Patent Number: 
Section: claims

1. An apparatus suited to transport radiopharmaceuticals, comprising:a radiopharmaceutical pig with two halves each defining a respective cavity and being secured together so that the respective cavities together form a closed chamber, each of the two halves including a respective lead shield each with a surface; andencapsulating material arranged to encapsulate and seal the surface of at least one of the two lead shields to define a portion of the closed chamber by bounding same, the closed chamber being configured to accommodate a radiopharmaceutical syringe; andat least one housing within the closed chamber, the housing being formed of a non-puncture resistant material that is configured to give way to puncturing in response to driving of a tip of an attached needle of the radiopharmaceutical syringe under manual forces into the housing, the housing being elongated and configured to be open at one end and closed at an opposite end to define a space to accommodate insertion of the attached needle of the radiopharmaceutical syringe through the one end that is open so that a tip of the needle remains clear of the opposite end that is closed when flanges of the radiopharmaceutical syringe are held in position between the lead shields. 2. An apparatus of claim 1, wherein the closed chamber is configured to accommodate the radiopharmaceutical syringe with an attached needle, further comprising a radiopharmaceutical syringe with the attached needle being within confines of the closed chamber. 3. An apparatus of claim 1, further comprising at least one housing within the closed chamber, the housing being configured to accommodate insertion of a lower portion of the radiopharmaceutical syringe with attached needle through a mouth of the housing and into confines of the housing. 4. An apparatus of claim 1, wherein the encapsulating material encapsulates with securing material selected from a group consisting of ultrasonic weld material, heat seal material, adhering material, and laminating material. 5. An apparatus of claim 1, wherein the encapsulating material is secured in position to encapsulate the lead shields with mechanical fit components selected from a group consisting of screw locks, clamps, snap rings, pressure fit components and mechanical fasteners. 6. An apparatus of claim 1, wherein the radiopharmaceutical pig includes respective casings, each of the casings being secured to an outer facing surface of a respective one of the lead shields. 7. An apparatus of claim 6, wherein at least one of the casings and the encapsulating material are secured to each other with securing material selected from a group consisting of ultrasonic weld material, heat seal material, adhering material, and laminating material. 8. An apparatus of claim 6, wherein at least one of the casings and the encapsulating material are secured to each other with at least one mechanical fit component selected from a group consisting of screw locks, clamps, snap rings, pressure fit components and mechanical fasteners. 9. An apparatus of claim 1, wherein one of the two lead shields has an outwardly extending flange with a further surface that is clear of the closed chamber, the encapsulating material being arranged to encapsulate the further surface. 10. An apparatus of claim 1, wherein the two lead shields are elongated and each have edges that face each other, the edges being configured to overlap and engage each other to prevent radiation leakage. 11. An apparatus of claim 1, wherein the at least one lead shield has an outer facing surface that is likewise encapsulated by the encapsulating material and contiguous with the encapsulating material that encapsulates the surface that defines and bounds the portion of the closed chamber. 12. A method of assembly of an apparatus suited to transport pharmaceuticals, comprising:encapsulating and sealing a surface of at least one lead shield of two halves of a radiopharmaceutical pig with encapsulating material, each of the halves defining a respective cavity; andbringing together the two halves of the radiopharmaceutical pig so that the respective cavities together form a closed chamber, the encapsulating material defining a portion of the closed chamber by bounding same, the closed chamber being configured to accommodate a radiopharmaceutical syringe; andarranging a housing within one of the two halves of the radiopharmaceutical pig and then carrying out the bringing of the two halves together so that the housing is within the closed chamber, the housing being formed of a non-puncture resistant material that is configured to give way to puncturing in response to a tip of an attached needle of the radiopharmaceutical syringe under manual forces being pressed against the housing, the housing being elongated and configured to be open at one end and closed at an opposite end to define a space to accommodate insertion of at least the attached needle of the radiopharmaceutical syringe through the one end that is open so that a tip of the needle remains clear of the opposite end that is closed when flanges of the radiopharmaceutical syringe are held in position between the lead shields. 13. A method of claim 12, wherein the closed chamber is configured to accommodate the radiopharmaceutical syringe with an attached needle, further comprising inserting the radiopharmaceutical syringe with attached needle into the cavity of one of the halves of the radiopharmaceutical pig before bringing the two halves together to form the closed chamber, the radiopharmaceutical syringe with attached needle being within the closed chamber after the two halves of the radiopharmaceutical pig are brought together. 14. A method of claim 12, comprising:encapsulating an outer facing surface of the at least one lead shield with a casing; andsecurely attaching the encapsulating material and the casing to each other with a material selected from a group consisting of an ultrasonic weld seal, a heat seal, an adhering material, and a laminating material. 15. A method of claim 12, further comprising encapsulating an outer facing surface of the at least one lead shield with a casing; andsecurely attaching the encapsulating material and the respective casings to each other with at least one mechanical fit component selected from a group consisting of screw locks, clamps, snap rings, pressure fit components and mechanical fasteners. 16. A method of claim 12, wherein one of the lead shields has an outwardly extending flange with a further surface that is clear of the closed chamber, further comprising encapsulating the further surface with the encapsulating material. 17. A method of claim 12, further comprising carrying out the step of bringing the two halves of the radiopharmaceutical pig together while a housing is present in one of the two halves so that the housing is within the closed chamber after the two halves are brought together. 18. A method of claim 17, further comprising inserting the radiopharmaceutical syringe with an attached needle within confines of the housing prior to bringing the two halves of the radiopharmaceutical pig together. 19. An method of claim 12, further comprising encapsulating an outer facing surface of the at least one lead shield by the encapsulating material to be contiguous with the encapsulating material that encapsulates the surface that defines and bounds the portion of the closed chamber.