Agent delivery device

What is claimed is: 1. A medical device comprising: a housing that includes a holster defining a plurality of enclosures for storing agent in a first form; a force applicator within the housing and adjacent to at least one of the plurality of enclosures; and a drive mechanism for rotating the holster relative to the housing to align each of the plurality of enclosures with the force applicator, and moving the agent outwards from within each of the plurality of enclosures toward the force applicator, wherein the force applicator defines a surface for applying a force to the agent to separate the agent into particles smaller than a size of the first form; wherein the device defines a lumen in fluid communication with the at least one of the plurality of enclosures for receiving the particles from the force applicator upon rotating the holster to align the at least one of the plurality of enclosures with the force applicator and the lumen, and the lumen is configured for receiving a pressurized fluid to propel the particles received from each of the plurality of enclosures through the lumen; and wherein each of the plurality of enclosures is configured to release the agent in the first form towards the force applicator via gravity upon alignment with the lumen. 2. The medical device of claim 1 , wherein the force applicator includes a round gear including a plurality of teeth about a circumference of the round gear. 3. The medical device of claim 1 , wherein the drive mechanism is connected to a trigger outside the housing, and actuation of the trigger causes rotation of the holster relative to the housing to align the plurality of enclosures with the force applicator. 4. The medical device of claim 1 , further comprising a fluid source for providing the pressurized fluid, wherein the fluid source is connected to the lumen via a fluid channel, wherein the fluid channel is connected to a portion of the lumen distal to the force applicator; and wherein the force applicator is pneumatically actuated such that the pressurized fluid released by the fluid source is configured to move the force applicator relative to the at least one of the plurality of enclosures to separate the agent from the first form into the particles. 5. The medical device of claim 4 , wherein the fluid channel includes a valve configured to open or close a flow of pressurized fluid from the fluid source to the lumen. 6. The medical device of claim 5 , wherein the valve is coupled to a trigger, and the trigger is configured to at least open/close the valve. 7. The medical device of claim 1 , further comprising: an electric motor coupled to the force applicator, wherein the electric motor is configured to rotate the force applicator; and a battery electrically connected to the electric motor and a trigger, wherein the trigger is configured to act as an electrical switch that powers the electric motor via the battery. 8. The medical device of claim 7 , wherein actuation of the trigger rotates the force applicator and continuously supplies pressurized fluid to the lumen from a fluid source, until the trigger is released. 9. The medical device of claim 1 , wherein the housing further includes a chamber below the holster, and a channel between the chamber and the lumen so that there is fluid communication between the chamber and the lumen. 10. The medical device of claim 9 , wherein the drive mechanism includes a rotation of the holster so that one of the plurality of enclosures aligns with the chamber, thereby delivering the agent from one of the enclosures to the chamber. 11. The medical device of claim 9 , wherein the force applicator includes a wedge that obtrudes into the chamber, and the wedge is configured to separate the agent in the chamber into particles by cutting through the agent to reduce the size of the agent from the first form into the particles. 12. A medical device comprising: a housing that includes a holster defining a plurality of enclosures for storing agent in a first form; a force applicator within the housing and adjacent to at least one of the plurality of enclosures; a drive mechanism for rotating the holster relative to the housing to align the at least one of the plurality of enclosures with the force applicator, and moving the agent stored therein toward the force applicator, wherein the force applicator is configured for applying a force to the agent to separate the agent into particles smaller than a size of the first form; and a lever coupled to the force applicator, wherein the lever is configured for moving the force applicator to apply the force to the agent, thereby separating the agent into the particles; wherein the device defines a lumen for receiving the particles from the at least one of the plurality of enclosures upon the holster rotating the housing to align the force applicator with the at least one of the plurality of enclosures, wherein each of the plurality of enclosures is configured to release the agent in the first form towards the force applicator via gravity upon alignment with the lumen and the lumen is configured for receiving a pressurized fluid to propel the particles through the lumen. 13. The medical device of claim 12 , wherein the drive mechanism is connected to a trigger outside the housing, and actuation of the trigger operates the drive mechanism. 14. The medical device of claim 12 , further comprising a fluid source for providing the pressurized fluid, wherein the fluid source is connected to the lumen via a fluid channel, and wherein the fluid channel includes a valve configured to open or close a flow of pressurized fluid from the fluid source to the lumen; and wherein the flow of pressurized fluid released from the fluid source is configured to move the force applicator relative to the at least one of the plurality of enclosures to cut the agent from the first form into the particles. 15. The medical device of claim 14 , wherein actuation of the lever actuates a trigger to supply the pressurized fluid to the lumen. 16. A medical device comprising: a housing including a plurality of enclosures and an opening, each of the plurality of enclosures is configured to store an agent in a first form, wherein the plurality of enclosures is configured to rotate relative to the opening to align at least one of the plurality of enclosures with the opening; a force applicator positioned adjacent to the opening; a drive mechanism configured to rotate the plurality of enclosures relative to the opening, and release the agent stored in the at least one of the plurality of enclosures towards the opening upon alignment with the opening, wherein the force applicator is configured to separate the agent stored in the at least one of the plurality of enclosures into particles that are smaller than a size of the first form upon the at least one of the plurality of enclosures releasing the agent towards the opening, wherein each of the plurality of enclosures is configured to release the agent in the first form towards the force applicator via gravity upon alignment with the opening; and a lumen in fluid communication with the at least one of the plurality of enclosures and a pressurized fluid from a fluid source, the lumen is configured to: receive the particles from the at least one of the plurality of enclosures upon rotating the plurality of enclosures and aligning the at least one of the plurality of enclosures with the opening; and propel the particles received from the at least one of the plurality of enclosures through the lumen with the pressurized fluid.