Active drives for robotic catheter manipulators

What is claimed is: 1 . A method, comprising: (a) rotating a cam shaft in a first rotational direction; (b) closing a first jaw assembly by engaging a first cam of the cam shaft with a first bearing surface of a cam follower element; (c) when the first jaw assembly is closed, translating the first jaw assembly in a first axial direction by engaging a second cam of the cam shaft with a first groove of the cam follower element; (d) opening the first jaw assembly by engaging the first cam with a second bearing surface of the cam follower element; and (e) when the first jaw assembly is opened, translating the first jaw assembly in a second axial direction opposite the first axial direction by engaging a third cam of the cam shaft with a second groove of the cam follower element, wherein the act of closing the first jaw assembly causes the first jaw assembly to grip an elongate member, wherein the act of translating the first jaw assembly in the first axial direction causes the elongate member to translate in the first axial direction. 2 . The method of claim 1 , wherein the act of translating the first jaw assembly in the first axial direction includes translating the first jaw assembly in the first axial direction from a reference position, wherein the act of translating the first jaw assembly in the second axial direction includes translating the first jaw assembly in the second axial direction back to the reference position. 3 . The method of claim 2 , further comprising cyclically repeating the acts of translating the first jaw assembly in the first and second axial directions. 4 . The method of claim 1 , further comprising: (a) rotating the cam shaft in a second rotational direction opposite the first rotational direction; (b) closing the first jaw assembly; (c) when the first jaw assembly is closed, translating the first jaw assembly in the second axial direction; (d) opening the first jaw assembly; and (e) when the first jaw assembly is opened, translating the first jaw assembly in the first axial direction. 5 . The method of claim 1 , wherein the first cam is linear. 6 . The method of claim 1 , wherein at least one of the second or third cams is helical. 7 . The method of claim 1 , further comprising: (a) closing a second jaw assembly; (b) when the second jaw assembly is closed, translating the second jaw assembly in the first axial direction; (c) opening the second jaw assembly; and (d) when the second jaw assembly is opened, translating the second jaw assembly in the second axial direction. 8 . The method of claim 7 , wherein the act of closing the second jaw assembly causes the second jaw assembly to grip the elongate member. 9 . The method of claim 8 , wherein the act of translating the second jaw assembly in the first axial direction causes the elongate member to translate in the first axial direction. 10 . The method of claim 9 , wherein the acts of translating the first and second jaw assemblies in the first axial direction are performed sequentially to cause the elongate member to continuously translate in the first axial direction. 11 . The method of claim 7 , wherein the act of translating the first jaw assembly in the first axial direction is performed while the second jaw assembly is opened, wherein the act of translating the second jaw assembly in the first axial direction is performed while the first jaw assembly is opened. 12 . A method, comprising: (a) rotating a cam shaft; (b) closing a first jaw assembly by engaging a linear cam of a first set of cams of the cam shaft with a first bearing surface of a first cam follower element; (c) when the first jaw assembly is closed, translating the first jaw assembly in a first axial direction by engaging a first helical cam of the first set of cams with a first groove of the first cam follower element; (d) opening the first jaw assembly; (e) when the first jaw assembly is opened, translating the first jaw assembly in a second axial direction opposite the first axial direction by engaging a second helical cam of the first set of cams with a second groove of the first cam follower element; (f) closing a second jaw assembly by engaging a linear cam of a second set of cams of the cam shaft with a first bearing surface of a second cam follower element; (g) when the second jaw assembly is closed, translating the second jaw assembly in the first axial direction by engaging a first helical cam of the second set of cams with a first groove of the second cam follower element; (h) opening the second jaw assembly; and (i) when the second jaw assembly is opened, translating the second jaw assembly in the second axial direction by engaging a second helical cam of the second set of cams with a second groove of the second cam follower element. 13 . The method of claim 12 , wherein the act of opening the first jaw assembly is performed by engaging the linear cam of the first set of cams with a second bearing surface of the first cam follower element, wherein the act of opening the second jaw assembly is performed by engaging the linear cam of the second set of cams with a second bearing surface of the second cam follower element. 14 . The method of claim 12 , wherein the act of closing the first jaw assembly causes the first jaw assembly to grip an elongate member, wherein the act of closing the second jaw assembly causes the second jaw assembly to grip the elongate member. 15 . The method of claim 14 , wherein the act of translating the first jaw assembly in the first axial direction causes the elongate member to translate in the first axial direction, wherein the act of translating the second jaw assembly in the first axial direction causes the elongate member to translate in the first axial direction. 16 . The method of claim 15 , wherein the acts of translating the first and second jaw assemblies in the first axial direction are performed sequentially to cause the elongate member to continuously translate in the first axial direction. 17 . The method of claim 12 , further comprising: (a) closing a third jaw assembly by engaging a linear cam of a third set of cams of the cam shaft with a first bearing surface of a third cam follower element; (b) when the third jaw assembly is closed, translating the third jaw assembly in the first axial direction by engaging a first helical cam of the third set of cams with a first groove of the third cam follower element; (c) opening the third jaw assembly; and (d) when the third jaw assembly is opened, translating the third jaw assembly in the second axial direction by engaging a second helical cam of the third set of cams with a second groove of the third cam follower element. 18 . The method of claim 17 , wherein the first, second, and third sets of cams are clocked one hundred twenty degrees from each other about the cam shaft. 19 . A method, comprising: (a) rotating a cam shaft; (b) closing a jaw assembly by cammingly engaging a first portion of the cam shaft with a first portion of a cam follower element; (c) when the jaw assembly is closed, translating the jaw assembly in a first axial direction by cammingly engaging a second portion of the cam shaft with a second portion of the cam follower element; (d) opening the jaw assembly by cammingly engaging the first portion of the cam shaft with a third portion of the cam follower element; and (e) when the jaw assembly is opened, translating the jaw assembly in a second axial direction opposite the first axial direction by camm