IMD having a core circuitry support structure

We claim: 1. A medical device comprising: a hybrid circuitry assembly comprising a printed circuit board (PCB) having a first surface and a second, parallel surface; and a core circuitry support structure, comprising: a frame defining a cavity configured to receive at least a portion of the hybrid circuitry assembly, at least one retaining clip configured to engage a peripheral edge of the second surface of the PCB to facilitate holding the PCB in place in a direction perpendicular to a longitudinal axis of the medical device; wherein an outer surface of the frame is shaped to correspond to an inside surface of a core assembly housing configured to enclose the hybrid circuitry assembly and the core circuitry support structure. 2. The medical device of claim 1 , the frame comprising: a first end wall; a second, opposite end wall; and a pair of parallel, opposed side walls, wherein the first end wall, second end wall, and side walls define the cavity. 3. The medical device of claim 2 , the frame comprising at least one alignment feature, the at least one alignment feature configured to facilitate alignment of the hybrid circuitry assembly with the core circuitry support structure. 4. The medical device of claim 3 , the PCB comprising at least one alignment notch, wherein the at least one alignment notch is configured to receive the at least one alignment feature. 5. The medical device of claim 4 , the at least one alignment feature comprising: a first alignment feature having a first shape and a first size; and a second alignment feature having a second shape and a second size, wherein: the second shape is different than the first shape, and/or the second size is different than the first size. 6. The medical device of claim 2 , the hybrid circuitry assembly further comprising: a first set of additional circuitry components coupled to the first side of the PCB; and a second set of additional circuitry components coupled to the second side of the PCB. 7. The medical device of claim 6 , wherein the core circuitry support structure comprises a panel coupled to the first end wall, second end wall and side walls, wherein the first end wall, second end wall, and side walls define the cavity. 8. The medical device of claim 6 , further comprising a cover configured to be disposed over the second set of additional circuitry components, the cover comprising an outer surface shaped to correspond to the inner surface of the core assembly housing. 9. The medical device of claim 1 , the core circuitry support structure comprising a shelf extending at least partially around a perimeter of the core circuitry support structure, wherein the shelf is configured to engage a peripheral edge of the first surface of the PCB. 10. The medical device of claim 2 , the panel comprising a recess defined in an outside surface of the panel, the recess configured to receive an X-ray identification tag. 11. A medical device comprising: a header having a first end and a second end; a feed-through assembly coupled to the second end of the header; and a core assembly coupled, at a first end, to the feed-through assembly, the core assembly comprising: a core assembly housing enclosing an interior space; a core circuitry assembly disposed in the interior space, the core circuitry assembly comprising: a hybrid circuitry assembly; and a core circuitry support structure, comprising: a frame defining a cavity that is configured to receive at least a portion of the hybrid circuitry assembly; and at least one shelf defined in an end wall of the frame, wherein the end wall is configured to engage an end of the hybrid circuitry assembly and the shelf is configured to engage a peripheral edge of a first surface of the hybrid circuitry assembly. 12. The medical device of claim 11 , the hybrid circuitry assembly comprising a printed circuit board (PCB) having a first surface and a second, parallel surface, wherein the core circuitry support structure includes at least one alignment feature, the at least one alignment feature configured to facilitate alignment of the hybrid circuitry assembly with the core circuitry support structure. 13. The medical device of claim 12 , the PCB comprising at least one alignment notch, wherein the at least one alignment notch is configured to receive the at least one alignment feature. 14. The medical device of claim 12 , the at least one alignment feature comprising: a first alignment feature having a first shape and a first size; and a second alignment feature having a second shape and a second size, wherein: the second shape is different than the first shape and/or the second size is different than the first size. 15. The medical device of claim 12 , the hybrid circuitry assembly further comprising: a first set of additional circuitry components coupled to the first side of the PCB; and a second set of additional circuitry components coupled to the second side of the PCB. 16. The medical device of claim 15 , the frame comprising: a first end wall; a second, opposite end wall; and a pair of parallel, opposed side walls, wherein the first end wall, second end wall, and side walls define the cavity. 17. The medical device of claim 16 , the panel comprising a recess defined in an outside surface of the panel, the recess configured to receive an X-ray identification tag. 18. The medical device of claim 15 , further comprising a cover configured to be disposed over the second set of additional circuitry components, the cover comprising an outer surface shaped to correspond to the inner surface of the core assembly housing. 19. A method of manufacturing a medical device, comprising: providing a hybrid circuitry assembly; forming a core circuitry support structure, comprising at least one retaining clip configured to engage a peripheral edge of the second surface of the PCB to facilitate holding the PCB in place in a direction perpendicular to a longitudinal axis of the medical device; coupling the hybrid circuitry assembly to the core circuitry support structure to form a core circuitry assembly; positioning a first portion and a second portion of a core assembly housing around the core circuitry assembly; and welding the first and second portions together.