Measuring and testing – With fluid pressure – Leakage
Reexamination Certificate
2001-04-30
2002-09-17
Williams, Hezron (Department: 2856)
Measuring and testing
With fluid pressure
Leakage
C073S040700
Reexamination Certificate
active
06450012
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus for measuring the amount of gas that leaks through a package, including the package seals. A thin film membrane typically is adhesively attached over an open top of such packaging, the membrane having a characteristic of being relatively porous to the passage of certain gases but a barrier to the passage of bacteria. The present invention also relates to a method for measuring the amount of gas that leaks through sealed packages of the above-described types. More specifically, the invention relates to gas leakage through packages that have been sealed by a cover of porous material fabricated as a mat of polyethylene fibers. This material acts as a permeable membrane to gases, but an impermeable membrane to bacteria. The membrane comprises a layer having pores which provide a tortuous path to the passage of bacteria; the material is commonly sold under the trademark designation “TYVEC.” The packages which use this material are typically semi-rigid plastic cases which protect medical devices and appliances after manufacture and before actual use.
The invention relates to U.S. Pat. No. 5,939,619, issued Aug. 17, 1999, entitled “Method and Apparatus for Detecting Leaks in Packaging,” and U.S. Pat. No. 6,050,133, issued Apr. 18, 2000, entitled “Method and Apparatus for Detecting Leaks in Packaging.” Both of these patents are owned by the assignee of the present invention. The present invention also relates to co-pending application entitled “Method for Measuring Gas Leakage From Sealed Packages,” Ser. No. 09/676,621, filed Oct. 2, 2000, and owned by the assignee of the present invention. The present invention permits a measurement of leakage that is wholly non-destructive to the package.
Gas sterilization is widely used for medical devices that must be sterile at the time of use, but cannot be subjected to sterilization by the application of high temperatures. Examples of such medical devices include cardiac pacemakers and catheter-based monitoring devices such as blood pressure probes. Typically, the medical device is sealed within a package that is permeable to gases but impermeable to bacteria. The package is then placed in a gas sterilization chamber, and a sterilizing gas such as ethylene oxide is introduced into the gas-permeable package to achieve sterilization. The sterilizing gas is then removed from the package, leaving the interior of the package sterile and non-toxic.
In a typical design, the medical device is placed within a thermoformed rigid plastic tray equipped with a flat sealing flange. A sheet of gas-permeable membrane, such as DuPont TYVEK® 1073-B (medical grade) brand membrane, which is available from E.I. duPont de Nemours & Co., is then sealed to the sealing flange, typically by using an adhesive. The integrity of the seal is critically important to maintaining sterility. Leaks can result from incorrect setting of parameters in the automated sealing process, or from physical defects such as burrs on the face of the sealing equipment or pin holes in the plastic tray.
According to the known practice described in the prior art patents listed herein, a temporary barrier is formed over the gas-permeable layer, wherein the temporary barrier has an aperture with the gas-permeable layer to temporarily seal the gas-permeable layer except where the aperture is located. A tracer gas is applied under low pressure through the aperture so that it can enter into the interior chamber of the package. The entire package is placed into a larger sealed second chamber, and the concentration of tracer gas in the second chamber is measured, outside the package, to thereby measure the amount of tracer gas which has leaked through the package, presumably via leaks in the sealing flange, although leakage can also occur through pinhole defects in the plastic tray itself.
The methods described in the foregoing patents provide very accurate measurements and evaluations for sealed packages, under controlled conditions. However, in many applications, it is not necessary to achieve a high degree of accuracy in the leakage measurement, but is desirable to provide a quick evaluation of leakage as a production line test, to determine whether packages are leaking excessively. Excessive leakage is defined in terms of leakage beyond a predetermined range of acceptability, as a pass/fail parameter, and the precise degree of leakage does not need to by quantified. Methods for making this type of determination should produce results more quickly and at a lesser cost.
The present invention provides a pass/fail test which can be quickly performed at considerably less cost in terms of test equipment and testing time, because it relies on measurement of internal package gas pressure, and specifically pressure drop, caused by leakage of gas from within the package. The method of the present invention can be performed in a short time, perhaps 30-60 seconds, using very much less expensive equipment than prior art methods.
SUMMARY OF THE INVENTION
The present invention comprises an apparatus for measuring the gas leakage through a package which has been prepared to hold a sterilized object in isolation from ambient air and potentially harmful gases. The invention also comprises a method for making leakage measurements using the aforementioned apparatus, comprising the steps of
It is a principal object and advantage of the present invention to provide a method for measuring gas leakage from a package.
It is another object and advantage of the present invention to provide a leakage measurement apparatus which does not degrade or otherwise harm the package being measured or its contents.
Other and further objects and advantages of the invention will become apparent from the following specification and claims and with reference to the appended drawings.
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Evans Mark D.
Mayer Daniel W.
Garber Charles D.
Mocon, Inc.
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