Compressor-distractor for angularly realigning bone portions

The invention claimed is: 1 . A compressor-distractor sized and configured for use across a tarsometatarsal joint, the compressor-distractor comprising: a first engagement arm having a first pin-receiving hole and a third pin-receiving hole for receiving a first pin inserted into a first bone portion that is a metatarsal; a second engagement arm having a second pin-receiving hole for receiving a second pin inserted into a second bone portion that is a cuneiform; and an actuator operatively coupled to the first engagement arm and the second engagement arm, the actuator being configured to move the first and second engagement arms away from each other to move the first bone portion away from the second bone portion across the tarsometatarsal joint and also being configured to move the first and second engagement arms toward each other across the tarsometatarsal joint to move the first bone portion toward the second bone portion, wherein the first pin-receiving hole defines a longitudinal axis that is angled at a fixed non-zero degree angle relative to a longitudinal axis defined by the second pin-receiving hole; and a longitudinal axis defined by the third pin-receiving hole is parallel to the longitudinal axis defined by the second pin-receiving hole such that compressor-distractor is configured to be engaged with the first pin inserted into the metatarsal and the second pin inserted into the cuneiform without moving the metatarsal relative to the cuneiform by advancing the compressor-distractor over the first pin and the second pin with the first pin received in the third pin-receiving hole and the second pin received in the second pin-receiving hole. 2 . The compressor-distractor of claim 1 , wherein the first pin-receiving hole is angled relative to the second pin-receiving hole in a frontal plane. 3 . The compressor-distractor of claim 2 , wherein the first pin-receiving hole is angled relative to the second pin-receiving hole in the frontal plane at an angle within a range from 2 degrees to 20 degrees. 4 . The compressor-distractor of claim 1 , wherein the first pin-receiving hole is angled relative to the second pin-receiving hole in a sagittal plane. 5 . The compressor-distractor of claim 1 , wherein the second engagement arm further comprises a fourth pin-receiving hole; the longitudinal axis defined by the first pin-receiving hole is angled at a fixed non-zero degree angle relative to the longitudinal axis defined by the second pin-receiving hole in a first plane; and the longitudinal axis defined by the first pin-receiving hole is angled at a fixed non-zero degree angle relative to a longitudinal axis defined by the fourth pin-receiving hole in a second plane. 6 . The compressor-distractor of claim 5 , wherein the first plane in a frontal plane and the second plane is a sagittal plane. 7 . The compressor-distractor of claim 6 , wherein the longitudinal axis defined by the first pin-receiving hole is parallel to the longitudinal axis defined by the fourth pin-receiving hole in the frontal plane, and the longitudinal axis defined by the second pin-receiving hole is parallel to the longitudinal axis defined by the third pin-receiving hole in the frontal plane. 8 . The compressor-distractor of claim 1 , wherein the actuator comprises a shaft connected to the first engagement arm and the second engagement arm. 9 . The compressor-distractor of claim 8 , wherein the shaft is threaded and the actuator includes a knob coupled to the shaft. 10 . The compressor-distractor of claim 9 , wherein the actuator further comprises at least one unthreaded shaft extending parallel to the threaded shaft. 11 . The compressor-distractor of claim 1 , wherein: the first engagement arm extends from a distal end to a proximal end; the second engagement arm extends from a distal end to a proximal end; the distal end of the first engagement arm defines a first pin block having a thickness greater than a remainder of the first engagement arm; and the distal end of the second engagement arm defines a second pin block having a thickness greater than a remainder of the second engagement arm. 12 . The compressor-distractor of claim 11 , wherein the proximal end of the first engagement arm and the proximal end of the second engagement arm are angled upwardly from the first pin block and the second pin block, respectively, at a non-zero degree angle within a range from 40 degrees to 80 degrees. 13 . The compressor-distractor of claim 11 , wherein the first pin block and the second pin block each define a cutout. 14 . A system comprising: the compressor-distractor of claim 1 ; and a bone preparation guide configured to guide a tissue removing instrument to prepare an end of the metatarsal and an end of the cuneiform for fusion, the bone preparation guide comprising a first fixation aperture positionable over the metatarsal and configured to receive the first pin therethrough and a second fixation aperture positionable over the cuneiform and configured to receive the second pin therethrough. 15 . The system of claim 14 , wherein the first fixation aperture is parallel to the second fixation aperture. 16 . A compressor-distractor sized and configured for use across a tarsometatarsal joint, the compressor-distractor comprising: a first engagement arm having a first pin-receiving hole for receiving a first pin inserted into a first bone portion that is a metatarsal; a second engagement arm having a second pin-receiving hole and a third pin-receiving hole for receiving a second pin inserted into a second bone portion that is a cuneiform; and an actuator operatively coupled to the first engagement arm and the second engagement arm, the actuator being configured to move the first and second engagement arms away from each other to move the first bone portion away from the second bone portion across the tarsometatarsal joint and also being configured to move the first and second engagement arms toward each other across the tarsometatarsal joint to move the first bone portion toward the second bone portion, wherein the first pin-receiving hole defines a longitudinal axis that is angled at a fixed non-zero degree angle relative to a longitudinal axis defined by the second pin-receiving hole; and a longitudinal axis defined by the third pin-receiving hole is parallel to the longitudinal axis defined by the first pin-receiving hole such that compressor-distractor is configured to be engaged with the first pin inserted into the metatarsal and the second pin inserted into the cuneiform without moving the metatarsal relative to the cuneiform by advancing the compressor-distractor over the first pin and the second pin with the first pin received in the first pin-receiving hole and the second pin received in the third pin-receiving hole. 17 . The compressor-distractor of claim 16 , wherein the first pin-receiving hole is angled relative to the second pin-receiving hole in a frontal plane. 18 . The compressor-distractor of claim 16 , wherein the first pin-receiving hole is angled relative to the second pin-receiving hole in a sagittal plane. 19 . The compressor-distractor of claim 16 , wherein the actuator comprises a shaft connected to the first engagement arm and the second engagement arm. 20 . The compressor-distractor of claim 16 , wherein: the first engagement arm extends from a distal end to a proximal end; the second engagement arm extends from a distal end to a proximal end; the distal end of the