Shape adaptable intramedullary fixation device

What is claimed is: 1. A medical apparatus for bone fixation, the apparatus comprising: a flexible body defining a main axis, the flexible body having a proximal end and a distal end, the flexible body comprising: a plurality of individual segments having a mechanical engagement structure for interlocking the individual segments together; a plurality of apertures in each of the individual segments, the apertures arranged to generally form a plurality of lumens in the flexible body; wherein the individual segments are configured to move relative to each other in a first plane and a second plane, and wherein the first plane and the second plane are orthogonal relative to the main axis; a torque transmission engagement feature positioned substantially on the proximal end; a bone engagement feature positioned substantially on the distal end; and a plurality of fibers that extend through the lumens such that the flexible body is locked when the fibers are fixed into position relative to each other. 2. The medical apparatus of claim 1 , wherein when the flexible body is locked, the individual segments are held together in a fixed relationship. 3. The medical apparatus of claim 1 , wherein the fibers are mechanically fixed at the distal end. 4. The medical apparatus of claim 1 , wherein a placement of the fibers within the apertures of the individual segments support shear loading between the individual segments. 5. The medical apparatus of claim 1 , wherein each of the individual segments comprises a first end and a second end, the first end having a male type mechanical engagement structure and the second end having a female type receptacle configured to receive a male type shaped mechanical engagement structure. 6. The medical apparatus of claim 5 , wherein the male type mechanical engagement structure operates as a fulcrum. 7. The medical apparatus of claim 5 , wherein the male type mechanical engagement structure and the female type receptacle are configured to transfer torque between the individual segments. 8. The medical apparatus of claim 5 , wherein the male type mechanical engagement structure and the female type receptacle of at least two of the individual segments are of different sizes. 9. The medical apparatus of claim 5 , wherein the male type mechanical engagement structure and the female type receptacle are configured to prevent the individual segments from separating when a tensile force is applied between the proximal and distal ends. 10. The medical apparatus of claim 1 , wherein at least two of the fibers are of different lengths. 11. The medical apparatus of claim 1 , wherein at least two of the individual segments are of different sizes, shapes, masses, or lengths. 12. The medical apparatus of claim 1 , wherein the fibers are configured to move relative to each other at the proximal end when the device is in a flexible state, and further wherein the fibers are configured to be mechanically fixed into position relative to each other at the proximal end when the device is in a rigid state. 13. The medical apparatus of claim 12 , wherein the fibers are configured to be mechanically fixed into position at the proximal end of the device with an end cap when the device is in a rigid state. 14. The medical apparatus of claim 1 , wherein a first of the individual segments is configured to move relative to a second of the individual segments in the first plane and the second plane, and wherein the first of the individual segments is immediately adjacent the second of the individual segments. 15. A medical apparatus for fixation of fractured bone, the apparatus comprising: an elongate body having a proximal end and a distal end, the elongate body comprising: a flexible body portion comprising a plurality of interconnected segments, wherein at least one of the interconnected segments comprises a plurality of apertures that are spaced apart from each other; a torque transmission engagement feature positioned at the proximal end configured to screw the apparatus into the bone; a bone engagement feature positioned at the distal end configured to retain the elongate body within the bone; a plurality of fibers disposed longitudinally within the elongate body circumferentially spaced in relation to one another, wherein respective fibers of the plurality of fibers pass through different apertures of the plurality of apertures. 16. The medical apparatus of claim 15 , wherein at least one of the interconnected segments comprises a first engagement portion for pivotally engaging with at least one end of an adjacent interconnected segment. 17. The medical apparatus of claim 15 , wherein: a first engagement portion comprises a protrusion extending axially from a first end of at least one of the interconnected segments; and a second end of at least one of the interconnected segments comprises a recessed portion configured to receive the protrusion therein. 18. The medical apparatus of claim 17 , wherein the protrusion and the recessed portion of each one of the interconnected segments are radially spaced approximately ninety degrees from each other. 19. The medical apparatus of claim 17 , wherein the first engagement portion comprises two individual tabs and the recessed portion comprises two apertures. 20. The medical apparatus of claim 19 , wherein the interconnected segments comprise an outer cylindrical surface, and further wherein at least one side of the two individual tabs coincides with the outer cylindrical surface. 21. The medical apparatus of claim 17 , wherein: the bone engagement feature comprises an end recessed portion configured to receive the first engagement portion of one of the interconnected segments; and the torque transmission engagement feature comprises an end protrusion configured to be received by the recessed portion of one of the interconnected segments. 22. The medical apparatus of claim 15 , wherein the plurality of apertures comprises: a first aperture located at a center of the at least one interconnected segment, wherein the first aperture is configured to receive a guidewire for inserting the flexible body portion at a desired location within the fractured bone; and a second plurality of apertures circumferentially spaced around the first aperture, wherein the respective fibers of the plurality of fibers pass through different apertures of the second plurality of apertures.