Systems and methods for steering guidewires

We claim: 1. A system for steering a guidewire comprising: a continuous length of an elongate hollow body comprising: a first joint portion defined by a first set of asymmetric recesses formed in the elongate hollow body; a recess-free portion defined by an enclosed length of the elongate hollow body; slots disposed within the recess-free portion of the elongate hollow body; and a second joint portion defined by a second set of asymmetric recesses formed in the elongate hollow body; wherein the first set of asymmetric recesses is offset from the second set of asymmetric recesses by from 1 to 180 degrees; a tendon system comprising tendons operably connected to the first joint portion and the second joint portion; a routing wedge disposed within the elongate hollow body spatially separating the tendons from one another; and a control unit operably connected to the tendon system; wherein the control unit is configured to actuate the tendon system to cause the first joint portion to bend in a manner providing a first degree of freedom of movement; wherein the control unit is further configured to actuate the tendon system to cause the second joint portion to bend in a manner providing a second degree of freedom of movement different from the first degree of freedom of movement; wherein the routing wedge comprises wedge portions receivable through the slots; and wherein the received wedge portions define a central channel and outer channels. 2. The system of claim 1 , wherein: the tendon system comprises: a first tendon disposed within the elongate hollow body and operably connected to the first joint portion; a second tendon disposed within the elongate hollow body and operably connected to the first joint portion; a third tendon disposed within the elongate hollow body and operably connected to the second joint portion; and a fourth tendon disposed within the elongate hollow body and operably connected to the second joint portion; a depth of the first set of asymmetric recesses and the second set of asymmetric recesses is greater than 50% of a width of the elongate hollow body; the system is a robotically actuated system; the control unit is configured to actuate the first tendon and the second tendon to cause the first joint portion to bend in the manner providing the first degree of freedom of movement; and the control unit is further configured to actuate the third tendon and fourth tendon to cause the second joint portion to bend in the manner providing the second degree of freedom of movement. 3. The system of claim 1 , wherein the elongate hollow body has a width from about 0.1 mm to about 0.9 mm; and wherein the first set of asymmetric recesses is orthogonal to the second set of asymmetric recesses. 4. The system of claim 1 , wherein the continuous length of the elongate hollow body comprises a continuous tubular body having an annular wall extending the length of the elongate hollow body; and wherein the tendons are disposed within the tubular body, outside the annular wall. 5. The system of claim 1 , wherein each of the tendons comprises a superelastic wire. 6. The system of claim 1 , wherein each asymmetric recess of the first and second sets of asymmetric recesses has a shape selected from a group consisting of rectangular, triangular, and sinusoidal. 7. The system of claim 1 , wherein the control unit comprises a guidewire actuation assembly and a guidewire roller mechanism; wherein the guidewire actuation assembly comprises motors for advancing, retracting, and rotating the guidewire through the guidewire roller mechanism. 8. The system of claim 7 , wherein the guidewire roller mechanism comprises a first roller and a second roller; wherein the guidewire roller mechanism is operably coupled to a first motor; wherein a portion of the guidewire is disposed between the first and second rollers; wherein the control unit further comprises: a groove path for storing the guidewire; and a shaft operably coupled to an elastic coupling; wherein the shaft is operable by a second motor and configured to unspool the guidewire from the groove path to the guidewire roller mechanism. 9. A guidewire tip for steering a guidewire comprising: a hollow elongated body including: a first joint comprising a first plurality of asymmetric recesses; and a second joint comprising a second plurality of asymmetric recesses; wherein the first joint and the second joint are co-located; wherein the first plurality of asymmetric recesses is offset from the second plurality of asymmetric recesses by from 40 to 130 degrees; a first tendon, a second tendon, a third tendon, and a fourth tendon disposed within the hollow elongated body; a routing wedge disposed within the hollow elongated body spatially separating the tendons from one another; slots disposed within a recess-free portion of the hollow elongated body; and wherein the first tendon and the second tendon are operably connected to the first joint, and the third tendon and the fourth tendon are operably connected to the second joint; wherein the guidewire tip has a width; wherein a depth of each asymmetric recess of the first and second pluralities of asymmetric recesses is greater than 50% of the width of the guidewire tip; wherein the routing wedge comprises wedge portions receivable through the slots; and wherein the received wedge portions define a central channel and outer channels. 10. The guidewire tip of claim 9 , wherein the hollow elongated body comprises a first end and an opposing second end; wherein the first joint and the second joint are separated by a first length; and wherein the first joint is separated from the second end by a second length. 11. The guidewire tip of claim 9 , wherein the width of the guidewire tip is about 0.1 mm to about 0.9 mm. 12. The guidewire tip of claim 9 , wherein the hollow elongated body comprises an internal wall; wherein the first tendon and the second tendon are disposed on a first set of opposing sides of the internal wall; and wherein the third tendon and the fourth tendon are disposed on a second set of opposing sides of the internal wall different from the first set of opposing sides. 13. The guidewire tip of claim 9 , wherein the first tendon and the second tendon are attached to a distal end of the first joint; and wherein the third tendon and the fourth tendon are attached to a distal end of the second joint. 14. The guidewire tip of claim 9 , wherein the width of the guidewire tip is about 0.1 mm to about 0.9 mm; wherein each of the tendons comprise a superelastic wire; wherein the hollow elongated body comprises an internal wall; wherein the first tendon and the second tendon are disposed on a first set of opposing sides of the internal wall; wherein the third tendon and the fourth tendon are disposed on a second set of opposing sides of the internal wall different from the first set of opposing sides; wherein the first tendon and the second tendon are attached to a distal end of the first joint; wherein the third tendon and the fourth tendon are attached to a distal end of the second joint; and wherein the first and second pluralities of asymmetric recesses comprise grooves defined by substantially perpendicular walls. 15. The guidewire tip of claim 14 , wherein the guidewire tip comprises biocompatible material. 16. The guidewire tip of claim 14 , wherein the guidewire tip comprises nitinol. 17. The guidewire tip of claim 14 , wherein the first plurality of asymmetric recesses is orthogonal to the