Cleaning and liquid contact with solids – Processes – Using sequentially applied treating agents
Reexamination Certificate
1998-09-25
2001-06-05
Carrillo, Sharidan (Department: 1746)
Cleaning and liquid contact with solids
Processes
Using sequentially applied treating agents
C134S004000, C134S006000, C134S007000, C134S018000, C134S019000, C134S022100, C134S022110, C134S022120, C134S022140, C210S634000, C510S161000, C510S244000, C528S493000, C528S495000
Reexamination Certificate
active
06241828
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a method of cleaning or purifying elastomers and elastomeric articles which in particular are intended for medical or pharmaceutical uses but also for cleaning or purifying elastomers and elastomeric articles for any use in which impurities in the elastomer might cause problems through leaching or extraction into the adjacent media.
DESCRIPTION OF THE RELATED ART
Pressurised metered dose inhalers [MDIs] have been available over the last thirty years for the administration of medicaments or drugs, primarily to the lungs, for the treatment of asthma and other airway diseases. Additionally, they have been used for the administration of drugs to the lung for systemic absorption, for administration to the oral cavity and for administration into the nose. All of these pressurised inhalers utilise aerosol valves that meter individual doses. These metering valves are constructed of a mixture of metal and/or plastic parts and elastomeric rubbers. Various types of elastomeric rubber are used in these valves and newer types are being continually developed to ensure compatibility with the various aerosol propellants, to provide compatibility with and stability of the drug formulation and to ensure that the valve continues to perform to specification over the several years of storage required of a pharmaceutical product. One consequence of this protracted storage of aerosol packs in which the propellants are in intimate contact with the metering valve is that materials are leached or extracted from the elastomeric rubbers into the drug formulation. These materials which may be extracted from the elastomeric rubbers are a mixture of the chemical ingredients originally used to make the rubber and also new chemicals produced during the vulcanisation of the rubber. These are undesirable in the finished rubber component as they may cause instability of the formulation and/or degradation of the drug substance and therefore loss of potency, or they may impart objectionable tastes or odours to the product and could in extreme cases cause allergic or toxic reactions.
Both the pharmaceutical manufacturers and the valve manufacturers have been aware of the above problems associated with the use of elastomeric rubber compounds and various approaches have been employed to reduce the extractable chemical materials contained in the rubbers. The main approaches have been to formulate rubbers that will provide a lower level of extractable chemical materials or to pre-extract the rubbers before assembly into the metering valve. Because the final intended use of the product is for administration of drugs, the choice of extraction solvent which can be used is very limited for safety and toxicity reasons as there will remain in the rubber after solvent extraction a residue of this solvent which will be extracted into the propellant system. For this reason the most common extraction solvent used to pre-extract rubbers is the chlorofluorocarbon Trichlorofluoromethane [CCl
3
F] which is included as part of the propellant system in a number of MDIS. Trichlorofluoromethane has a boiling point of 23.8° C. and is often called Propellant 11 which is abbreviated to P11. Due to its boiling point the liquid can generally be used at ambient temperatures.
This pre-extraction has been carried out by a variety of methods ranging from soaking the rubbers in P11 with or without stirring, pumping the P11 through a bed of the rubber components to sophisticated custom-designed extraction apparatus where the material extracted from the rubber is continually removed and the rubber continually provided with a stream of pure P11. These methods generally take several days to achieve extraction although extraction is not complete. The processes are intended to reduce the levels of available extractable chemical materials and it is appreciated that they will not be completely eliminated.
More recently the process known as super critical fluid extraction, SCF extraction, has been developed as a general method of extraction for a variety of materials either to remove impurities or to isolate particularly desired chemical compounds.
In WO93/12161 there is described and claimed a method for cleaning elastomeric articles, in particular components for MDIs comprising extracting phthalates and/or polynuclear aromatic hydrocarbons (PAHs) from the articles by contacting the articles with a supercritical fluid. However, a disadvantage of the use of SCFs is that the choice of SCFs which can be used is limited by pressure and temperature considerations as well as toxicity characteristics because residues of the SCF could remain in the rubber after SCF treatment. Thus for practical purposes SCF extraction is mainly limited to the use of carbon dioxide (CO
2
) and probably a small number of other chemicals such as nitrous oxide (N
2
O).
Likewise, traditional rubber extraction solvents have also been limited by toxicity consideration in view of the residual solvent remaining in the rubber after extraction, and for practical purposes the choice has usually been between P11, ethanol, ethanol/water mixture and water and a small number of other possibilities.
However, it would be useful if it were possible to use other solvents which, although prevented by toxicity considerations from use in hitherto known rubber extraction procedures may have particularly favourable solvent properties for certain of the impurities occurring in the rubbers.
BRIEF SUMMARY OF THE INVENTION
U.S. Pat. No. 5,417,768 describes a method of removing liquids and solids from the surfaces of workpieces which comprises firstly flushing a primary solvent through a pressurizable vessel containing the workpieces and thereafter flushing carbon dioxide through the vessel at a liquifying pressure to remove remaining contaminated primary solvent from the surfaces of the workpieces.
U.S. Pat. No. 5,481,058 describes the use of a supercritical fluid, such as one comprising 1,1,1,2-tetrafluorethane, as an extractant for example of impurities in rubbers used in metered dose inhalers.
According to the present invention there is provided a method of cleaning or purifying elastomers and elastomeric articles which are intended for medical or pharmaceutical use which method comprises firstly performing a solvent extraction process on the elastomer or elastomeric article using a solvent in a non-supercritical state to substantially remove impurities therefrom and thereafter subjecting the elastomer or elastomeric article to a further solvent extraction step using a supercritical fluid or a mixture of supercritical fluids in order to remove or substantially reduce the concentration of the residue of extracting solvent remaining in the elastomer or elastomeric article after the first solvent extraction elastomeric article after the first solvent extraction process.
It should be understood that the supercritical fluid used in the present invention is not itself employed to remove impurities in the elastomer but rather to remove or substantially reduce the residue of extracting solvent which has been used previously to remove these impurities. Thus it will be seen that the present invention inter alia enables the use for the initial extraction of impurities of extracting solvents would not meet the appropriate toxicity requirements if they left significant residues in the rubber after treatment, and if these residues were not subsequently removed as in the present invention. Thus, for example, in addition to the conventional extracting solvents of which examples are referred to above, ketones such as acetone, aliphatic alcohols, partially or fully halogenated alkanes, or polyhydric alkanes could be used in the method of the present invention as an extracting solvent in the first extraction stage.
The primary characteristics of the SCFs used in the method of the present invention are firstly that they should be safe for use with humans, secondly that they should have a sufficiently low critical temperature, ideally less than 100° C., fo
Bespak PLC
Carrillo Sharidan
Smith Gambrell & Russell, LLP.
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