number of the plurality of outputs of the multiple-output centrifugal blower and an output comprising the first output of the blower/distributor; and
ii) a second manifold having a plurality of inputs coupled to a second selected number of the plurality of outputs of the multiple-output centrifugal blower and an output comprising the second output of the blower/distributor;
such that the portion of the total flow at the first output of the blower/distributor is equal to the sum of the fractions of the total output flow multiplied by the first selected number; and the portion of the total flow at the first output of the blower/distributor is equal to the sum of the fractions of the total output flow multiplied by the second selected number.
9. The free radical sterilization system of claim 8 , in which at least one output of the multiple-output centrifugal blower is coupled to the chamber through a heater.
10. The free radical sterilization system of claim 1 , further comprising a multiple-output centrifugal blower having an input coupled to the output of the effluent generator and a plurality of outputs, at least one of the plurality of outputs being coupled to the chamber.
11. The free radical sterilization system of claim 10 , in which a plurality of the outputs from the multiple-output centrifugal blower further comprise fittings for coupling hoses for connection to objects in the chamber, such that effluent from the plurality of outputs passes through the fittings and the hoses and an inside of the objects to the chamber.
12. The free radical sterilization system of claim 1 , further comprising a circulating blower for inducing turbulent flow within the chamber.
13. The free radical sterilization system of claim 1 , further comprising a chamber heater, directly heating the chamber.
14. The free radical sterilization system of claim 1 , further comprising a controller coupled to the blower/distributor of the effluent generator and the plasma electric free radical generator.
15. The free radical sterilization system of claim 1 , further comprising a source of carrier gas coupled to the closed loop.
16. The free radical sterilization system of claim 1 , further comprising a conduit for sterilizing interior passages in an instrument, having a first end coupled to the output of the effluent generator and a second end in the chamber having a connector for coupling with the instrument, so that a portion of the effluent passes through the internal passages in the instrument plugged into the connector.
17. A free radical sterilization system comprising:
a) a chamber for containing items to be sterilized;
b) an effluent generator having an input coupled to the chamber and an output coupled to the chamber for closed-loop circulation, comprising:
i) a blower having an input coupled to the input of the effluent generator and an output; and
ii) a source of effluent having an input coupled to the output of the blower and an output coupled to the output of the effluent generator, comprising one of a plasma electric free radical generator or a vaporizer having a liquid sterilizing agent;
such that bactericidal effluent from the effluent generator flows through the chamber and back through the effluent generator in a closed loop without an intervening free-radical destroyer; and
c) a multiple-output centrifugal blower having an input coupled to the output of the effluent generator and a plurality of outputs, at least one of the plurality of outputs being coupled to the chamber.
18. The free radical sterilization system of claim 17 , in which the chamber comprises a tumbler.
19. The free radical sterilization system of claim 17 , in which the chamber comprises a wound chamber having an open bottom surface.
20. The free radical sterilization system of claim 17 , in which the liquid sterilizing agent is hydrogen peroxide.
21. The free radical sterilization system of claim 17 , in which the vaporizer contains a determined amount of liquid sterilizing agent at a beginning of a sterilization run.
22. The free radical sterilization system of claim 17 , further comprising a multiple-output centrifugal blower having an input coupled to the output of the effluent generator and a plurality of outputs, at least one of the plurality of outputs being coupled to the chamber.
23. The free radical sterilization system of claim 22 17, in which a plurality of the outputs from the multiple-output centrifugal blower further comprise fittings for coupling hoses for connection to objects in the chamber, such that effluent from the plurality of outputs passes through the fittings and the hoses and an inside of the objects to the chamber.
24. A method of sterilization of items in a sterilization chamber using free radicals, comprising:
a) drying and heating the items in the chamber by drawing heated air through the chamber and exhausting the air from the chamber in an open loop;
b) circulating free radical rich effluent comprising a mixture of free radicals and a sterilizing agent, in a closed loop from an effluent generator, through the chamber, then back through the effluent generator, the effluent generator having an input coupled to the chamber and an output coupled to the chamber for closed-loop circulation, the effluent generator comprising a blower/distributor comprising a blower having an input coupled to the input of the effluent generator at least one output, and a flow distributor for distributing blower flow from the at least one output of the blower to at least a first output and a second output in selected portions; a plasma electric free radical generator having an input coupled to the first output of the blower/distributor and an output coupled to the output of the effluent generator; a vaporizer having an input coupled to the second output of the blower, and an output coupled to the output of the effluent generator, the vaporizer contacting a liquid sterilizing agent with the output of the blower/distributor to produce bactericidal effluent at the output of the vaporizer;
c) turning off the effluent generator at the end of a determined sterilization period;
d) drying and heating the items in the chamber by drawing heated air through the chamber and exhausting the air from the chamber in an open loop; and
e) cooling the items in the chamber by drawing ambient air through the chamber and exhausting the air from the chamber in an open loop.
25. The method of claim 24 , in which air is exhausted during step b, creating a negative pressure in the chamber.
26. The method of claim 24 , in which steps d and e further comprise destroying free radicals before exhausting the air using a free radical destroyer.
27. The method of claim 24 , in which step a is maintained for a determined period of time.
28. The method of claim 24 , in which step a is maintained until a determined temperature or humidity is measured in the exhaust.
29. The method of claim 24 , further comprising circulating the air in the chamber with a circulating blower at least during step b.
30. The method of claim 24 , further comprising maintaining a determined temperature in the chamber during step b.
31. A method of treating a wound on a body, using a stream of a free radical rich effluent comprising a mixture of free radicals and a sterilizing agent from an effluent generator having an input and an output for closed-loop circulation, the effluent generator comprising a blower/distributor comprising a blower having an input coupled to the input of the effluent generator at least one output, and a flow distributor for distributing blower flow from the at least one output of the blower to at least a first output and a second output in selected portions; a plasma electric free radical generator having an input coupled to the first output of the blower/distributor and an output coupled to the output of the effluent generator; a vaporizer having an input coupled to the second output of the blower, and an output coupled to the output of the effluent generator, the vaporizer contacting a liquid sterilizing agent with the output of the blower/distributor to produce bactericidal effluent at the output of the vaporizer, using a wound chamber having an open bottom, an input coupled to the output of the effluent generator and an output coupled to the input of the effluent generator, the method comprising:
a) placing the open bottom of the wound chamber on the body around the wound and applying pressure to seal the wound chamber against the body;
b) turning on the effluent generator;
c) for a determined treatment period, circulating the stream of effluent from the output of the effluent generator through the wound chamber and back to the input of the effluent generator in a closed loop;
d) turning off the effluent generator at the end of a determined sterilization period;
e) removing the wound chamber from the body; and
f) repeating the method at a determined interval for a determined treatment duration.
32. The method of claim 31 , in which the treatment period is at least two minutes.
33. The method of claim 31 , in which the treatment period is at least ten minutes.
34. The method of claim 31 , in which the determined interval is a day.
35. The method of claim 31 , in which the determined treatment duration is one week.
36. A sterilizing device comprising:
a) a chamber for containing items to be sterilized; b) an effluent generator having an input coupled to the chamber and an output coupled to the chamber, comprising:
i) a blower/distributor comprising a blower having an input coupled to the input of the effluent generator and at least one output, and a flow distributor for distributing blower flow from the at least one output of the blower to at least a first output and a second output in selected portions;
ii) a free radical generator having an input coupled to the first output of the blower/distributor and an output coupled to the output of the effluent generator; and
iii) a vaporizer having an input coupled to the second output of the blower, and an output coupled to the output of the effluent generator, the vaporizer contacting a liquid sterilizing agent with the output of the blower/distributor to produce bactericidal effluent at the output of the vaporizer;
such that bactericidal effluent from the effluent generator flows through the chamber and back to the effluent generator without an intervening free-radical destroyer.
37. A method for sterilizing items, comprising:
a) generating a bacteriocidal effluent comprising a mixture of free radicals and a sterilizing agent via an effluent generator,
the effluent generator comprising:
a blower;
a plasma electric free radical generator; and
a vaporizer,
wherein the vaporizer contacts a liquid sterilizing agent with the output of the blower/distributor to produce said bactericidal effluent; and
b) circulating the bacteriocidal effluent through a chamber containing items to be sterilized, wherein the bacteriocidal effluent is circulated in a closed loop between the effluent generator and the chamber, without an intervening free radical destroyer.
38. A centrifugal blower for use in a sterilization system, the blower comprising:
an air input and a plurality of outputs
wherein each of the plurality of outputs has an output flow which is a fraction of a total output flow of the centrifugal blower, the fraction being approximately equal to the total flow divided by the number of outputs in the plurality of outputs;
wherein the air input of the blower is coupled to an input of an bacteriocidal effluent generator, wherein the effluent generator is in fluid communication with one or more of: (i) a plasma electric free radical generator and (ii) a vaporizer contacting a liquid sterilizing agent;
a flow distributor comprising at least a first manifold having a plurality of inputs coupled to a first selected number of the plurality of outputs of the centrifugal blower and an output comprising the first output of the blower/distributor
wherein the total flow at the first output of the blower/distributor is equal to the sum of the fractions of the total output flow multiplied by the first selected number.Cited by (0)
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