Internal pelvic fixator

The invention claimed is: 1. A method, comprising: driving a first bone screw into a first side of a pelvic bone at a first depth; driving a second bone screw into a second side of the pelvic bone at a second depth; coupling a first clamp to the first bone screw, the first clamp being selectively rotatable about a first axis of the first bone screw, at least a portion of the first clamp being rotatable about a first clamp segment axis that is non-parallel to the first axis; coupling a second clamp to the second bone screw, the second clamp being selectively rotatable about a second axis of the second bone screw, at least a portion of the second clamp being rotatable about a second clamp segment axis that is non-parallel to the second axis; inserting a first end of an implant rod into a first bore of the first clamp; inserting a second end of the implant rod into a second bore of the second clamp; exerting a force to decrease a distance between at least the first and second clamps from a first distance to a second distance; and tightening, with the first and second clamps separated by the second distance, the first and second clamps, the first and second bores of the tightened first and second clamps exerting a compressive force on the implant rod that maintains a relative position of at least the implant rod and the first and second clamps; positioning a first guide about a first guide wire and against the first side of the pelvic bone; positioning a second guide about a second guide wire and against the second side of the pelvic bone; identifying, from indicia on the first guide, an offset position for at least one of the following away from the first side of the pelvic bone: a) the first clamp, b) the implant rod, and c) a template rod; and identifying, from indicia on the second guide, an offset position for at least one of the following away from the second side of the pelvic bone: a) the second clamp, b) the implant rod, and c) the template rod. 2. The method of claim 1 , further comprising: inserting a first guide against the first side of the pelvic bone; inserting a second guide against the second side of the pelvic bone; driving a first guide wire through the first guide and into the first side of the pelvic bone; driving a second guide wire through the second guide and into the second side of the pelvic bone; determining the first depth based on a depth the first guide wire has been driven into the first side of the pelvic bone; and determining the second depth based on a depth the second guide wire has been driven into the second side of the pelvic bone. 3. The method of claim 2 , wherein the steps of determining the first and second depth comprises at least one of: a) reading a depth marker on an outer side of the first and second guide wires, and b) detecting a location of the first and second guide wires in the pelvic bone via fluoroscopy. 4. The method of claim 2 , further comprising: placing a first rod offset tool about at least a portion of the first guide; adjusting a lateral position of the first rod offset tool about the first guide; determining a first relative location of the first offset tool about the first guide, the first relative location corresponding to a distance a portion of the implant rod will be positioned away from an adjacent surface of the first side of the pelvic bone; placing a second rod offset tool about at least a portion of the second guide; adjusting a lateral position of the second rod offset tool about the second guide; and determining a second relative location of the second offset tool about the second guide, the second relative location corresponding to a distance a portion of the implant rod will be offset away from an adjacent surface of the second side of the pelvic bone. 5. The method of claim 4 , further comprising: inserting a portion of a template rod into a first channel of the first rod offset tool; inserting a portion of the template rod into a second channel of the second rod offset tool; and selecting, based on a distance at least a portion of the template rod extends from at least one of the first and second rod offset tools, a length for the implant rod. 6. The method of claim 1 , wherein the step of driving the first bone screw about the first depth into the first side of the pelvic bone comprises: driving the first bone screw via operation of a driver; and identifying, by indicia on the driver, the offset position of at least one of the following from the first side of the pelvis bone: a) the first clamp, b) the implant rod, and c) the template rod. 7. The method of claim 1 , wherein the step of tightening the first and second clamps includes coupling a first nut of the first clamp to a first joystick and a second nut of a second joystick, the first and second joysticks each having an engagement member that is configured to be removably coupled to an adjacent one of the first and second nuts in a manner that translates a rotational force from the engagement member to the first or second nut, and further wherein the first and second joystick are configured to be coupled to the adjacent first and second bone screw in a manner that prevents rotation of the adjacent first and second bone screw during tightening of the of the adjacent one of the first and second nut. 8. The method of claim 7 , wherein the step of exerting a force to decrease a distance between at least the first and second clamps includes: coupling the first joystick to a first pivotal coupler of a reduction holder mechanism; coupling the second joystick to a second pivotal coupler of the reduction holder mechanism, the first and second pivotal couplers being pivotally coupled to opposing ends of a strut mechanism of the reduction holder mechanism; and reducing an axial length of the strut mechanism. 9. The method of claim 8 , wherein the step of reducing the axial length of the strut mechanism includes adjusting an adjustable threaded connection between a first member and a second member of the strut body. 10. The method of claim 8 , wherein the step of exerting a force to decease a distance between at least the first and second clamps further includes locking a locking mechanism of the strut mechanism, the locking mechanism structured, when locked, to maintain an axial length of at least the strut mechanism. 11. A method, comprising: driving a first bone screw into a first side of a pelvic bone at a first depth; driving a second bone screw into a second side of the pelvic bone at a second depth; coupling a first clamp to the first bone screw, the first clamp being selectively rotatable about a first axis of the first bone screw, at least a portion of the first clamp being rotatable about a first clamp segment axis that is non-parallel to the first axis; coupling a second clamp to the second bone screw, the second clamp being selectively rotatable about a second axis of the second bone screw, at least a portion of the second clamp being rotatable about a second clamp segment axis that is non-parallel to the second axis; inserting a first end of an implant rod into a first bore of the first clamp; inserting a second end of the implant rod into a second bore of the second clamp; exerting a force to decrease a distance between at least the first and second clamps from a first distance to a second distance; and tightening, with the first and second clamps separated by the second distance, the first and second clamps, the first and second bores of the tightened first and second clamps exerting a compressive force on the implant rod that maintains a relative position of at least the implant rod and the first and second clamp