Chemical apparatus and process disinfecting – deodorizing – preser – Process disinfecting – preserving – deodorizing – or sterilizing – Using direct contact with electrical or electromagnetic...
Reexamination Certificate
2002-01-23
2004-09-14
Le, Hoa Van (Department: 1752)
Chemical apparatus and process disinfecting, deodorizing, preser
Process disinfecting, preserving, deodorizing, or sterilizing
Using direct contact with electrical or electromagnetic...
C422S023000, C422S028000, C422S033000, C422S186230
Reexamination Certificate
active
06790410
ABSTRACT:
The invention relates to a method for hydrogen peroxide plasma sterilization, wherein the chamber temperature is set at less than 39° C. throughout, and containers with temperature-sensitive products can be efficiently sterilized without the temperature-sensitive products showing a significant loss of activity or degradation.
BACKGROUND OF THE INVENTION
The external sterilization of pharmaceutical containers which contain products which are sensitive to temperature effects or irradiation is a general problem which has not yet been satisfactorily solved.
Autoclaving is virtually always unsuitable for biological products because even the most stable products usually do not withstand this thermal stress.
Industrially used sterilization with ethylene oxide ordinarily requires temperatures of about 40-50° C., typically for a period totaling about 24-48 hours, inter alia, in order to remove the remaining ethylene oxide as completely as possible. However, these conditions are often unacceptable for temperature-sensitive products. An additional factor is that possible residual amounts of ethylene oxide or its reaction products in the packaging represent a disadvantage of this method because of its carcinogenicity and toxicity.
Another method, irradiation with &ggr; rays or electron beams, is also usually unsuitable for sensitive products, especially in the liquid state, because it is associated, for example, with losses of activity and/or product degradation.
In the 1980s, a sterilization method which aimed at sterilization under reduced pressure (<1 torr) with hydrogen peroxide in the gas phase was described by EP-A 0 302 420. Although a description of this process at room temperature was also given, its sterilization efficiency is inadequate for a reliable method for routine use to be developed therefrom. The efficiency of this method is increased only by raising the temperature to at least 40° C.
In the sterilization method using hydrogen peroxide and generation of a gas plasma, chamber temperatures of 45° C. or 40-45° C. are also usual (T. C. V. Penna, C. A. M. Ferraz, and M. A. Cassola; Infection Control and Hospital Epidemiology 20: 465-472 (1999) and R. F. Morrissey; Biomedical Instrumentation & Technology 30: 404-406 (1996)). According to U.S. Pat. No. 4,643,876 or EP 207 417 in fact temperatures of 57° C. are measured in the material to be sterilized, because the method itself leads to warming of the sterilization material. Although this method has been described as low-temperature method or low-temperature plasma, the temperatures which are used or reached are still so high that sensitive products are at least partly damaged on exposure to this temperature.
The hydrogen peroxide plasma sterilization method has been employed, under the name STERRAD® method, since the early 1990s in Europe and the USA essentially for sterilizing medical instruments. Thus, the great majority of the corresponding applications are to be found in the hospital sector. There are, however, also a few applications, for example for products, appliances or disposable articles which can be employed in medicine, where the use of ethylene oxide or &ggr; irradiation has been prohibited for compatibility reasons. These products can then often be sterilized without loss of functionality at the temperatures which are intrinsic to the hydrogen peroxide plasma sterilization method, a chamber temperature of about 45° C.
The STERRAD® method has to date been restricted to a chamber temperature of 45° C. (STERRAD® 100) or >39° C. (STERRAD® GMP 100) because it was necessary to assume on the basis of the known results (for example, EP-A 0 302 420) that effective sterilization can be achieved only at temperatures above 39° C. Our own tests with the hydrogen peroxide plasma sterilization method at the standard chamber temperature of 45° C. with biological products under the conditions which are assumed to be mild according to the prior art have shown that sensitive biological materials in some cases suffered marked or complete losses of activity (see example 1). It is thus impossible for the latter to be sterilized under the known conditions of the STERRAD® method.
DESCRIPTION OF THE INVENTION
The present invention was based on the object of developing a procedure which permits sensitive biological and therapeutic products to be sterilized externally in the solid or liquid state in their final container (primary packaging). It was moreover intended that the selection of the final container ensure that there is no adverse effect on the product by the method. It was additionally intended for it to be possible to sterilize the product in two outer packages (secondary packaging).
This object has been achieved in that it was possible to develop, on the example of the temperature-sensitive components of a fibrin glue, a modification of the hydrogen peroxide plasma sterilization method at a further reduced temperature which permits final containers with sensitive products, even in outer packages, to be efficiently sterilized externally in a rapid and mild manner.
BRIEF DESCRIPTION OF THE DRAWINGS
The scheme depicted shows cartridges as primary packaging materials, closed with seal and cap as well as a plunger stopper. In order to avoid plunger stopper movements during processes where also vacuum steps are applied, the cartridges and plunger stoppers are fixed with a spacer within the secondary packaging, e.g. a hard blister with Tyvek® lid. In addition to the first secondary packaging a further pouch manufactured of a gas permeable material may be used.
A: Cartridge length.
B: Distance between plunger stoper and cartridge end.
X1 and X2: Length of spacer for fixation of the plungers, adjusted in length to the distance between plunger and secondary packaging.
DETAILED DESCRIPTION OF THE INVENTION
It has now been found that containers with temperature-sensitive products can be effectively sterilized with hydrogen peroxide/plasma under modified conditions without the previously customary temperatures necessarily being used or occurring during this process. At chamber temperatures below 39° C. it is possible to achieve both product stability and sterility. At chamber temperatures of 20-39° C., especially also at about 25-35° C., very mild sterilizations of products are possible. It is thus possible through introduction of this low-temperature modification for final containers with sensitive products such as, for example, proteins, peptides, etc. in solution to be efficiently sterilized. Crucial for the low product temperature in this case is both the low chamber temperature and the avoidance of an excessive energy input, for example on injection of the hydrogen peroxide and in the plasma formation.
Before carrying out the sterilization, the products can, where appropriate, be exposed to a preplasma in order to remove moisture, as described in EP 707 186, or in order to further adapt the product temperature to the chamber temperature.
In the sterilization cycle to be applied, it is possible for the duration of the so-called injection period(s) and diffusion period(s) (where appropriate with simultaneous ventilation) to be varied, preferably between about 1 and 60 minutes. Ventilation during the diffusion period can, where appropriate, also be dispensed with, especially if the product to be sterilized has a simple geometry.
The injection of hydrogen peroxide solution can also be repeated one or more times—especially if the chamber is fully loaded—in order to achieve an adequate hydrogen peroxide content in the gas phase and thus an increased kill rate. If necessary, it is also possible for the entire cycle or parts thereof to be repeated one or more times, although the chamber temperature must be set at <39° C. in accordance with the claimed method in order to limit the warming.
If the diffusion period with ventilation is omitted, it is possible for the injection period, the restoration of an adequate vacuum and the plasma to be followed by a half cycle of injection, vacuum and plasma. This may with simple product geometri
Lemmer Joerg
Metzner Hubert
Naumann Horst
Aventis Behring GmbH
Finnegan, Henderson Farabow, Garrett and Dunner L.L.P.
Le Hoa Van
LandOfFree
Use of a hydrogen peroxide plasma sterilization method for... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Use of a hydrogen peroxide plasma sterilization method for..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Use of a hydrogen peroxide plasma sterilization method for... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3186961