Braking mechanisms for steerable medical devices and related methods

We claim: 1. A steering system for a medical device, the steering system comprising: a first drive member having a central longitudinal axis; a central shaft extending through the first drive member; a control knob coupled to the first drive member; a braking knob coupled to the central shaft and including a first protrusion; and a brake shoe member coupled to the central shaft between the control knob and the braking knob, wherein the first protrusion is positioned within a first channel of the brake shoe member; wherein the first protrusion is configured to engage the brake shoe member to move a first arm of the brake shoe member radially outward, relative to the central longitudinal axis, towards a wall of the control knob when the braking knob is rotated in a first direction; wherein the first arm is configured to move away from the wall of the control knob when the braking knob is rotated in a second direction opposite the first direction; wherein the brake shoe includes: a central portion including a lumen configured to receive the central shaft; a first protrusion extending radially-outward, relative to the central longitudinal axis, from the central portion; a second protrusion extending radially-outward, relative to the central longitudinal axis, from the central portion; the first arm extending outward from the first protrusion, wherein the first arm is curved towards the central shaft and includes a first expanded end and a first recess; a second arm extending outward from the second protrusion, wherein the second arm is curved towards the central shaft and includes a second expanded end and a second recess; a first spring beam extending from the first arm and extending at least partially within the first recess; and a second spring beam extending from the second arm and extending at least partially within the second recess. 2. The steering system of claim 1 , further comprising a dual-stop member coupled to the central shaft and positioned between the brake shoe member and the control knob. 3. The steering system of claim 2 , wherein the dual-stop member is configured to limit rotation of the control knob and the braking knob. 4. The steering system of claim 2 , wherein the dual-stop member is coupled to the brake shoe member via at least one pin. 5. The steering system of claim 1 , wherein the control knob includes a recess, and wherein the recess receives the brake shoe member and the first protrusion. 6. The steering system of claim 1 , wherein the braking knob includes a second protrusion, and wherein the first recess is configured to receive the first protrusion and the second recess is configured to receive the second protrusion. 7. The steering system of claim 1 , wherein the first expanded end includes a rough surface, grooves, and/or teeth configured to engage the wall; and the second expanded end includes a rough surface, grooves, and/or teeth configured to engage the wall. 8. The steering system of claim 1 , wherein the brake shoe further includes: a first lumen extending through the first expanded end; and a second lumen extending through the second expanded end. 9. The steering system of claim 1 , wherein the first recess extends from the first expanded end to a portion of the first arm spaced from the expanded end. 10. The steering system of claim 1 , wherein the first protrusion is spaced from the central shaft. 11. The steering system of claim 1 , wherein the first arm extends circumferentially around the central longitudinal axis. 12. A steering system for a medical device, the steering system comprising: a first drive member having a central longitudinal axis; a central shaft extending through the first drive member; a control knob coupled to the first drive member; a braking knob coupled to the central shaft and including a first protrusion; and a brake shoe member coupled to the central shaft between the control knob and the braking knob, wherein the first protrusion is positioned within a first channel of the brake shoe member; wherein the first protrusion is configured to engage the brake shoe member to move a first arm of the brake shoe member radially outward, relative to the central longitudinal axis, towards a wall of the control knob when the braking knob is rotated in a first direction; wherein the first arm is configured to move away from the wall of the control knob when the braking knob is rotated in a second direction opposite the first direction; wherein the brake shoe includes: a central portion including a lumen configured to receive the central shaft; a first protrusion extending radially-outward, relative to the central longitudinal axis, from the central portion; a second protrusion extending radially-outward, relative to the central longitudinal axis, from the central portion; the first arm extending outward from the first protrusion, wherein the first arm is curved towards the central shaft and includes a first expanded end and a first recess; a second arm extending outward from the second protrusion, wherein the second arm is curved towards the central shaft and includes a second expanded end and a second recess; a first lumen extending through the first expanded end; and a second lumen extending through the second expanded end. 13. The steering system of claim 12 , further comprising a dual-stop member coupled to the central shaft and positioned between the brake shoe member and the control knob. 14. The steering system of claim 13 , wherein the dual-stop member is configured to limit rotation of the control knob and the braking knob. 15. The steering system of claim 13 , wherein the dual-stop member is coupled to the brake shoe member via at least one pin. 16. The steering system of claim 12 , wherein the control knob includes a recess, and wherein the recess receives the brake shoe member and the first protrusion. 17. The steering system of claim 12 , wherein the braking knob includes a second protrusion, and wherein the first recess is configured to receive the first protrusion and the second recess is configured to receive the second protrusion. 18. The steering system of claim 12 , wherein the first expanded end includes a rough surface, grooves, and/or teeth configured to engage the wall; and the second expanded end includes a rough surface, grooves, and/or teeth configured to engage the wall. 19. The steering system of claim 12 , wherein the first protrusion is spaced from the central shaft. 20. The steering system of claim 12 , wherein the first arm extends circumferentially around the central longitudinal axis.