Surgery – Means for introducing or removing material from body for... – Treating material introduced into or removed from body...
Reexamination Certificate
2000-03-30
2002-05-07
Kennedy, Sharon (Department: 3763)
Surgery
Means for introducing or removing material from body for...
Treating material introduced into or removed from body...
C604S236000, C604S238000, C604S249000
Reexamination Certificate
active
06383168
ABSTRACT:
BACKGROUND OF THE INVENTION
One of the problems inherently present in the packaging of liquid parenteral drugs is that there is not enough biocompatibility data about the interaction between those drugs and thermoplastic containers. While plastic is commonly used in many injection devices, most parenteral drugs cannot be exposed to most plastics other than for a short period immediately prior to the injection. This is because the drug or injectate may chemically react with the plastic, or cause materials in the plastic to leach into the injectate, thereby introducing impurities in the drug. In periods of extended storage, such exposure to a plastic container may result in degradation of the drug. For these reasons, the pharmaceutical industry normally avoids the storage of injectate in some thermoplastic materials such as polypropylene, which is commonly used in syringes and related injection paraphernalia. Similarly, there is no long term biocompatibility data on engineering or high strength thermoplastics, such as polycarbonate, which is the plastic most commonly used in needleless injection systems.
For this reason, injectates are typically stored in glass vials. Immediately prior to injection, the injectate chamber of a needleless injection system is filled from a glass vial containing the drug. This normally requires the use of a vial adapter, sometimes referred to as a blunt fill device, or an access needle which pierces the protective membrane over the top of the vial and then directs injectate down into the chamber or cartridge of the needleless injection system.
There are a number of drawbacks with this conventional approach. For example, the extra step of having to transfer the drug from the glass vial to the needleless injection system is time consuming and can be troublesome to a patient who is trying to administer the drug at home and who may have physical infirmities. Even for those who are not infirm, an adapter must be on-hand, and it must be sterile to prevent contamination of the injectate. The adapter typically includes a transfer needle with a sharp point at one end to pierce the vial membrane, and that can lead to injury, to unintended introduction of the injectate into the handling personnel or administrator, and/or to contamination of the injectate. This extra step of filling the needleless injection system immediately prior to injection also brings about the possibility of leakage and waste of injectate and, if improperly performed, can introduce air into the injection system. The introduction of air presents difficulties in a needleless injection system, because unlike a conventional needle and syringe system, it is not easy to bleed air out of the chamber of a needleless device. Therefore, firing the injection system with a portion of its chamber filled with air results in a lower dosage being injected into the patient. It is also possible that the injection may take place at an improper pressure. One advantage of the needleless injection systems of Bioject, Inc., assignee of this patent, is that they are able to inject a precisely predetermined amount of injectate at a predetermined, precise location in the tissue of the patient. The introduction of air may make it difficult to achieve such precision.
Accordingly, it is an object of the present invention to provide for the prefilling of a cartridge to be used in a needleless injection system.
SUMMARY OF THE INVENTION
The invention provides a cartridge and nozzle assembly having a nozzle with a valve-receiving portion including a plurality of channels to facilitate flow of injectate to the nozzle orifice. Specifically, the assembly includes a cartridge having a plunger disposed at a rearward end thereof, with an inner portion having a throat at a forward portion thereof, the cartridge further including a generally laterally extending interface surface. Also included is a displaceable outlet valve initially disposed within the throat, the outlet valve having a channel-less valve body. The nozzle receives the cartridge in a rearwardly-directed cartridge-receiving portion, and includes a forward portion defining a valve-receiving portion with a plurality of channels and an injection orifice. Thus, the inner portion of the cartridge has fluid access to the orifice via the channels. The nozzle also includes a generally extending interface surface which abuts the cartridge interface surface. Finally, a seal is disposed between the cartridge and the nozzle rearward of the interface surfaces for preventing or at least reducing leakage of injectate therebetween.
Another aspect of the invention provides a method for preparing a needleless injection system. The method includes the following steps, not necessarily in the order recited: (1) selecting a glass cartridge with a plunger positionable at a rearward end and an inner portion with a throat at a forward portion, and an outlet valve positionable within the throat, the cartridge further including a generally laterally extending interface surface; (2) positioning a seal on the cartridge rearward of the laterally extending interface surface; (3) positioning one of the plunger or the outlet valve within the cartridge; (4) filling the cartridge with injectate prior to positioning the other of the plunger or the outlet valve in the cartridge; (5) positioning the other of the plunger or the outlet valve within the cartridge; (6) selecting a nozzle which includes a rearward, cartridge-receiving portion and a forward portion defining a valve-receiving portion with a plurality of channels and an injection orifice defined therein, the forward portion being configured to receive the valve when the valve is displaced to a forwardly disposed position, the nozzle further including a generally laterally extending interface surface; (7) installing the cartridge into the nozzle to form a cartridge/seal assembly such that the interface surfaces are in abutment and the seal is disposed rearwardly of such abutment; and (8) maintaining the cartridge/seal assembly in a sterile environment prior to use.
An additional aspect of this method includes the step of mounting the cartridge
ozzle assembly to the front end of an injector by exerting rearward pressure on the assembly such that an injector ram exerts forward pressure on the plunger, causing the outlet valve to be displaced from the throat and into the valve-receiving portion and resulting in the injectate displacing air in the forward portion of the nozzle.
With this last-recited aspect, injection can be affected by activating the injector, causing the injector ram to push forwardly on the plunger, causing injectate to be driven out of the nozzle orifice.
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Bonicatto James M.
Landau Sergio
Bioject Medical Technologies Inc.
Kennedy Sharon
Kolisch Hartwell Dickinson & McCormack & Heuser
Sirmons Kevin C.
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