Title:
HYDROGEN PEROXIDE INDICATOR AND METHOD
Kind Code:
A1


Abstract:
The present invention provides a hydrogen peroxide indicator that includes a substrate on which is disposed an indicator composition that includes at least one of a select group of colorants. As a result of contact with hydrogen peroxide, the colorants change color, and even become colorless, thereby providing an indication of the presence of hydrogen peroxide.



Inventors:
Read, David M. (White Bear Lake, MN, US)
Application Number:
12/359783
Publication Date:
05/21/2009
Filing Date:
01/26/2009
Assignee:
3M Innovative Properties Company
Primary Class:
International Classes:
G01N31/00; G01N33/00; A61L2/14; A61L2/20; A61L2/26; A61L2/28; G01N21/78; G01N31/22
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Primary Examiner:
CHORBAJI, MONZER R
Attorney, Agent or Firm:
3M INNOVATIVE PROPERTIES COMPANY (ST. PAUL, MN, US)
Claims:
What is claimed is:

1. A hydrogen peroxide sterilization indicator comprising a substrate and an indicator composition disposed thereon, wherein the indicator composition comprises: at least one first colorant that becomes substantially colorless or changes to a different color upon exposure to hydrogen peroxide; and at least one second colorant that does not change color upon exposure to hydrogen peroxide; wherein exposure to hydrogen peroxide comprises exposing the indicator to an atmosphere containing about 6 mg/L to about 7 mg/L hydrogen peroxide in an empty chamber at a pressure of about 8×102 Pa to about 13.3×102 Pa and a temperature of about 45° C. to about 50° C. for a period of at least about 50 minutes.

2. The hydrogen peroxide sterilization indicator of claim 1, wherein the indicator composition does not significantly fade upon exposure to room lighting.

3. The hydrogen peroxide sterilization indicator of claim 2, wherein the indicator composition does not significantly fade upon exposure to room lighting for two months.

4. The hydrogen peroxide sterilization indicator of claim 1, wherein the indicator composition does not significantly fade upon exposure to sunlight through a window for one week.

Description:

CROSS REFERENCE TO RELATED APPLICATIONS

This is a continuation of U.S. patent application Ser. No. 10/890,612, filed on Jul. 14, 2004, now allowed, which is a continuation of U.S. patent application Ser. No. 09/453,726, filed on Dec. 2, 1999, now U.S. Pat. No. 6,790,411, each of which is incorporated herein by reference in its entirety.

BACKGROUND OF THE INVENTION

Medical instruments, particularly surgical instruments, are typically sterilized prior to use using steam or other sterilizing/disinfecting gases or liquids. A traditional sterilization process uses steam under pressure. Alternative sterilization processes use ethylene oxide or hydrogen peroxide in vapor form as the sterilant.

The use of hydrogen peroxide and other chemical vapor phase sterilization techniques typically involve operating temperatures well below those associated with steam sterilization. These “low temperature” technologies generally operate at temperatures below about 80° C., and often below about 65° C. For hydrogen peroxide sterilization, the sterilized goods are typically available for use shortly after the completion of the sterilization cycle. This is because the decomposition products (e.g., water and oxygen) are nontoxic. The potency of the hydrogen peroxide may be augmented by the presence of electrical energy in the form of an ionizing plasma field.

Sterilization indicators are used to monitor whether a sterilization process has been performed. Sterilization indicators typically include an indicator composition, carried on a substrate, that changes color during the sterilization process. Conventional indicators for hydrogen peroxide, however, often fade upon exposure to light. Thus, there is still a need for a suitable indicator that includes a color change composition for indicating the vapor phase sterilization of an article using hydrogen peroxide.

SUMMARY OF THE INVENTION

The present invention is directed to a method and indicator for detecting the presence of hydrogen peroxide in the vapor phase. The method and indicator are particularly well suited for monitoring whether a hydrogen peroxide sterilization process has been performed.

The present invention provides a hydrogen peroxide indicator that includes a substrate and an indicator composition disposed thereon, wherein the indicator composition includes at least one colorant selected from the group consisting of Malachite green oxalate, Crystal violet, Methyl violet 2B, Ethyl violet, New fuchsin, Victoria blue B, Victoria pure blue BO, Toluidine blue O, Luxol brilliant green BL, Disperse blue 1, Brilliant blue R, Victoria blue R, Quinea green B, Thionin, Meldolas blue, Methylene green, Lissamine green B, Alkali blue 6B, Brilliant green, Spirit soluble HLK BASF, Victoria green S extra, Acid violet 17, Eriochrome black T, Eriochrome blue black B, D & C green no. 2, Spirit soluble fast RR, Spirit soluble fast red 3B, D & C red no. 22, Nitro red, Congo red, Brilliant cresyl blue ALD, Arsenazo 1, Basic red 29, Bismarck brown R, Methylene violet, Methylene violet 3RAX, Mordant brown 1, Reactive black 5, Mordant brown 48, Acid brown AX987, Acid violet AX990, Basic red 15, Mordant red 19, Bromopyrogallol red, and combinations thereof.

Preferably, the colorant is selected from the group consisting of Ethyl violet, New fuchsin, Toluidine blue O, Luxol brilliant green BL, Disperse blue 1, Brilliant blue R, Quinea green B, Thionin, Meldolas blue, Methylene green, Lissamine green B, Alkali blue 6B, Brilliant green, Spirit soluble HLK BASF, Victoria green S extra, Acid violet 17, Eriochrome black T, Eriochrome blue black B, D & C green no. 2, Spirit soluble fast RR, Spirit soluble fast red 3B, D & C red no. 22, Nitro red, Congo red, Brilliant cresyl blue ALD, Arsenazo 1, Basic red 29, Bismarck brown R, Methylene violet, Methylene violet 3RAX, Mordant brown 1, Reactive black 5, Mordant brown 48, Acid brown AX987, Acid violet AX990, Mordant red 19, Bromopyrogallol red, and combinations thereof.

In a preferred embodiment the present invention provides a hydrogen peroxide indicator that includes a substrate and an indicator composition disposed thereon, wherein the indicator composition includes a binder, at least one colorant selected from the group consisting of Malachite green oxalate, Crystal violet, Methyl violet 2B, Ethyl violet, New fuchsin, Victoria blue B, Victoria pure blue BO, Toluidine blue O, Luxol brilliant green BL, Disperse blue 1, Brilliant blue R, Victoria blue R, Quinea green B, Thionin, Meldolas blue, Methylene green, Lissamine green B, Alkali blue 6B, Brilliant green, Spirit soluble HLK BASF, Victoria green S extra, Acid violet 17, Eriochrome black T, Eriochrome blue black B, D & C green no. 2, Spirit soluble fast RR, Spirit soluble fast red 3B, D & C red no. 22, Nitro red, Congo red, Brilliant cresyl blue ALD, Arsenazo 1, Basic red 29, Bismarck brown R, Methylene violet, Methylene violet 3RAX, Mordant brown 1, Reactive black 5, Mordant brown 48, Acid brown AX987, Acid violet AX990, Basic red 15, Mordant red 19, Bromopyrogallol red, and combinations thereof, and at least one colorant that does not change color upon contact with hydrogen peroxide vapor.

Methods of monitoring a hydrogen peroxide sterilization process is also provides. These methods include exposing an article to be sterilized and the hydrogen peroxide indicators as described herein to hydrogen peroxide vapor.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The present invention provides a hydrogen peroxide indicator that includes a substrate on which is disposed an indicator composition that includes at least one of a select group of colorants. As a result of contact with hydrogen peroxide, the colorants change color, and even become colorless, thereby providing an indication of the presence of hydrogen peroxide.

In particular, the present invention is directed to a system for indicating exposure to a hydrogen peroxide vapor sterilization process. The indicator composition includes at least one component that is transformed (typically, chemically transformed) in the presence of vaporous hydrogen peroxide such that the color of the composition changes. The composition may include one or more components that change color upon contact with hydrogen peroxide, as well as other components that do not change color upon contact with hydrogen peroxide. For example, the composition preferably includes a polymeric binder to aid in applying the composition to a suitable substrate.

Indicators of the present invention are very useful in indicating when an article has been exposed to hydrogen peroxide in the vapor phase. Significantly, indicators of the present invention offer one a simple, yet effective means for indicating when a particular article has been subjected to sterilization using vaporous hydrogen peroxide.

Preferably, the indicator compositions of the present invention undergo a color change when exposed to an atmosphere above an aqueous solution containing 30 weight percent (wt-%) hydrogen peroxide at 50° C. within a period of at least about one hour and/or a color change when exposed to an atmosphere containing about 6 milligrams/liter (mg/l) to about 7 mg/l hydrogen peroxide (in an empty chamber, i.e., without articles to be sterilized) at a pressure of about 8×102 Pascals (Pa) to about 13.3×102 Pa and a temperature of about 45° C. to about 50° C. for a period of at least about 50 minutes, which are typical conditions within an empty commercial hydrogen peroxide plasma sterilizer. More preferably, for use in conventional sterilizers, the indicator compositions of the present invention undergo a color change when exposed to an atmosphere containing about 6 mg/l to about 7 mg/l hydrogen peroxide (in an empty chamber) at a pressure of about 8×102 Pa to about 13.3×102 Pa and a temperature of about 45° C. to about 50° C. for a period of at least about 50 minutes. As used herein, a color change includes becoming colorless.

Preferably, the indicator compositions do not significantly fade upon exposure to room lighting, e.g., fluorescent lighting. More preferably, the indicator compositions do not significantly fade, for example, upon exposure to sunlight through a window for one week or room lighting for two months.

Suitable colorants for use in the indicator compositions of the present invention include the following: Malachite green oxalate, Crystal violet, Methyl violet 2B, Ethyl violet, New fuchsin, Victoria blue B, Victoria pure blue BO, Toluidine blue O, Luxol brilliant green BL, Disperse blue 1, Brilliant blue R, Victoria blue R, Quinea green B, Thionin, Meldolas blue, Methylene green, Lissamine green B, Alkali blue 6B, Brilliant green, Spirit soluble HLK BASF, Victoria green S extra, Acid violet 17, Eriochrome black T, Eriochrome blue black B, D & C green no. 2, Spirit soluble fast RR, Spirit soluble fast red 3B, D & C red no. 22, Nitro red, Congo red, Brilliant cresyl blue ALD, Arsenazo 1, Basic red 29, Bismarck brown R, Methylene violet, Methylene violet 3RAX, Mordant brown 1, Reactive black 5, Mordant brown 48, Acid brown AX987, Acid violet AX990, Basic red 15, Mordant red 19, and Bromopyrogallol red. Alternative names and Color Index Numbers for these colorants are listed in Tables 1 and 2 below. Various combinations of these colorants can be used in the indicator compositions of the present invention. Such mixtures or blends would increase the options available in color changes dramatically.

A preferred group of colorants include the following: Ethyl violet, New fuchsin, Toluidine blue O, Luxol brilliant green BL, Disperse blue 1, Brilliant blue R, Quinea green B, Thionin, Meldolas blue, Methylene green, Lissamine green B, Alkali blue 6B, Brilliant green, Spirit soluble HLK BASF, Victoria green S extra, Acid violet 17, Eriochrome black T, Eriochrome blue black B, D & C green no. 2, Spirit soluble fast RR, Spirit soluble fast red 3B, D & C red no. 22, Nitro red, Congo red, Brilliant cresyl blue ALD, Arsenazo 1, Basic red 29, Bismarck brown R, Methylene violet, Methylene violet 3RAX, Mordant brown 1, Reactive black 5, Mordant brown 48, Acid brown AX987, Acid violet AX990, Mordant red 19, Bromopyrogallol red, and combinations thereof.

Another preferred group of colorants include the following: Malachite green oxalate, Methyl violet 2B, New fuchsin, Toluidine blue O, Luxol brilliant green BL, Quinea green B, Thionin, Meldolas blue, Lissamine green B, Alkali blue 6B, Brilliant green, Victoria green S extra, Eriochrome blue black B, Congo red, Bismarck brown R, Methylene violet, Methylene violet 3RAX, Bromopyrogallol red, and combinations thereof.

Suitable colorants become colorless or change to a different color upon exposure to hydrogen peroxide vapor. Preferred are those colorants that show good contrast between the initial color and the color after exposure to hydrogen peroxide vapor. Examples include, Malachite green oxalate, Methyl violet 2B, New fuchsin, Quinea green B, Thionin, Meldolas blue, Lissamine green B, Alkali blue 6B, Congo red, Eriochrome blue black B, Bismarck brown R, Methylene violet 3RAX, and combinations thereof.

Another group of preferred colorants are those that become substantially colorless upon exposure to hydrogen peroxide vapors under conventional sterilization conditions (e.g., 6 mg/l to about 7 mg/l hydrogen peroxide in an empty chamber at a pressure of about 8×102 Pa to about 13.3×102 Pa and a temperature of about 45° C. to about 50° C. for a period of at least about 50 minutes) or to the more concentrated hydrogen peroxide vapors in a desiccator. Examples of such colorants include Toluidine blue O, Luxol brilliant green BL, Victoria green S extra, Methylene violet, Bromopyrogallol red, Brilliant green, and combinations thereof.

Such colorants that become substantially colorless after exposure to hydrogen peroxide can also be used in combination with other colorants (e.g., dyes or pigments) that do not change color in the presence of hydrogen peroxide to give a chemical indicator with a suitable contrasting color change. For example, Alkali blue 6B plus a red unreactive dye such as Quinacridone red 19 show a color change from blue (initial) to pink, or a mixture of Brilliant green and Auramine O show a color change from bright green (initial) to bright yellow. In addition to Quinacridone red 19 and Auramine O, other sterilant-immune colored components may include those examples indicated in Tables 3A and 3B below.

Preferably, at least one colorant is present in the indicator composition in an amount sufficient to cause a color change when the composition is exposed to an atmosphere above an aqueous solution containing 30% hydrogen peroxide at 50° C. within a period of at least about one hour and/or an amount sufficient to cause a color change when exposed to an atmosphere containing about 6 mg/l to about 7 mg/l hydrogen peroxide (in an empty chamber) at a pressure of about 8×102 Pa to about 13.3×102 Pa and a temperature of about 45° C. to about 50° C. for a period of at least about 50 minutes. Generally, the compositions contain about 0.1 wt-% to about 5.0 wt-%, based on the total weight of the composition, of a colorant that changes color upon exposure to hydrogen peroxide.

In effect, the colorant concentration should be such as to allow a clear visual indication of a color change. If at least one colorant that does not change color upon exposure to hydrogen peroxide is used in the indicator compositions of the present invention, it is present in an amount sufficient to provide the targeted color intensity, both prior to and subsequent to exposure to hydrogen peroxide vapor. Generally, such compositions contain about 0.1 wt-% to about 5.0 wt-%, based on the total weight of the composition, of a colorant that does not change color upon exposure to hydrogen peroxide.

The indicating composition is generally formulated in the form of a dispersion or solution in water or an organic solvent (preferably, an organic solvent). The composition includes at least one colorant as described above as well as an organic binder. A wide variety of suitable binders can be used. Examples include synthetic or natural polymers or resins. Suitable binders are those that do not interfere with the function of the indicator composition. Examples include cellulose acetate butyrate, shellac, ethyl cellulose, methyl cellulose, acrylic resins, etc. A sufficient amount of binder is included in the compositions to provide adequate binding of the composition to a substrate on which it is disposed, while providing the desired rate of color change. Generally, the compositions contain about 20 wt-% to about 40 wt-% of a polymer binder, based on the total weight of the composition.

Indicator compositions of the present invention can also include other resins that do not necessarily function as a binder. For example, the compositions can include a resin that functions as a dispersing agent, such as Rhoplex I-545, a water based acrylic polymer, available from Rohm and Haas Corp., Philadelphia, Pa., that assists in dispersing the ingredients of the composition in the solvent used in application of the composition to a substrate. Indicator compositions of the present invention can also include opacifying agents such as titanium dioxide, surfactants, plasticizers, antifoam agents, and the like. For certain embodiments, a basic material such as an organic amine (e.g., triethanolamine) can be used to enhance sensitivity of the colorant to the low concentration of hydrogen peroxide in a conventional sterilizer. Typically, such additives are used in no more than about 5 wt-% based on the total weight of the indicator composition.

The compositions are typically applied to a substrate out of a solvent as discussed above. Suitable solvents include water and organic solvents such as ketones, esters, alcohols, and the like. Examples of suitable solvents include methyl ethyl ketone, n-propyl acetate, and isopropanol. The solvent is typically used in an amount of about up to about 15 wt-%, based on the total weight of the composition. The indicator composition can be applied to the substrate by a wide variety of techniques, including, for example, printing or coating by flexographic, gravure, screen, or die processes.

The substrate on which the indicator composition is disposed can be any of a wide variety. Typically, suitable substrates include polymeric materials, which may be pigmented or colorless, such as polyester, polyethylene, or polystyrene films, paper, and the like. Preferably, it is a MELINEX polyester film from E.I. du Pont de Nemours and Company, Wilmington, Del. The substrate may be in the form of a strip of material (e.g., a strip of material having the dimensions 2 cms by 13 cm). Optionally, the composition can be coated as a stripe over the length of the substrate strip. The substrate may also have an adhesive on the surface opposite that on which the indicator composition is disposed. In this way, the indicator may be used as a tape or label for attachment to the article to be sterilized

The vapor sterilization procedure used is conventional, and is disclosed in, for example U.S. Pat. Nos. 4,756,882, 4,643,876, 4,956,145, and 5,445,792, for example. Preferably, it is a plasma-based sterilization system.

In general, the article to be sterilized is placed in a sterilization chamber, and a dose of hydrogen peroxide, which generally comes pre-measured, is delivered to the chamber. Vapor is generated and allowed to fill the container for an appropriate length of time after which the sterilization is complete. The equipment and the entire procedure is generally controlled electronically. When sterilizing medical instruments, one cycle is often sufficient. The medical instruments are often packaged, with the entire package being placed into the sterilizing compartment. The package allows the hydrogen peroxide to penetrate and effect sterilization of the instruments, while subsequently protecting the instruments from contamination in air. The temperatures used in the process of the present invention are all generally less than 65° C.

The invention will be illustrated in greater detail by the following specific examples. It is understood that these examples are given by way of illustration and are not meant to limit the disclosure or the claims to follow. All percentages in the examples, and elsewhere in the specification, are by weight unless otherwise specified.

EXAMPLES

Example 1

Preparation of Indicator Compositions

Indicator compositions were prepared by mixing 70 grams of a shellac binder solution containing 60% weight percent of shellac in isopropanol (commercially available as 5 pound refined shellac in 99 percent isopropanol form Mantrose, Bradshaw and Zinsser Group, Westport, Conn.), 17.5 grams of dispersing resin (commercially available as Rhoplex 1-545 from Rohm & Haas Corp., Philadelphia, Pa.), in 15 grams of isopropanol, with approximately 0.1 gram or a sufficient amount of colorant (0.1 wt-% to 5 wt-%) to give a good color of the colorants listed in Table 1. The indicator compositions were mixed in glass jars containing marbles. The glass jars were rolled for three hours on a roller mill.

Coating of Indicator Compositions

An indicator composition was coated on a plastic backing (commercially available as “3M Printable Polyester Film Label Stock” from Minnesota Mining and Manufacturing Co., St. Paul, Minn.) using a number 16 Meyer bar (commercially available from R. D. Specialties, Webster, N.Y.). The coated ink was dried at 50° C. in an oven (commercially available as “Despatch Style V 29” from Despatch Oven Co., Minneapolis, Minn.) for 2 minutes. The coated film was cut using scissors to obtain indicators of approximately 2 cm by 13 cm.

Test Methods

One indicator composition was placed on an instrument tray lid and exposed to a full cycle of a hydrogen peroxide plasma sterilization procedure at 45-55° C. in a STERRAD™ 100SI GMP Sterilizer, obtained from Advanced Sterilization Products Co., Irvine, Calif. During the sterilization procedure a vacuum was drawn in the sterilization chamber for 5-6 minutes until the pressure was reduced to 40.0 Pa. A 1.8 ml aliquot of an aqueous solution of 58-60 percent hydrogen peroxide was then injected into the empty sterilization chamber over a period of about 6 minutes, yielding an empty chamber concentration of 6-7 mg/liter hydrogen peroxide. Hydrogen peroxide vapor was allowed to diffuse throughout the chamber for 44 minutes at 8×102 to 13.3×102 Pa. A vacuum was then drawn, reducing the pressure to 66.7 Pa and removing all detectable hydrogen peroxide vapor from the chamber. A plasma phase was then generated in the chamber by emitting an RF power source at 400 watts and 13.56 MHz for about 15-16 minutes at 66.7 Pa, after which the chamber was vented for 3-4 minutes until atmospheric pressure was reached in the chamber. After exposure to the sterilization procedure the indicators were removed from the tray lid and examined for color change. The results for each indicator composition are described in Table 1.

Some of the colorants were either the same color as they were initially or only slightly lighter, so another set of indicators were exposed to a higher concentration of hydrogen peroxide to determine if changing concentration would effect the results. A set of indicators were taped to a roll of film which was placed in a vented desiccator containing 80 ml of 30 weight percent (wt-%) hydrogen peroxide. The desiccator was placed in an oven (commercially available as “Despatch Style V 29” from Despatch Oven Co.) at 50° C. for one hour. The indicators were removed from the desiccator and examined for color change. The results for each indicator composition are also described in Table 1.

TABLE 1
Indicator Compositions
Color
Change
ColorColorWhen in
RunIndexInitialChangeDesiccator
No.ColorantColorant ClassNo.Colorwhen in Sterilizer(30% H2O2)
11Malachite greenMethane 4200Blue/greenPale greenPale green
oxalate (Basic
green 4)
21Crystal violetMethane42555Very DarkSlightly LighterLighter
(Gentian violetBlue
or Hexamethyl-
pararosaniline
chloride
31Methyl violetMethane42535FuchsiaLighterLight lavender
2B (Basic violet
1)
41Ethyl violetMethane42600BlueNo ChangeLighter
(Basic violet 4)
51New fuchsinAnthraquinone42520PurpleSlightly lighterLight pink
(Basic violet 2 or
Magenta III)
61Victoria blue BMethane44045Royal blueLighterLighter
(Basic blue 26)
71Victoria pureMethane42595BlueSlightly LighterLighter
blue BO (Basic
blue 7)
81Toluidine blueThiazine52040Pale blueNo ChangeColorless
O (BasicbBlue
17 or Tolonium
chloride)
91Luxol brilliantMethaneNoneBlue/greenPale greenAlmost
green BLColorless
(Solvent green
11)
101Disperse blue 1Anthraquinone46500Royal BlueMore grayDark gray blue
(Solvent blue 18
or Celliton blue
extra)
111Brilliant blue RMethane42660BlueNo ChangeLighter
(Acid blue 83 or
Coomassie
brilliant blue R)
121Victoria blue RMethane44040Royal blueSlightly LighterLighter
(Basic blue 11)
131Quinea green BMethane42085GreenPale greenVery pale
(Acid green 3)green
141ThioninThiazine52000BlueNo ChangeLight gray
(Lauth's violet)
151Meldolas blueOxazine51175Dark lilacSlightly LighterPale beige
161MethyleneThiazine52020Light blueNoneVery Pale blue
green
171Lissamine greenMethane44090Blue (teal)Slightly LighterPale blue
B (Acid Green
50 or Wool
Green S)
182Alkali blue 6BMethane42750BlueLight grey blueLight blue
(Acid Blue 119)
191Brilliant GreenMethane42040GreenPale greenColorless
(Basic Green 1)
1Commercially available from Sigma-Aldrich Fine Chemicals, St. Louis, MO.
2Commercially available from ICN Biomedicals, Costa Mesa, CA.

Colorants that showed good contrast between the initial color and the color after exposure to hydrogen peroxide vapor are Malachite green oxalate, Methyl violet 2B, New fuchsin, Quinea green B, Thionin, Meldolas blue, Lissamine green B, and Alkali blue 6B.

Another set of preferred colorants for chemical indicators become colorless after exposure in the STERRAD™ Sterilizer or to the more concentrated hydrogen peroxide in a desiccator. Examples of these colorants include Toluidine blue O, Luxol brilliant green BL, and Brilliant green.

Example 2

Preparation of Indicator Compositions for Screening

A cellulose acetate butyrate binder was prepared by dissolving 15 grams of the cellulose acetate butyrate grade 553-0.4 resin (commercially available from Eastman Chemical Company, Kingsport, Tenn.) in 100 milliliters of methyl ethyl ketone. Indicator compositions were prepared by dissolving a sufficient amount (approximately 0.1 gram or more 0.1 wt-% to 5 wt-% of the colorants listed in Table 2 to give a good color in 15 milliliters of the binder.

The resulting indicator composition was coated as described for Example 1. Each indicator composition was exposed to a full cycle of a hydrogen peroxide plasma sterilization procedure in a STERRAD™ 100SI GMP Sterilizer as described in Example 1. The results for each indicator composition are described in Table 2.

As in Example 1 some of the colorants were either the same color as they were initially or only slightly lighter, so another set of indicators were exposed to a higher concentration of hydrogen peroxide to determine if changing concentration would effect the results. The results for each indicator composition are also described in Table 2.

TABLE 2
Indicator Compositions
Color
ColorColorChange
RunColorantIndexInitialChangewhen in Desiccator
No.ColorantClassNo.ColorWhen in Sterilizer(30% H2O2)
20Spirit soluble HLK BASFGreenNo ChangeSlightly Lighter
21Victoria green S extraDark greenAlmost ColorlessVery Pale green
221Acid violet 17Methane42650PurpleNo ChangeLighter
231Eriochrome black TMonazo14645D BrownSlightly LighterNone
241Eriochrome blue black BMonazo14640Dark lilacLighterVery Pale beige
25D & C green no. 2Green/bluePale greenPale green
26Spirit soluble fast RRPurpleSlightly LighterNo Change
27Spirit soluble fast red 3BFuchsiaSlightly LighterLighter
28D & C red no. 22PinkNo ChangeSlightly Lighter
291Nitro redMonazoNoneLilacLighterLighter
301Congo redDiazo22120Light redDarkerBlue orange
311Brilliant cresyl blue ALDOxazineLight blueNo ChangeLighter
321Arsenazo 1MonazoNoneVery paleNo ChangeLighter
pink
331Basic red 29Monazo11460Dark boldNo ChangeLighter
pink
341Bismarck brown RDiazo21010Brown/goldNo ChangeSignificantly Lighter
35Methylene violetLight purpleDarkerColorless
361Methylene violet 3RAXDiazine50206FuchsiaNo ChangeLight pink
371Mordant brown 1Diazo20110BrownLighterNone
381Reactive black 5Diazo20505Very paleNo ChangeLight gray blue
lilac
391Mordant brown 48Monoazo11300Red/brownSlightly LighterSignificantly Lighter
402Acid brown AX987LilacLight blueLight blue
412Acid violet AX99041001Dark lavenderBlueBlue
422Basic red 15Red/pinkLighterPale pink
43Mordant red 19BeigeLighterLighter
441Bromopyrogallol redMethaneNoneLilacPale beigeColorless
1Commercially available from Sigma-Aldrich Fine Chemicals, St. Louis, MO.
2Commercially available from Spectra, Kearny, NJ.
3Commercially available from ICN Biomedicals, Costa Mesa, CA.

Colorants that showed good contrast between the initial color and the color after exposure to hydrogen peroxide vapor are Eriochrome blue black B, Congo red, Bismarck brown R, and Methylene violet 3RAX.

Another set of preferred colorants for chemical indicators become colorless after exposure in the STERRAD™ Sterilizer or to the more concentrated hydrogen peroxide in a desiccator. Examples of these colorants include Victoria green S extra, Methylene violet, and Bromopyrogallol red.

Comparative Examples

The colorants listed in Table 3A were used to make chemical indicators as described in Example 1, while the colorants listed in Table 3B were used to make chemical indicators as described in Example 2. Each indicator composition was exposed to a full cycle of a hydrogen peroxide plasma sterilization procedure in a STERRAD™ 100SI GMP Sterilizer as described in Example 1. The results for each indicator composition are described in Table 3A or 3B.

As in Example 1, some of the colorants were either the same color as they were initially or only slightly lighter. Thus, another set of indicators were exposed to a higher concentration of hydrogen peroxide to determine if changing concentration would effect the results. The results for each indicator composition are also described in Table 3A or 3B.

TABLE 3A
Colorants for Indicator Compositions
ColorColor Change
RunColorantIndexInitialColor Changein Desiccator
No.ColorantClassNo.Colorin Sterilizer(30% H2O2)
11Brilliant blue G (Acid Blue 90 orMethane42655BlueNo ChangeNo Change
Coomassie Brilliant Blue G 250)
21Acid black 24Diazo26370GreyNo ChangeNo Change
32Patent blue violetMethaneBlueNo ChangeNo Change
41Disperse red 13 (Celliton Scarlet B)Monoazo11115PurpleNo ChangeNo Change
51Sudan black BDiazo26150Blue/BlackNo ChangeNo Change
61Janus green BMonoazo11050BlueNo ChangeNo Change
71Acridine orange base (SolventAcridine46005OrangeNo ChangeNo Change
Orange 15)
81Fast green FCF (Food Green 3)Methane42053Blue (teal)No ChangeNo Change
91Patent blue VF (Acid Blue 1)Methane42045Dark blueNo Change
1Commercially available from Sigma-Aldrich Fine Chemicals, St. Louis, MO.
2Commercially available from ICN Biomedicals, Costa Mesa, CA.

TABLE 3B
Colorants for Indicator Compositions
Color
ColorColorChange in
RunIndexInitialChange inDesiccator (30%
No.ColorantColorant ClassNo.ColorSterilizerH2O2)
101Acid red 97Diazo22890Red/orangeNo ChangeNo Change
111Sulforhodamine BXanthene45100Dark pinkNo ChangeNo Change
12Xylenol orange sodium saltLight pinkNo ChangeNo Change
13Azure BPale blueNo ChangeNo Change
14Spirit soluble fast yellow GYellowNo ChangeNo Change
153Keystone soap fluoro greenBlue/greenNo ChangeNo Change
163Calco oil blue NNoneBlueNo ChangeNo Change
173Oil blue ALight blueNo ChangeNo Change
183Calco oil greenGreenNo ChangeNo Change
193D & C red no. 33Monoazo17200PinkNo ChangeNo Change
203D & C green no. 5Anthraquinone61570Pale blueNo ChangeNo Change
21Bordeaux RLight pinkNo ChangeNo Change
221Xylenol cyanole FFMethane42135BlueNo ChangeNo Change
23Crystal scarletLight pinkNo ChangeNo Change
24Basic blue 41Dark blueNo ChangeNo Change
251Evans blueDiazo23860BlueNo ChangeNo Change
261Chicago sky blue 6BDiazo24410BlueNo ChangeNo Change
271Acid blue 113Diazo26360BlueNo ChangeNo Change
281Acid blue 120Diazo26400Grey/blueNo Change
29Acid red 88Dark pinkNo ChangeNo Change
30Acid red 151Red/pinkNo ChangeNo Change
311Acid violet 5Monoazo18125DarkNo ChangeNo Change
lavender
321Disperse red 1Monoazo11110Red/orangeNo ChangeNo Change
33Direct red 81Pale pinkNo ChangeNo Change
341Disperse red 19Monoazo11130DarkNo ChangeNo Change
orange
351Sudan red 7BDiazo26050Dark pinkNo ChangeNo Change
362Basic red 73Light redNo ChangeNo Change
373Acid green AX986Lime greenNo ChangeNo Change
1Commercially available from Sigma-Aldrich Fine Chemicals, St. Louis, MO.
2Commercially available from Spectra, Kearny, NJ.
3Commercially available from ICN Biomedicals, Costa Mesa, CA.

Example 4

A preferred composition was prepared as described in Example 1 using the components and the amounts given in Table 4. The resulting indicator composition was coated as described for Example 1. Each indicator composition was exposed to a full cycle of a hydrogen peroxide plasma sterilization procedure in a STERRAD™ 100SI GMP Sterilizer as described in Example 1.

TABLE 4
Indicator CompositionWeight Percent
Shellac Binder70.2
Rhoplex I-545 Water based23.0
Acrylic Polymer Resin
Alkali Blue 6B00.6
Quinacridone red 19 available00.3
as Sunfast Red 19
Triethanolamine02.0
Isopropanol03.9

Colorants that become colorless after exposure in the STERRAD™ Sterilizer or to the more concentrated hydrogen peroxide in a desiccator can be used in combination with dyes or pigments which are stable to hydrogen peroxide to give a chemical indicator with a suitable contrasting color change. For example, Alkali blue 6B plus a red unreactive dye such as Quinacridone red 19 (commercially available as Sunfast Red 19 from Sun Chemical Corporation, Cincinnati, Ohio) showed a color change from blue (initial) to pink after exposure in the STERRAD™ Sterilizer. Another example was made by combining Brilliant green and Auramine O (commercially available from Sigma Aldrich Fine Chemicals, St. Louis, Mo.) which showed a color change from bright green (initial) to bright yellow after exposure in the STERRAD™ Sterilizer.

The complete disclosures of the patents, patent documents, and publications cited herein are incorporated by reference in their entirety as if each were individually incorporated. Various modifications and alterations to this invention will become apparent to those skilled in the art without departing from the scope and spirit of this invention. It should be understood that this invention is not intended to be unduly limited by the illustrative embodiments and examples set forth herein and that such examples and embodiments are presented by way of example only with the scope of the invention intended to be limited only by the claims set forth herein as follows.