초록 ▼

A manifold for loading plural cannulae with a substance is described. The manifold includes a housing with a plurality of channels that route the flow of the mixed substance from a single central channel to multiple sub-channels for the simultaneous filling of attached cannulae. Each sub-channel ext

A manifold for loading plural cannulae with a substance is described. The manifold includes a housing with a plurality of channels that route the flow of the mixed substance from a single central channel to multiple sub-channels for the simultaneous filling of attached cannulae. Each sub-channel extends to a fitting to which a cannula may be attached. The fittings are rotatably mounted to the housing. A lock assembly holds the cannulae to the individual fittings are so that when a cannula is removed from a fitting, the fitting rotates so as to close the fluid path from the sub-channel. In order to attach a second cannula to the same fitting the lock system requires the fitting to be rotates into a position in which the fluid communications path from the associated sub-channel is reopened.

대표청구항 ▼

1. An assembly for loading cannulae with a substance that is injected into living tissue, the assembly including: a shell, said shell defining a reservoir in which the substance for injection to living tissue is held, said shell having opposed proximal and distal ends and being open at the distal en

1. An assembly for loading cannulae with a substance that is injected into living tissue, the assembly including: a shell, said shell defining a reservoir in which the substance for injection to living tissue is held, said shell having opposed proximal and distal ends and being open at the distal end;a piston that is moveably mounted to said shell so as to move proximally to distally through said reservoir so as to force the substance out of said distal end of said shell; anda manifold is attached to said shell, said manifold including: a housing, said housing: having an inlet opening for receiving the substance ejected from said distal end of said shell;a plurality of channels that branch away from said inlet opening so that the substance introduced through said inlet opening simultaneously flows through said plurality of channels, wherein each of said plurality of channels have a separate outlet opening;a plurality of fittings attached to said housing, wherein each of said plurality of fittings is located adjacent a separate one of the separate outlet openings; each of said plurality of fittings is configured to removably receive a cannula configured for insertion into a living being; each of said plurality of fittings being shaped to define a lumen that extends to the cannula received by said fitting and further shaped so that when said fitting is in a first rotational orientation relative to said housing, said fitting lumen is in not in fluid communication with said outlet opening of one of said plurality of adjacent channels and, when said fitting is in a second rotational orientation relative to said housing, said fitting lumen is in fluid communication with said outlet opening of said one of said plurality of chanels; anda lock assembly attached to said housing that is connected to said fitting and that is configured to releasably lock the cannulae to said housing such that: when said lock assembly locks one of the cannula to said housing, said lock assembly causes one of the cannula to rotate said fitting to said second rotational orientation; andwhen said lock assembly is set to release the cannula from said housing, said lock assembly causes one of the cannula to rotate said fitting from said second rotational orientation to said first rotational orientation. 2. The assembly of claim 1 wherein, said lock assembly includes: a cartridge configured to releasably hold at least one of the cannulae;complementary features on said housing and said cartridge that, to lock and release the at least one cannula to said housing, require said cartridge to be rotated relative to said housing. 3. The assembly of claim 2, wherein said lock assembly further includes: at least one tab that extends from said cartridge; anda groove formed in said housing, said groove configured to receive said tab of said cartridge and to allow said tab to rotate therein. 4. The assembly of claim 1, wherein said lock assembly consists of: a cartridge configured to releasably hold the cannulae so that each of the cannulae can be received by a separate one of said fittings; andcomplementary features on said housing and said cartridge that, to lock and release the cannulae to said housing, require said cartridge to be rotated relative to said housing. 5. The assembly of claim 4, wherein said lock assembly further includes: at least one tab that extends from said cartridge; anda groove formed in said housing, said groove configured to receive said tab of cartridge and to allow said tab to rotate therein. 6. The assembly of claim 4, wherein said assembly further including: a mixer housing, said mixer housing defining a chamber that is separate from said reservoir of said shell, said chamber adapted to receiving components for forming the substance and wherein said mixer housing is connected to said shell so as to define a fluid communication path from the chamber of said mixer housing to said reservoir of said shell; anda mixer for mixing the substance-forming components in said chamber of said mixer housing. 7. The assembly of claim 6, further including a plunger separate from said piston that is mounted to said mixer housing and that is positioned to move through said chamber of said housing so as to urge the substance from said chamber to said reservoir of said shell. 8. The assembly of claim 4, wherein: said shell is configured so that the substance for injection into living tissue that is held in said reservoir is bone cement; andsaid piston is configured so that, when said piston is moved through reservoir of said shell, said plunger is able to urge the bone cement out of said shell and into said manifold housing and into any cannulae attached to said fittings. 9. The assembly of claim 4, wherein said manifold housing is formed with features that facilitate the removable attachment of said shell to said manifold housing so that, when said manifold housing is attached to said shell, a fluid communication path is established between said distal end of said shell and said inlet opening of said manifold housing. 10. The assembly of claim 1, wherein: said shell is configured so that the substance for injection into living tissue that is held in said reservoir is bone cement; andsaid piston is configured so that, when said piston is moved through said reservoir of said shell, said plunger is able to urge the bone cement out of said shell and into said manifold housing and into any cannulae attached to said fittings. 11. The assembly of claim 1, wherein said manifold housing is formed with features that facilitate the removable attachment of said shell to said manifold housing so that, when said manifold housing is attached to said shell, a fluid communication path is established between said distal end of said shell and said inlet opening of said manifold housing. 12. A manifold for loading cannulae with a substance that is injected into living tissue, said manifold including: a housing, said housing: having an inlet opening for receiving the substance ejected from a reservoir;a plurality of channels that branch away from said inlet opening so that the substance introduced through said inlet opening simultaneously flows through said plurality of channels, wherein each of said plurality of channels have separate outlet opening;a plurality of fittings attached to said housing, wherein each of said plurality of fittings: is located adjacent a separate one of said plurality of channel outlet openings; each of said fittings is configured to removably receive one of the cannulae configured for insertion into a living being; each of said fittings is shaped to define a lumen that extends to the cannula received by said fitting and further shaped so that when the said fitting is in a first rotational orientation relative to the housing, the fitting lumen is in not in fluid communication with said outlet opening of one of said plurality of channels and, when said fitting is in a second rotational orientation relative to said housing, said fitting lumen is in fluid communication with said outlet opening of one of said plurality of channels; anda cartridge shaped to removably hold the cannulae, said cartridge shaped so that, when said cartridge is positioned adjacent said housing, each cannula held by said cartridge can engage a separate one of said fittings; andcomplementary locking features integral with said housing and said cartridge for releasably holding said cartridge and any cannula held by said cartridge to said housing wherein said locking features are configured to: when said cartridge is locked to said housing, cause said cartridge and the cannula held by said cartridge to rotate so that each cannula rotates said fitting engaged by said cannula to rotate to the second rotational orientation; andwhen said cartridge is to be released from said housing, cause said cartridge and said lock assembly is set to allow the cannula held by said cartridge to rotate so that each cannula rotates said fitting engaged by the cannula to rotate said fitting from the second rotational orientation to the first rotational orientation. 13. The manifold of claim 12, wherein said locking features include: at least one tab that extends from said cartridge; anda groove formed in said housing, said groove configured to receive said at least one tab of said cartridge and to allow said at least one tab to rotate therein. 14. The manifold of claim 12, wherein said housing and said fittings are configured so that the substance that can be flowed through said plurality of channels and said fitting lumens is bone cement. 15. The manifold of claim 12, wherein four of said fittings are attached to said housing.