Clamshell iris-style crimper for medical devices

What is claimed is: 1 . A method for altering an expandable medical device from an uncompressed state to a compressed state, the method comprising: placing a clamshell crimper in an open state, the clamshell crimper comprising a top iris shell and a base iris shell connected by a pivot connection, wherein, when in the open state, a base iris channel of the base iris shell is exposed for loading the expandable medical device, wherein the top iris shell comprises a first portion of a first actuator ring, a first portion of a second actuator ring, and a first plurality of lobes moveably coupled between the first portion of the first actuator ring and the first portion of the second actuator ring, wherein the first plurality of lobes defines the top iris channel; loading the expandable medical device into the base iris channel of the base iris shell; transitioning the crimper from the open state to a closed state, wherein, when in the closed state, a top iris channel of the top iris shell and the base iris channel of the base iris shell define a crimper chamber; and actuating a handle of the clamshell crimper, wherein the actuation of the handle decreases a volume of the crimper chamber to transition the expandable medical device from the uncompressed state to the compressed state. 2 . The method of claim 1 , wherein a second portion of the first actuator ring; a second portion of the second actuator ring; and a second plurality of lobes moveably coupled between the second portion of the first actuator ring and the second portion of the second actuator ring, wherein the second plurality of lobes defines the base iris channel. 3 . The method of claim 2 , wherein, when in an open state, the first portion of the first actuator ring is separated from the second portion of the first actuator ring and the first portion of the second actuator ring is separated from the second portion of the second actuator ring. 4 . The method of claim 1 , wherein the handle is coupled to one or more of the first portion of the first actuator ring, the first portion of the second actuator ring, a second portion of the first actuator ring, and a second portion of the second actuator ring, wherein actuation of the handle causes rotation of the first actuator ring and the second actuator ring thereby causing displacement of the first plurality of lobes and the second plurality of lobes, and wherein the displacement of the first plurality of lobes and the second plurality of lobes causes the decrease in volume of the crimper chamber. 5 . A method for altering an expandable medical device from an uncompressed state to a compressed state, the method comprising: placing a clamshell crimper in an open state, the clamshell crimper comprising a handle, a top shell comprising a first plurality of lobes, and a base shell comprising a second plurality of lobes, the first plurality of lobes defining a top channel and the second plurality of lobes defining a bottom channel, wherein the top shell and the base shell are coupled at a pivot connection, wherein one or more actuator rings are coupled to the handle, the first plurality of lobes, and the second plurality of lobes, wherein, when in the open state, the bottom channel is exposed for loading the expandable medical device; loading the expandable medical device into the bottom channel; transitioning the crimper from the open state to a closed state, wherein, when in the closed state, the top channel and the bottom channel define a crimper chamber; and actuating the handle of the clamshell crimper, wherein the actuation of the handle rotates the one or more actuator rings thereby displacing the first plurality of lobes and the second plurality of lobes, and the displacement of the first plurality of lobes and the second plurality of lobes decreases a volume of the crimper chamber to transition the expandable medical device from the uncompressed state to the compressed state. 6 . The method of claim 5 , wherein the top shell or the base shell comprises a first side and a second side, wherein the first plurality of lobes is movably coupled between the first side and the second side. 7 . The method of claim 6 , wherein one of the first side or the second side comprises: a side plate comprising a front surface and a back surface, wherein: a plurality of first connection channels are formed through the side plate from the front surface and the back surface, and a plurality of second connection channels are formed through the side plate from the front surface and a back surface. 8 . The method of claim 7 , wherein one of the first side or the second side further comprises: a retention member coupled to the side plate; and a portion of the one or more actuator rings configured to be movably positioned within the retention member, the portion of the one or more actuator rings comprising a front surface and a back surface, wherein: a plurality of third connection channels are formed through the portion of the one or more actuator rings from the front surface and the back surface, and when in the open state, the portion of the one or more actuator rings separates from another portion of the one or more actuator rings. 9 . The method of claim 8 , wherein a lobe from the first plurality of lobes or the second plurality of lobes comprises a plurality of connection pins, wherein the first connection pin is positioned within one of the plurality of first connection channels, wherein, for each of the first plurality of lobes, the second connection pin is positioned with one of plurality of second connection channels and one of the plurality of third connection channels, and wherein movement of the handle displaces the portion of the one or more actuator rings thereby causing the displacement of the first plurality of lobes. 10 . The method of claim 6 , wherein one of the first side or the second side comprises: a side plate comprising a front surface and a back surface, wherein: a semi-circular actuator ring channel is formed within the front surface, a plurality of first connection channels are formed through the side plate from the front surface and the back surface, and a plurality of second connection channels are formed through the side plate from the front surface and a back surface within the semi-circular actuator ring channel. 11 . The method of claim 10 , wherein one of the first side or the second side further comprises: a portion of the one or more actuator rings positioned within the semi-circular actuator ring channel, the portion of the actuator ring comprising a front surface and a back surface, wherein: a plurality of third connection channels are formed through the portion of the one or more actuator rings from the front surface and the back surface, and when in the open state, the portion of the one or more actuator rings separates from another portion of the one or more actuator rings. 12 . The method of claim 11 , wherein a lobe from the first plurality of lobes or the second plurality of lobes comprises a plurality of connection pins, wherein the first connection pin is positioned within one of the plurality of first connection channels, wherein, for each of the first plurality of lobes, the second connection pin is positioned with one of plurality of second connection channels and one of the plurality of third connection channels, and wherein movement of the handle displaces the portion of the one or more actuator rings thereby causing the displacement of the first plurality of lobes. 13 . The method of claim 12 , wherein the handle comprises: a first arm and a second ar