Medical device rotation assemblies and methods of using the same

We claim: 1. A medical device, comprising: a sheath; a tool within the sheath and movable relative to the sheath; and a handle including a rotation assembly configured to rotate the tool relative to the sheath in response to rotation of the rotation assembly relative to a portion of the handle; wherein: the rotation assembly rotates the tool relative to the sheath at predefined angular intervals and inhibits movement at each of the predefined angular intervals; the rotation assembly includes a shaft having a plurality of ridges that circumferentially alternate with a plurality of recesses; the handle includes a plurality of arms extending radially inward into a lumen of the handle; each of the plurality of arms is configured to engage the plurality of ridges and the plurality of recesses; the rotation assembly inhibits rotational movement between the rotation assembly and the portion of the handle, when a first arm of the plurality of arms is positioned in a first recess of the plurality of recesses; and each of the plurality of arms is offset from each of another plurality of arms. 2. The medical device of claim 1 , wherein the rotation assembly maintains the tool in the at least one of the predefined angular intervals to fix the tool relative to the sheath. 3. The medical device of claim 2 , wherein the rotation assembly releases the tool from the at least one of the predefined angular intervals in response to predetermined rotational force applied to the rotation assembly. 4. The medical device of claim 1 , wherein the rotation assembly generates at least one of a tactile, audible, or visual feedback as the rotation assembly rotates between the predefined angular intervals. 5. The medical device of claim 1 , wherein, while the first arm is positioned in the first recess, application of a rotational force onto the rotation assembly relative to the portion of the handle causes the first arm to exit the first recess, and causes the first arm to be positioned in a second recess of the plurality of recesses circumferentially adjacent to the first recess. 6. A medical device comprising: a handle including a rotation assembly that is movable relative to a remainder of the handle; a sheath extending from the handle; and a tool within the sheath and movable relative to the sheath; wherein: the rotation assembly rotates the tool to a plurality of predefined angular positions relative to the sheath in response to rotation of the rotation assembly relative to at least a portion of the handle, and the rotation assembly provides at least one of a tactile feedback or audible feedback to a user as the rotation assembly rotates from one of the plurality of predefined angular positions to another of the plurality of predefined angular positions; the rotation assembly includes a distally-facing flange, wherein a protrusion extends distally from the distally-facing flange; the handle includes a proximally-facing flange having a plurality of circumferentially spaced apart recesses or apertures; and the protrusion is configured to be received by each of the plurality of recesses or apertures, such that when the protrusion is received by one of the plurality of recesses or apertures, rotational movement between a rotating member and the at least a portion of the handle is inhibited. 7. The medical device of claim 6 , wherein: the rotation assembly maintains the tool in the at least one of the predefined angular positions to fix the tool relative to the sheath; and the rotation assembly releases the tool from the at least one of the predefined angular positions in response to predetermined rotational force applied to the rotation assembly. 8. The medical device of claim 6 , wherein the rotation assembly generates at least one of a tactile, audible, or visual feedback as the rotation assembly rotates between the predefined angular positions. 9. The medical device of claim 6 , further including a deformable member disposed proximally of the distally-facing flange, wherein: the deformable member biases the distally-facing flange toward the proximally-facing flange; and while the protrusion is positioned in a first recess or first aperture of the plurality of recesses or apertures, application of a rotational force to the rotation assembly relative to the portion of the handle causes the deformable member to compress, causes the protrusion to exit the first recess or first aperture, and causes the protrusion to be positioned in a second recess or second aperture of the plurality of recesses or apertures circumferentially adjacent to the first recess or first aperture. 10. The medical device of claim 6 , wherein: the protrusion includes a compressible portion; and while the protrusion is positioned in a first recess or first aperture of the plurality of recesses or apertures, application of a rotational force to the rotation assembly relative to the portion of the handle causes the protrusion to compress and exit the first recess or first aperture, and causes the protrusion to be positioned in a second recess or second aperture of the plurality of recesses or apertures circumferentially adjacent to the first recess or first aperture. 11. A medical device, comprising: a sheath; a tool within the sheath and movable relative to the sheath; and a handle including a rotation assembly configured to rotate the tool relative to the sheath in response to rotation of the rotation assembly relative to a portion of the handle; wherein: the rotation assembly rotates the tool relative to the sheath at predefined angular intervals and inhibits movement at each of the predefined angular intervals; the rotation assembly includes a distally-facing flange, wherein a protrusion extends distally from the distally-facing flange; the handle includes a proximally-facing flange having a plurality of circumferentially spaced apart recesses or apertures; and the protrusion is configured to be received by each of the plurality of recesses or apertures, such that when the protrusion is received by one of the plurality of recesses or apertures, rotational movement between a rotating member and the portion of the handle is inhibited. 12. The medical device of claim 11 , wherein the rotation assembly maintains the tool in the at least one of the predefined angular intervals to fix the tool relative to the sheath. 13. The medical device of claim 12 , wherein the rotation assembly releases the tool from the at least one of the predefined angular intervals in response to predetermined rotational force applied to the rotation assembly. 14. The medical device of claim 11 , further including a deformable member disposed proximally of the distally-facing flange, wherein: the deformable member biases the distally-facing flange toward the proximally-facing flange; and while the protrusion is positioned in a first recess or first aperture of the plurality of recesses or apertures, application of a rotational force to the rotation assembly relative to the portion of the handle causes the deformable member to compress, causes the protrusion to exit the first recess or first aperture, and causes the protrusion to be positioned in a second recess or second aperture of the plurality of recesses or apertures circumferentially adjacent to the first recess or first aperture. 15. The medical device of claim 11 , wherein the rotation assembly generates at least one of a tactile, audible, or visual feedback as the rotation assembly rotates between a plurality of predefined angular positions. 16. The medical device of claim 11 ,