A separator element (300) is designed to prevent the passage of granulate along an axial direction (L) but to allow the passage of liquid along the axial direction (L). The separator element (300) has an internal thread (310) open towards its proximal end, and an external thread (320) open towards the distal end. At its proximal end, the separator element additionally has at least one resilient locking arm (330) which is arranged on the outer circumference and winch extends with its free end in the proximal direction. In this way, the separator element can be mounted on the discharge opening of a container (100) and, by means of a closure piece (400), can be fixed on the container in such a way that the separator element remains on the container when the closure piece is removed.

A syringe system includes a syringe and a pressurization device for a syringe. The pressurization device for a syringe is configured so that the plunger advances by a forward rotation of the plunger, and the plunger retracts by a reverse rotation of the plunger. The plunger is advanceable by pressing the gasket at the time of the forward rotation and is retractable with respect to the barrel without pulling the gasket in the proximal end direction at the time of the reverse rotation.

A device for dispensing biomaterial includes a handle configured to receive a syringe, the syringe including a biomaterial and a threaded plunger, and an engagement pin retained within the handle and slidable between a first position and a second position. The engagement pin is configured to engage the threaded plunger in the first position, the engagement pin is further configured to disengage from the threaded plunger in the second position.

A device for producing a bone cement dough from a monomer liquid and a cement powder and dispensing the bone cement dough. The device includes a cartridge holding the cement powder in an internal space. A monomer receptacle screws onto the cartridge, forms a chamber, and has a plunger with a passage that is permeable to gases and the monomer liquid but is impermeable to the cement powder and that connects the internal space to the chamber. The plunger tightly closes the internal space with the exception of the passage. A gas supply opening is arranged in the wall of the monomer receptacle. A monomer liquid container holds the monomer liquid and is located in the chamber. An opening facility opens the container, and closes the gas supply opening before opening the container. Also provided is a method for producing and dispensing the bone cement dough.

The present invention relates in certain embodiments to medical devices for treating vertebral compression fractures. More particularly, embodiments of the invention relate to instruments and methods for controllably restoring vertebral body height by controlling the flow of bone cement into the interior of a vertebra and the application of forces causes by the cement flow. An exemplary system utilizes Rf energy in combination a conductive bone cement for selectively polymerizing the inflow plume to increase the viscosity of the cement. In one aspect of the invention, the system utilizes a controller to control bone cement flow parameters to either allow or disallow cement interdigitation into cancellous bone. A method of the invention includes pulsing the flows of bone cement wherein high acceleration of the flow pulses can apply expansion forces across the surface of the cement plume to reduce a vertebral fracture.

An inflatable bone tamp is provided that includes a shaft with proximal and distal portions and a central longitudinal axis. A balloon is attached to the shaft such that a material can flow through the shaft and into the balloon to inflate the balloon. A flow controller controls the flow of the material through the shaft and into the balloon. Kits, systems and methods are disclosed.

An inflatable bone tamp includes an outer shaft defining a passageway. An inner shaft is positioned within the passageway. The inner shaft defines a lumen. A balloon has a first end coupled to the outer shaft and a second end coupled to the inner shaft such that material can flow through the lumen and into the balloon and exit the balloon through a channel between the inner and outer shafts. A valve is positioned within the channel. The valve is configured to move from a closed orientation in which the valve blocks the channel and an open orientation in which the does not block the channel. Kits, systems and methods are disclosed.

One aspect relates to a device to produce a bone cement paste from a monomer liquid and a cement powder as starting components of the bone cement paste, and to dispense the mixed bone cement paste. The device includes a cartridge with a cylindrical interior, a dispensing plunger movable towards the front of the cartridge; a receptacle extending along a longitudinal direction, a front of the receptacle connected with the rear of the cartridge; a pumping plunger arranged and in the receptacle movable towards the front of the receptacle; a breakable ampoule containing the monomer liquid, the ampoule with ampoule body arranged in the receptacle between the pumping plunger and the dispensing plunger with at least some sections of the ampoule body in contact with the receptacle; and a spacer arranged in the receptacle between the dispensing plunger and the ampoule body, the spacer extending in the longitudinal direction of the receptacle and the spacer being separated from the inner wall of the receptacle by a distance at least as large as the wall thickness of the ampoule body.

Systems and methods for stabilizing a bone structure of a patient. A stylet and a delivery tube is directed through an access cannula to form a curved path to a target site. The stylet is withdrawn with a distal portion of the flexible delivery tube maintaining a curved configuration along the curved path. The curable material including a plurality of elements disposed in a fluent material is directed through the flexible delivery tube with a distal portion of the flexible delivery tube maintaining the curved configuration against forces from the elements and the fluent material. A delivery cannula may be directed through the flexible delivery tube. An expandable member may deployed at the target site to create a cavity. A steerable assembly may be selectively activate to form the curved path. The plurality of elements may substantially follow a curved path created within the bone structure.

A vacuum mixing system for the mixing of polymethylmethacrylate bone cement comprising at least one cartridge (4) having an evacuatable internal space (5) for the mixing of the bone cement, the internal space (5) of which comprises a cylindrical swept volume, a mixing element (12) that is arranged in the internal space (5) of the cartridge (4) such as to be mobile and can be operated from outside the vacuum mixing system in order to mix the content in the internal space (5) of the cartridge (4), and a dispensing plunger (2) having a cylindrical external circumference whose first base surface borders a base surface of the internal space (5) of the cartridge (4) and which can be or is locked to the cartridge (4) in detachable manner and which, in the detached state, is mobile in the cylindrical region of the internal space (5) of the cartridge (4).