Iris-style crimpers for medical devices

What is claimed is: 1. A clamshell crimper for altering an implantable medical device from an uncompressed state to a compressed state, the crimper comprising: a top shell comprising a top cam, a top crimper element housing, and a first plurality of crimper elements, the first plurality of crimper elements defining a top channel; a base shell comprising a base cam, a base crimper element housing, and a second plurality of crimper elements, the second plurality of crimper elements defining a bottom channel, wherein: the top shell and the base shell are coupled at a pivot connection, the top shell is configured to rotate about the pivot connection relative to the base shell from an open state to a closed state, when in the open state, the bottom channel is exposed for loading the implantable medical device, and when in the closed state, the top channel and the bottom channel define a crimper chamber; a handle configured to operate the clamshell crimper and coupled to at least the top cam of the top shell; when in the closed state, movement of the handle rotates the top cam and the base cam thereby displacing the first plurality of crimper elements and the second plurality of crimper elements, and the displacement of the first plurality of crimper elements and the second plurality of crimper elements decreases a volume of the crimper chamber to transition the implantable medical device from the uncompressed state to the compressed state. 2. The clamshell crimper of claim 1 , wherein the handle comprises: a handle bar; and a handle base coupled to the handle bar and configured to couple to at least one of the top cam or the base cam. 3. The clamshell crimper of claim 1 , further comprising one or more stops configured to limit the movement of the handle. 4. The clamshell crimper of claim 1 , wherein the first plurality of crimper elements is movably coupled within the top crimper element housing and the base crimper element housing. 5. The clamshell crimper of claim 4 , wherein one of the top crimper element housing or the base crimper element housing comprises: a side plate comprising an interior surface and an exterior surface, wherein: one or more crimper channels are formed within the interior surface of the side plate, and the one or more crimper channels are configured to allow the displacement of the first plurality of crimper elements or the second plurality of crimper elements. 6. The clamshell crimper of claim 1 , wherein the top shell further comprises a first locking mechanism, wherein the first locking mechanism prevents movement of the handle to enable movement of the top shell from the closed state to the open state. 7. The clamshell crimper of claim 6 , wherein at least one of the top shell or the base shell further comprises a second locking mechanism, wherein the second locking mechanism locks the top shell and the base shell into the closed state. 8. The clamshell crimper of claim 1 , wherein a crimper element from the first plurality of crimper elements or the second plurality of crimper elements comprises: a crimper lobe, wherein a surface of the crimper lobe forms a portion of the crimper chamber, a crimper body coupled to the crimper lobe, and at least one pin coupled to the crimper body, wherein the at least one pin is configured to moveably couple the crimper element to one of the top cam or the base cam. 9. The clamshell crimper of claim 8 , wherein the crimper lobe comprises a crimper space defined by one or more ramps, and wherein at least one of the one or more ramps contacts an adjacent crimper lobe from an adjacent crimper element from the first plurality of crimper elements or the second plurality of crimper elements. 10. The clamshell crimper of claim 9 , wherein at least one of the top cam or the base cam comprises: at least one pin channel formed within a surface of the top cam or the base cam, wherein the pin channel is configured to receive the at least one pin of the crimper element. 11. The clamshell crimper of claim 10 , wherein the at least one pin channel comprises a plurality of pin channels formed in a spiral pattern. 12. A clamshell crimper for altering an implantable medical device from an uncompressed state to a compressed state, the crimper comprising: a top iris shell comprising a first plurality of crimper elements that define a top iris channel; a base iris shell coupled to the top iris shell at a pivot connection, the base iris shell comprising a second plurality of crimper elements that define a base iris channel, wherein: the top iris shell is configured to rotate about the pivot connection relative to the base shell from an open state to a closed state, when in the open state, the base iris channel is exposed for loading the implantable medical device, and when in the closed state, the top iris channel and the base iris channel define a crimper chamber; and a handle configured to operate the clamshell crimper, wherein actuation of the handle decreases a volume of the crimper chamber to transition the implantable medical device from the uncompressed state to the compressed state. 13. The clamshell crimper of claim 12 , wherein the first plurality of crimper elements is movably coupled within the top iris shell and the second plurality of crimper elements is movably coupled within the base iris shell. 14. The clamshell crimper of claim 12 , further comprising one or more stops configured to limit movement of the handle. 15. The clamshell crimper of claim 12 , wherein the top iris shell further comprises a first locking mechanism, wherein the first locking mechanism prevents movement of the handle to enable movement of the top iris shell from the closed state to the open state. 16. The clamshell crimper of claim 15 , wherein at least one of the top iris shell or the base iris shell further comprises a second locking mechanism, wherein the second locking mechanism locks the top iris shell and the base iris shell into the closed state. 17. The clamshell crimper of claim 12 , wherein a crimper element from the first plurality of crimper elements or the second plurality of crimper elements comprises: a crimper lobe, wherein a surface of the crimper lobe forms a portion of the crimper chamber, a crimper body coupled to the crimper lobe, and at least one pin coupled to the crimper body, wherein the at least one pin is configured to moveably couple the crimper element to one of at least one cam of the top iris shell or the base iris shell. 18. The clamshell crimper of claim 17 , wherein the crimper lobe comprises a crimper space defined by one or more ramps, and wherein at least one of the one or more ramps contacts an adjacent crimper lobe from an adjacent crimper element from the first plurality of crimper elements or the second plurality of crimper elements. 19. The clamshell crimper of claim 17 , wherein the at least one cam comprises: at least one pin channel formed within a surface of the at least one cam, wherein the at least one pin channel is configured to receive the at least one pin of the crimper element. 20. The clamshell crimper of claim 19 , wherein the at least one pin channel comprises a plurality of pin channels formed in a spiral pattern.