Molding apparatus, method and syringe produced using same

What is claimed is: 1. A molding assembly for molding a syringe with a needle embedded therein, the assembly, comprising: a first mold portion comprising a top plate and a plug member extending downward from a bottom surface thereof; a second mold portion comprising a molding block, an end plate, and a needle holding block configured to hold the needle; wherein, the assembly moves between an opened position in which the first mold portion is displaced from the second mold portion, and a closed position in which the molding block and the end plate define a molding cavity configured to form a body portion of the syringe, and the first mold portion contacts the second mold portion to hold the needle holding block adjacent to the molding cavity, such that the needle is partially positioned within the molding cavity. 2. The molding assembly of claim 1 , wherein the first mold portion is located above the second mold portion. 3. The molding assembly of claim 1 , wherein the plug member drives the needle holding block towards the end plate when the assembly is moved into the closed position. 4. The molding assembly of claim 1 , wherein the molding block and the end plate define a plurality of molding cavities. 5. The molding assembly of claim 1 , wherein the molding cavity has a substantially cylindrical shape. 6. The molding assembly of claim 1 , wherein the molding block defines a cylindrical syringe barrel body portion of the molding cavity, and the end plate defines a syringe barrel hub portion of the molding cavity. 7. The molding assembly of claim 1 , wherein a sleeve is fitted within the molding cavity. 8. The molding assembly of claim 7 , wherein the sleeve comprises a plurality of cooling channels. 9. The molding assembly of claim 1 , further comprising an inner core that fits within the molding cavity to define an interior of the body portion of the syringe. 10. The molding assembly of claim 9 , wherein the inner core is located within the molding cavity when the assembly is in the closed position and outside of the molding cavity when the assembly is in the opened position. 11. The molding assembly of claim 9 , wherein the inner core projects from a core plate that moves towards the assembly when the assembly moves into the closed position, and away from the assembly when the assembly moves into the opened position. 12. The molding assembly of claim 1 , further comprising an injector for injecting a molding material into the molding cavity during a molding operation. 13. The molding assembly of claim 12 , wherein the injector extends through the molding block, to the molding cavity. 14. The molding assembly of claim 9 , wherein the needle contacts the core when the assembly is in the closed position. 15. The molding assembly of claim 14 , wherein the needle comprises a first, staked end for injecting into a patient, and a second end that comes into abutment with an end of the core when the assembly is in the closed position. 16. The molding assembly of claim 1 , wherein the needle holding block comprises a needle grip, the needle grip having a needle grip opening configured to slidably house the needle and axially aligned with the molding cavity to position the needle at a closed end of the body portion of the syringe. 17. The molding assembly of claim 16 , further comprising a vacuum channel in communication with the needle grip opening. 18. The molding assembly of claim 17 , wherein the vacuum channel extends through the needle holding block. 19. The molding assembly of claim 17 , wherein the vacuum channel applies a vacuum to the needle grip opening during molding to slidably secure the needle within the needle grip opening. 20. A method of molding a syringe using the molding assembly of claim 1 , comprising: providing the molding assembly in the opened position; moving the molding assembly into the closed position by moving the first mold portion into contact with the second mold portion and locating a portion of the needle within the molding cavity; injecting a molding material into the molding cavity; cooling the molding material to solidify the molding material and produce a syringe body with the needle embedded therein; moving the molding assembly into the opened position; and removing the syringe body from the molding assembly. 21. The method of claim 20 , wherein moving the molding assembly to the closed position further comprises moving an inner core into the molding cavity to define an interior portion of the syringe body. 22. The method of claim 21 , further comprising positioning the needle in abutment with the core when the assembly is in the closed position. 23. The method of claim 22 , wherein the needle comprises a first end having a staked tip and a second end, the second end being in abutment with an end of the core when the assembly is in the closed position. 24. The method of claim 20 , wherein the needle holding block comprises a needle grip having an opening and a vacuum channel, the method further comprising slidably holding the needle within the opening by application of a vacuum through the vacuum channel. 25. A syringe produced using the molding assembly of claim 1 , the syringe comprising: a barrel formed as a substantially tubular wall having a first, opened end leading to an interior and a second, closed end; a hub extending outward from the second end; and a needle extending through the hub, the needle having a first, staked end for injecting into a patient, and a second end located on the interior and flush with an inner surface of the barrel. 26. The molding assembly of claim 1 , wherein the molding block and the end plate define a continuous, barrel-shaped molding cavity. 27. The molding assembly of claim 1 , wherein the needle holding block comprises a needle grip. 28. A molding assembly for molding a syringe with a needle embedded therein, the assembly, comprising: a first mold portion; a second mold portion comprising a molding block, an end plate, and a needle holding block configured to hold the needle; wherein, the assembly moves between an opened position in which the first mold portion is displaced from the second mold portion, and a closed position in which the molding block and the end plate define a molding cavity configured to form a body portion of the syringe, and the first mold portion contacts the second mold portion to hold the needle holding block adjacent to the molding cavity, such that the needle is partially positioned within the molding cavity; and wherein the second mold portion comprises a plurality of sides, each side comprising a molding block, an end plate, and a needle holding block configured to hold the needle, wherein the assembly moves between an opened position in which the first mold portion is displaced from the second mold portion, and a closed position in which the molding block and the end plate of each side define a molding cavity configured to form a body portion of the syringe, and the first mold portion contacts the second mold portion to hold the needle holding blocks adjacent to the molding cavities, such that the needles are partially positioned within the molding cavities. 29. The molding assembly of claim 28 , wherein the second mold portion comprises two sides that are arranged in a linear alignment with each other and extend outward fro