Manual mixer

I claim: 1. A manual mixer for mixing and agitating materials for use during surgery, the manual mixer comprising: a body portion having a sidewall portion defining an interior area; a mixing assembly provided in the interior area of the body portion, the mixing assembly including a plunger portion and a resilient member, the plunger portion interfacing with the sidewall portion, and the plunger portion including a portion for securely engaging the resilient member, the resilient member including a first end portion, a second end portion, and a length extending between the first end portion and the second end portion thereof, the resilient member having a non-uniform cross section along the length, the plunger portion being adapted to move upwardly and downwardly within the interior area; a cap portion attached to the body portion, the cap portion enclosing the interior area of the body portion, and the cap portion including an aperture that is at least partially threaded; and a stem portion extending through the partially-threaded aperture in the cap portion, the stem portion being interconnected with the plunger portion, and the stem portion being at least partially threaded, wherein threads of the partially-threaded stem portion and threads of the partially-threaded aperture engage one another, and wherein rotation of the stem portion simultaneously rotates the plunger portion and the resilient member, and moves the plunger portion upwardly or downwardly within the interior area, the rotational movement of the plunger portion and the resilient member, and upward and downward movement of the plunger portion serving to mix and agitate the materials provided in the interior area, the resilient member being expanded when the plunger portion is moved upwardly, and the resilient member being compressed when the plunger portion is moved downwardly. 2. The manual mixer of claim 1 , further comprising a crank assembly, the crank assembly including the stem portion, a crank portion, and a handle portion, the crank portion being connected to the stem portion, and the handle portion being connected to the crank portion, wherein rotation of the crank portion and the handle portion imparts rotational movement to the stem portion. 3. The manual mixer of claim 1 , wherein the resilient member has a maximum diameter and a minimum diameter, the maximum diameter being greater than the minimum diameter, the resilient member, when fully compressed, having a substantially smaller height than a spring having a uniform diameter equal to the maximum diameter. 4. The manual mixer of claim 1 , further comprising a valve assembly, wherein the body portion includes an outlet port communicating with the valve assembly, the valve assembly including a plug movable between an open position permitting fluid communication through the valve assembly between the outlet port and the exterior of the manual mixer, and a closed position prohibiting fluid communication through the valve assembly between the outlet port and the exterior of the manual mixer. 5. The manual mixer of claim 4 , wherein downward movement of the plunger portion compresses the materials provided in the interior area, and, when the plug of the valve assembly is in the open position, the compression of the materials via downward movement of the plunger portion forces the materials to exit the manual mixer through the outlet port and the valve assembly. 6. The manual mixer of claim 5 , wherein the plunger portion includes an air release valve allowing the passage of air thereby during compression of the materials in the interior area. 7. The manual mixer of claim 1 , wherein the materials mixed and agitated by the manual mixer include bone cement. 8. The manual mixer of claim 1 , wherein the resilient member is at least in part one of conical, hourglass shaped along at least a portion of the length of the resilient member. 9. A method of mixing and agitating materials using a manual mixer, the method comprising: providing the manual mixer having a body portion, a mixing assembly, and a stem portion, the body portion defining an interior area, the mixing assembly being provided in the interior area, and the stem portion being interconnected with a portion of the mixing assembly; removing the mixing assembly from the interior area; providing the materials to be mixed and agitated in the interior area; replacing the mixing assembly in the interior area; and rotating the stem portion to simultaneously rotate a plunger portion and a resilient member of the mixing assembly, and move the plunger portion upwardly or downwardly within the interior area, the rotation of the plunger portion and the resilient member, and upwards and/or downwards movement of the plunger portion serving to mix and agitate the materials provided in the interior area, the plunger portion being moveable between a first position and a second position, the first position being a maximum upward position of the plunger portion, and the second position being a maximum downward position of the plunger portion, the resilient member being expanded when the plunger portion is moved upwardly within the interior area toward the first position, and the resilient member being compressed when the plunger portion is moved downwardly within the interior area toward the second position. 10. The method of claim 9 , wherein the resilient member is a variable-diameter spring having a maximum diameter and a minimum diameter, the maximum diameter being greater than the minimum diameter, the variable-diameter spring, when fully compressed, having a substantially smaller height than a spring having a uniform diameter equal to the maximum diameter. 11. The method of claim 9 , wherein the manual mixer includes a valve assembly, and the body portion includes an outlet port communicating with the valve assembly, the valve assembly including a plug movable between an open position permitting fluid communication through the valve assembly between the outlet port and the exterior of the manual mixer, and a closed position prohibiting fluid communication through the valve assembly between the outlet port and the exterior of the manual mixer. 12. The method of claim 11 , wherein downward movement of the plunger portion compresses the materials provided in the interior area, and, when the plug of the valve assembly is in the open position, the compression of the materials via downward movement of the plunger portion forces the materials to exit the manual mixer through the outlet port and the valve assembly. 13. The method of claim 12 , wherein the plunger portion includes an air release valve allowing the passage of air thereby during compression of the materials in the interior area. 14. The manual mixer of claim 9 , wherein the materials mixed and agitated by the manual mixer include bone cement. 15. The method of claim 9 , wherein the resilient member is at least in part one of conical, hourglass shaped along at least a portion of the length of the resilient member.