An apparatus and method for introducing portals into bone is described herein. An example apparatus for introducing portals into bone includes a handle, a base, and a driving member. The driving member can be made to project past the base by operating the handle. The base is detachable from the handle. The apparatus also includes a guide coupled at a first end to the handle and at a second end to the base. The base is detachably coupled to the guide. A base coupling detachably coupling the base to the guide includes an actuating member movable between a coupled configuration wherein the base is coupled to the guide and an uncoupled configuration wherein the base is released from the guide. The actuating member is arranged so that motion of the handle toward the base moves the actuating member from the coupled configuration to the uncoupled configuration.

A medical device may include a shaft extending between a proximal end and a distal end. The shaft may include a lumen therein. The medical device may include a handle coupled to the proximal end of the shaft and may include a mode selector. The mode selector may be adapted to transition between a first mode and a second mode of the medical device. The medical device may further include a compressed fluid source. In the first mode, the compressed fluid source may be fluidly coupled with the shaft so as to impart a negative pressure in at least a portion of the lumen. In the second mode, the compressed fluid source may be fluidly coupled with the shaft so as to impart a positive pressure in the at least a portion of the lumen.

A syringe includes a sleeve and a pressure vessel with high pressure fluid therein. The sleeve further comprises a sleeve piston. As the high pressure vessel contacts the sleeve piston, and a bump on the sleeve piston destroys the airtight status of the high pressure vessel. While the seal of the high pressure vessel is removed, the compressed fluid flows into the sleeve through the opening of the high pressure vessel and the hole of the sleeve piston. When the closed end of the sleeve moves closer to the closed end of the sleeve piston, the fluid in the sleeve is pressed and flows out of the sleeve through the sleeve hole of the sleeve.

A bleeding control device for mitigating bleeding includes a housing, inflation means, an inflatable balloon and a gas supply line. The bleeding control device may be used to deliver variable contents to a wound at the site of injury to control the bleeding of a victim as temporary solution for mitigating the bleeding until more advanced medical care can be provided. A bleeding control device includes a canister housing, a compressed gas canister arranged within the canister housing, a tube connected to the canister housing, an inflatable balloon disposed on the tube, the inflatable balloon being fluidly connected to the compressed gas canister, and a control element configured to activate the compressed gas canister to inflate the inflatable balloon.

The present invention provides systems, methods and devices for delivering media. The device can include a body designed to accommodate at least one cannister of a media, an body coupled to the body and having a distal end, and a tapered tip disposed at the distal end of the body and in fluid communication with the cannister, the tip being designed for advancing the distal end to a site of interest and through which media from the cannister can be directed to the site of interest. The device can also include a dispersion mechanism coupled to the body for controlled release of the media out the tapered tip.

Canisters are provided that include a cylindrical body and a cap welded to the body to define a cavity filled with carbon dioxide or other fluid. The canisters may be loaded into a medical device, e.g., to provide an energy source for operating the device. Methods for making such canisters are also provided.

A device for delivering an agent includes a valve assembly including a cavity for storing the agent and an agitation mechanism movably disposed inside the cavity. An inlet conduit fluidly coupled to a fluid source and the valve assembly. An outlet conduit fluidly coupled to the valve assembly, wherein the inlet and outlet conduit are each in fluid communication with the cavity. The agitation mechanism is configured to agitate the agent within the cavity in response to the agitation mechanism moving inside the cavity. The valve assembly is configured to urge the agitation mechanism to move inside the cavity in response to receiving a fluid from the fluid source via the inlet conduit, combine the fluid with the agent within the cavity in response to the agitation mechanism moving inside the cavity, and deliver a combination of the agent and the fluid out of the cavity through the outlet conduit.

A bleeding control device for mitigating bleeding includes a housing, inflation means, an inflatable balloon and a gas supply line. The bleeding control device may be used to deliver variable contents to a wound at the site of injury to control the bleeding of a victim as temporary solution for mitigating the bleeding until more advanced medical care can be provided. A bleeding control device includes a canister housing, a compressed gas canister arranged within the canister housing, a tube connected to the canister housing, an inflatable balloon disposed on the tube, the inflatable balloon being fluidly connected to the compressed gas canister, and a control element configured to activate the compressed gas canister to inflate the inflatable balloon.