Wedge shaped fracture fixation devices and methods for using the same

What is claimed is: 1. A trimodal implant device comprising a body having a length extending between a proximal end and a distal point, being tapered along the length from the proximal end to the distal point, and defining a longitudinal axis, the body including: three faces extending along the length from the proximal end to the distal point; a plurality of cut-outs, each of the cut-outs extending through one of the three faces, each of the cut-outs further having a perimeter that tapers along the length between a proximal arcuate shape adjacent to the proximal end and a distal arcuate shape adjacent to the distal point, the proximal arcuate shape having a larger radius than the distal arcuate shape; a plurality of columnar elements separating each of the three faces from one another, each of the columnar elements having an exterior surface, having an interior surface opposite the exterior surface and opposing one of the cut-outs, and spanning from at least the proximal arcuate shape to the distal arcuate shape; and at least one thread originating at the distal point and spiraling around the body along the length thereof, wherein the tapering perimeter of each of the cut-outs extends through the respective face such that the respective cut-out terminates at an interior surface of the body, wherein the interior surface of at least a first columnar element of the plurality of the columnar elements includes adjacent walls defining a respective interior edge, and wherein a plane bisects the first columnar element and the respective cut-out opposing the interior surface of the first columnar element through the respective interior edge. 2. The device of claim 1 , wherein the proximal end is open to a void space. 3. The device of claim 1 , wherein the device includes a cross-sectional shape, at least at the proximal end, that is generally triangular. 4. The device of claim 1 , wherein the thread extends from the distal point along at least a threaded portion of the exterior surface. 5. The device of claim 4 , wherein the threaded portion extends to the proximal end, wherein a height of the thread at the distal point is greater than a height of the thread at the proximal end such that a line drawn through peaks of the thread along the length of the device is not parallel to a line drawn along the exterior surface of the device. 6. The device of claim 1 , wherein the device is configured for use with a K-wire, plate or pin. 7. A fracture fixation kit comprising: the device of claim 1 ; and a K-wire, plate or pin. 8. The kit of claim 7 , further comprising a set of instructions for how to use the device in a procedure. 9. A trimodal implant device comprising a body having a length extending between a proximal end and a distal point, the body including: an exterior surface that defines a first face, a second face and a third face tapering uniformly and continuously along the length from the proximal end to the distal point, each of the first, second and third faces being separated from one another by a rounded edge of a plurality of rounded edges, an external thread that originates at the distal point and continues along at least a threaded portion of the exterior surface; and an internal surface that is offset from the external surface by a thickness, the internal surface defining a hollow void space inside of the body that extends along a portion of the length between a distal-most portion adjacent to the distal point and a proximal-most portion adjacent to the proximal end, wherein the device includes a cross-sectional shape, at least at the proximal end, that is generally triangular, wherein each face has a cut-out offset from each rounded edge to define a proximal arcuate shape adjacent to the proximal end and a distal arcuate shape adjacent to the distal point, the proximal arcuate shape having a larger radius than the distal arcuate shape, wherein each cut-out is in communication with the hollow void space and opposes a respective interior surface of a respective rounded edge of the plurality of the rounded edges, wherein a cross-sectional shape of the hollow void space along a length of the body extending between a proximal end of the distal arcuate shape of the cut-out to a distal end of the cut-out differs from a cross-sectional shape of the hollow void space along a length of the body extending from the proximal end of the distal arcuate shape of the cut-out to a distal end of the proximal arcuate shape, wherein the interior surface of at least a first rounded edge of the plurality of the rounded edges includes adjacent walls defining a respective interior edge, wherein a plane bisects the interior surface of the first rounded edge and the respective cut-out opposing the interior surface of the first rounded edge through the respective interior edge, and wherein the thickness of the body is configured to sustain a separating force that is sufficient to maintain reduction of a reduced bone fracture. 10. The device of claim 9 , wherein the proximal end of the body has an opening engageable with a positioning tool adapted to position the body in a reduced bone fracture. 11. The device of claim 10 , wherein the opening is in communication with the hollow void space to define an internal passageway that extends through the proximal end of the body, and wherein the internal passageway is sized to receive the positioning tool. 12. The device of claim 9 , wherein the device is configured for use with a K-wire, plate or pin. 13. A trimodal implant device comprising: a body having a length between a proximal end and a distal point, the body comprising: an exterior surface offset from an interior surface to define a shell with three generally triangular faces, each face being separated from the other faces by a respective rounded edge of a plurality of rounded edges and tapering uniformly and continuously along the length to the distal point so as to surround an internal void of the body; an external thread that originates at the distal point and continues along a threaded portion of the body; and a plurality of spaced-apart cut-outs, each of the cut-outs opposing a respective interior surface of a respective rounded edge of the plurality of the rounded edges and having a tapering perimeter that extends through the shell at each of the three triangular faces, each of the cut-outs further interrupting the external thread of the threaded portion, being in communication with the internal void of the body, and defining a proximal arcuate shape adjacent to the proximal end and a distal arcuate shape adjacent to the distal point, wherein the distal point and each rounded edge are dimensioned to wedge the body into a reduced bone fracture, wherein the shell is configured to sustain a separating force that is sufficient to maintain reduction of the reduced bone fracture, wherein the tapering perimeter of each of the cut-outs extends through the shell such that the respective cut-out terminates at the interior surface of the body, wherein the interior surface of at least a first rounded edge of the plurality of the rounded edges includes adjacent walls defining a respective interior edge, and wherein a plane bisects the interior surface of the first rounded edge and the respective cut-out opposing the interior surface of the first rounded edge through the respective interior edge. 14. The device of claim 13 , wherein the tapering perimeter of each cut-out tapers between a proximal semi-circle offset from the proximal end and a distal semi-circle offset from the distal point, the proximal semi-circle having a larger radius than