Internal brace plate

The invention claimed is: 1 . A fracture fixation system comprising: an elongated bone plate including a proximal end and a distal end, the proximal end defining a first hole; a beam including a peg extending along a peg axis and a screw extending along a screw axis, the beam having a first end and a second end; and a support pin including a first end and a second end, wherein, in an implanted configuration of the fracture fixation system, the peg axis is parallel to the screw axis such that the beam defines a figure-8 shape in a plane perpendicular to the peg and screw axes and the first end of the beam is engaged with the first hole of the bone plate, and wherein, in the implanted configuration, the first end of the support pin is engaged with a second hole of the bone plate that is located distally of the first hole in the bone plate, and the second end of the support pin is engaged with the second end of the beam, such that the second end of the support pin is disposed in an oblong recess in a side of the peg facing the distal end of the plate, wherein the support pin includes a tip at the second end thereof configured to engage with the recess of the peg, the tip including a shoulder of a diameter smaller than a diameter of a shank of the support pin, and wherein the recess includes a lip adapted to engage the shoulder of the peg adjacent the tip of the support pin. 2 . The fracture fixation system of claim 1 , wherein the second hole is located within a proximal-most two thirds of a length of the bone plate as measured between the proximal and distal ends of the bone plate. 3 . The fracture fixation system of claim 1 , wherein the peg has a head at the first end of the beam, the head defining a figure-8 shape in a plane perpendicular to the peg axis. 4 . The fracture fixation system of claim 3 , wherein the head of the peg is comprised of a first half of the figure-8 shape defining a first opening coaxial with the peg axis, and a second half of the figure-8 shape defining a second opening. 5 . The fracture fixation system of claim 4 , wherein the peg defines a lumen extending from the first opening through an entire length of the peg. 6 . The fracture fixation system of claim 4 , wherein the second opening of the second half of the figure-8 shape is internally threaded. 7 . The fracture fixation system of claim 4 , wherein the second half of the figure-8 shape is monolithically connected with the first half at a first side thereof, and defines an open gap at a second side thereof opposite the first side. 8 . The fracture fixation system of claim 7 , wherein the first hole of the plate has an outer ledge, and the head of the peg is configured to flex at the gap such that in the implanted configuration the head mates with the first hole past the outer ledge with a snap fit. 9 . The fracture fixation system of claim 1 , wherein a shaft of the peg connected to a head of the peg has a generally cylindrical outer surface intersected by a groove that is parallel to the peg axis. 10 . The fracture fixation system of claim 9 , wherein in the implanted configuration a portion of the screw is disposed within the groove of the shaft of the peg. 11 . The fracture fixation system of claim 1 , wherein the beam extends at an angle of 93 to 97 degrees with respect to the plate axis. 12 . The fracture fixation system of claim 1 , wherein the support pin is a blade. 13 . A method of assembling a fracture fixation system, the method comprising: inserting a peg of a beam through a first hole at a proximal end of an elongated bone plate; inserting a screw of the beam through the first hole of the bone plate, wherein a peg axis along which the peg extends is parallel to a screw axis along which the screw extends such that the beam defines a figure-8 shape in a plane perpendicular to the peg and screw axes; engaging a first end of a support pin into a second hole located distally of the first hole in the bone plate; and engaging a second end of the support pin with the beam, such that the second end of the support pin is disposed in an oblong recess in a side of the peg facing the distal end of the plate, wherein the support pin includes a tip at the second end thereof engaged with the recess of the peg, the tip including a shoulder of a diameter smaller than a diameter of a shank of the support pin, and wherein the recess includes a lip engaged with the shoulder of the peg adjacent the tip of the support pin. 14 . The method of claim 13 , wherein: the step of inserting the peg includes inserting a head of the peg into the first hole, the head defining a figure-8 shape in a plane perpendicular to the peg axis; and the step of inserting the screw includes inserting the screw through an opening in the head of the peg. 15 . The method of claim 13 , wherein the step of inserting the screw includes threading a head of the screw into the opening in the head of the peg. 16 . The method of claim 14 , wherein the step of inserting the peg includes snapping the head of the peg into the first hole. 17 . A fracture fixation system comprising: an elongated bone plate including a proximal end and a distal end, the proximal end defining a first hole; a beam including a peg extending along a peg axis and a screw extending along a screw axis, the beam having a first end and a second end; and a support pin including a first end and a second end, wherein, in the implanted configuration, the first end of the support pin is engaged with a second hole of the bone plate that is located distally of the first hole in the bone plate, and the second end of the support pin is engaged with the second end of the beam, wherein, in an implanted configuration of the fracture fixation system, the peg axis is parallel to the screw axis such that the beam defines a figure-8 shape in a plane perpendicular to the peg and screw axes and the first end of the beam is engaged with the first hole of the bone plate, wherein the head of the peg is comprised of a first half of the figure-8 shape defining a first opening coaxial with the peg axis, and a second half of the figure-8 shape defining a second opening, and wherein: the second opening of the second half of the figure-8 shape is internally threaded, or the second half of the figure-8 shape is monolithically connected with the first half at a first side thereof, and defines an open gap at a second side thereof opposite the first side.