Drug – bio-affecting and body treating compositions – Inorganic active ingredient containing – Elemental chlorine or elemental chlorine releasing inorganic...
Reexamination Certificate
2001-05-16
2003-02-25
Pak, John (Department: 1616)
Drug, bio-affecting and body treating compositions
Inorganic active ingredient containing
Elemental chlorine or elemental chlorine releasing inorganic...
C424S407000, C424S601000, C424S605000, C424S661000, C424S666000, C424S703000, C424S713000, C424S714000, C424S718000, C514S553000, C514S557000, C514S558000, C514S559000, C514S560000, C514S562000, C514S567000, C514S568000, C514S572000, C514S574000, C514S576000, C514S578000, C514S608000, C514S708000, C514S709000, C514S710000, C514S711000, C514S887000, C514S964000, C514S970000, C514S973000, C514S975000, C210S754000, C422S029000, C422S037000, C426S335000, C426S532000, C510S160000, C510S161000, C510S383000, C510S
Reexamination Certificate
active
06524624
ABSTRACT:
TECHNICAL FIELD
The present invention relates to two-part disinfecting systems, as well as disinfecting compositions and methods for making and using the same, and in a particular embodiment to a two-part disinfecting system that, when mixed, yields a disinfecting composition having reduced chlorine dioxide generation and extended color longevity.
BACKGROUND OF THE INVENTION
Many diseases arise from the growth and spread of microorganisms that can affect all aspects of life, from human health, to animal health, to food and water safety, to the safety of the environments we live in. Disinfectants have found wide spread application in all these areas. Hospitals perform rigorous programs to disinfect and sterilize their environments. Consumer homes are replete with disinfectant hand cleaners, sprays, hard surface cleaners, disinfectant wipes, and fruits and vegetable washes. Disinfectants are widely used on farms where the difference between healthy and sick animals can mean the difference between profitability and loss.
Mastitis is one of the most common and economically costly diseases confronting milk producers. Economic losses result from poorer milk quality, lower milk production, and potential culling of chronically infected animals. The use of disinfectant solutions both before and after milking has found great success in preventing mastitis, particularly disinfectants based on acidified chlorite as commercially available from Alcide Corporation (Redmond, Wash.).
Acidified chlorite (AC) disinfectants are commonly two-part products having a first or “base” part containing a chlorite (such as sodium chlorite) and a second or “activator” part containing an acid activator. The AC disinfectant is formed upon mixing the first and second parts, and typically only in amounts sufficient for a given milking period. Depending upon the desired characteristics and/or intended use of the AC disinfectant, either the first or second part, or both parts, may contain one or more optional ingredients such as skin conditioners, healing agents, surfactants, thickeners, film-forming agents, and/or preservatives. Also, depending upon the two-part system, the AC disinfecting composition may be formed by simply mixing the first and second parts, often in approximately equal volumes, or may involve some additional dilution step before or after mixing.
Color has proved to be an important attribute for teat disinfectants, allowing farmers to visually confirm that the disinfectant has been properly applied to the teat. This is particularly advantageous for confirming application to large herds when multiple farm workers are applying the disinfectant to many different animals. Unfortunately, many such colorants used to impart the color are subject to chemical degradation upon formation of the AC disinfectant. This leads to ineffective coloration as the disinfectant ages—that is, from the point in time following mixing of the first and second parts to form the AC disinfectant.
Teat disinfectants are generally considered animal “drugs” in most countries, and thus controlled by the regulatory agencies overseeing the same. Most often, the only colorants that can be used in a teat disinfectant are those dyes that have been approved for use in food or drugs. For example, in the United States approved dyes can be found in 21 C.F.R. §70.3. When present in an AC disinfectant, these dyes are susceptible to chemical oxidation and rapidly lose their color following formation of the disinfectant.
Previous attempts to address this problem have largely focused on use of pigments as opposed to dyes (see e.g., WO 99/16418, WO 99/16309 and EP 0 904 693 A1). Pigments are insoluble colorants and less susceptible to chemical degradation within the AC disinfectant. However, pigments are plagued by problems associated with settling out of solution, staining parlor floors, and clogging milk filters. In addition, such pigments are not approved in some countries for use in teat disinfectants since they are not approved for food or drug use by their regulatory agencies.
Accordingly, there remains a need in the art for improved AC disinfectants generally, as well as a need for improving the color longevity of dyes within AC disinfectants, particularly those dyes that have been approved for use in food and drugs. The present invention fulfills these needs and provides further related advantages.
SUMMARY OF THE INVENTION
In one embodiment, the present invention provides a two-part disinfecting system comprising a first part and a second part adapted to be combined to yield an aqueous disinfecting composition. The first part comprises a chlorite and the second part comprises an acid and an optional oxidizable colorant. In addition, the first part, the second part, or both the first and second parts further comprise an alpha olefin sulfonate. The alpha olefin sulfonate may be in a protonated form (i.e., sulfonic acid), a salt form, or a mixture thereof, and generally contains from 6 to 26 carbon atoms.
When combined, the first part and second part form a disinfecting composition having utility over a wide range of applications. The alpha olefin sulfonate has surprisingly been found to reduce the generation of chlorine dioxide, providing a disinfecting composition that is safer, longer lasting, and with less noxious odors. When the optional oxidizable colorant is present, this results in a disinfecting composition having extended color longevity. Such compositions are particularly useful as teat dips, as well as for other disinfecting applications where extended color longevity is desirable.
In a further embodiment, a method for making a disinfecting composition is disclosed by combining the first part and the second part of the two-part disinfecting system. Such combination may involve mixing liquid forms of the first part and second part, or may involve diluting or dissolving the first part and/or second part prior to mixing, at the time of mixing, and/or after mixing.
In yet another embodiment, a method for disinfecting a substrate is disclosed by contacting the substrate with an effective amount of a disinfecting composition of this invention. Such substrates include any surface, material, or fluid that would benefit from being disinfected, including the skin or tissue of a warm-blooded animal, in particular the teat of a dairy cow, goat or sheep, as well as hard surfaces generally and food surfaces such as meat and meat parts (including beef, poultry, pork, other generally recognized red meats, and fish), fruits and vegetables, and process waters, such as flume waters, cooling tower waters, equipment, and facility cleaning solutions, etc.
These and other aspects of this invention will be evident upon reference to the following detailed description of the invention.
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Chemical Abstracts 105: 29821, abstracting JP 61-20557, 1986.*
WPIDS (Derwent) abstract, accession No. 1986-301647, abstracting JP 61-223082, 1986.
Aldrich Maura
Morelli Joseph
Morse Cecilia Moser
Warf, Jr. C. Cayce
Wiley Jean
Alcide Corporation
Pak John
Seed IP Law Group PLLC
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