Bone plates with dynamic elements and screws

The invention claimed is: 1. A bone plate assembly couplable to a tissue, the bone plate assembly comprising: a bone plate elongate along a longitudinal bone plate axis, the bone plate comprising: an obverse side; a reverse side; a fastener hole that extends through the bone plate from the obverse side to the reverse side; a first draw hole formed at an oblique angle through the bone plate from the obverse side to the reverse side, the first draw hole comprising a pin engagement surface, wherein the first draw hole is adjacent to the fastener hole along the longitudinal bone plate axis; a fastener comprising: a distal fastener end portion insertable through the fastener hole and into the tissue; and a proximal fastener end portion retainable in the fastener hole; and a first pin insertable into the first draw hole, the first pin extending between a proximal pin end portion and a distal pin end portion, the distal pin end portion extending along a distal pin end portion axis and anchorable in the tissue, and the proximal pin end portion having a retention portion that is retainable in the first draw hole, wherein the pin engagement surface is oriented obliquely from the obverse side to the reverse side of the bone plate, so that the retention portion extends obliquely with respect to the distal pin end portion axis when the retention portion is retained in the first draw hole, such that motion of the first pin through the first draw hole causes the distal pin end portion to exert a compressive force against the tissue. 2. The bone plate assembly of claim 1 , wherein: the fastener hole comprises a threaded portion; and the fastener is a locking screw comprising an engagement thread at the proximal fastener end portion, wherein the engagement thread is engageable with the threaded portion. 3. The bone plate assembly of claim 1 , further comprising a leg comprising: a distal leg end insertable into the tissue; and a proximal leg end comprising a channel formed from the proximal leg end toward the distal leg end; wherein the channel is sized to receive the distal pin end portion of the first pin. 4. The bone plate assembly of claim 3 , wherein the leg further comprises: an insertion tip formed into a tapered shape to initiate insertion into the tissue; and retention features protruding outward from a longitudinal axis of the leg and shaped to increase friction between the leg and the tissue when inserted into the tissue. 5. The bone plate assembly of claim 1 , wherein the first pin comprises: a sharpened tip at a distal end of the distal pin end portion, wherein the sharpened tip is used to pass the first pin a distance into the tissue. 6. The bone plate assembly of claim 1 , wherein the bone plate further comprises: a second draw hole comprising a second pin engagement surface; wherein insertion of the first pin into the first draw hole and insertion of a second pin into a second draw hole causes the first and second pins to apply a compression force against two pieces of the tissue to urge and compress the two pieces of the tissue together. 7. The bone plate assembly of claim 1 , further comprising: a first draw plug; wherein a first draw plug hole is formed through the bone plate from the obverse side to the reverse side to receive a first draw plug, the first draw plug comprising: the first draw hole formed therethrough; and a lip that interfaces with a recess formed on the bone plate to prevent the first draw plug from exiting the first draw plug hole when the bone plate is installed. 8. The bone plate assembly of claim 7 , wherein the first draw plug further comprises: non-circular cross-section shape that interfaces with an internal surface portion formed within the first draw plug hole to prevent the first draw plug from rotating within the first draw plug hole. 9. A bone plate assembly to be coupled to a tissue, the bone plate assembly comprising: a bone plate elongate along a longitudinal bone plate axis, the bone plate comprising: an obverse side; a reverse side; a first fastener hole that extends through the bone plate from the obverse side to the reverse side; a second fastener hole that extends through the bone plate from the obverse side to the reverse side; a first draw hole formed at first oblique angle through the bone plate from the obverse side to the reverse side, the first draw hole comprising a first pin engagement surface, wherein the first draw hole is adjacent to the first fastener hole along the longitudinal bone plate axis; a second draw hole formed at a second oblique angle through the bone plate from the obverse side to the reverse side, the second draw hole comprising a second pin engagement surface, wherein the second draw hole is adjacent to each of the first draw hole and the second fastener hole along the longitudinal bone plate axis; and a first fastener comprising: a distal first fastener end portion insertable through the first fastener hole and into the tissue; and a proximal first fastener end portion retainable in the first fastener hole; a second fastener comprising: a distal second fastener end portion insertable through the second fastener hole and into the tissue; and a proximal second fastener end portion retainable in the second fastener hole; a first pin insertable into the first draw hole, the first pin extending between a proximal first pin end portion and a distal first pin end portion, the distal first pin end portion extending along a distal first pin end portion axis and anchorable in the tissue, and the proximal first pin end portion having a first retention portion that is retainable in the first draw hole; a second pin insertable into the second draw hole, the second pin extending between a proximal second pin end portion and a distal second pin end portion, the distal second pin end portion extending along a distal second pin end portion axis and anchorable in the tissue, and the proximal second pin end portion having a second retention portion that is retainable in the second draw hole, wherein first and second retention portions extend away from each other when they are retained by the first and second draw holes, respectively, such that 1) the first and second pin engagement surfaces cause the first and second retention portions to extend obliquely with respect to the distal first pin end portion and the distal second pin end portion, respectively, 2) the first pin flexes at a location between the proximal first pin end portion and the distal first pin end portion, 3) the second pin flexes at a location between the proximal second pin end portion and the distal second pin end portion, and 4) the distal first pin end portion and the distal second pin end portion exert a compressive force against the tissue. 10. The bone plate assembly of claim 9 , wherein the first fastener hole comprises a first threaded portion and the second fastener hole comprises a second threaded portion; and the first fastener and the second fastener are locking screws, the first fastener comprising: a first engagement thread at the proximal first fastener end portion; and a second engagement thread at the proximal second fastener end portion; wherein the first engagement thread and second engagement thread engage with the first threaded portion of the first fastener hole and second threaded portion of the second fastener hole, respectively. 11. The bone plate assembly of claim 9 , further comprising a leg comprising: a distal leg end insertable into the tissue; and a proximal leg end comprising a channel formed from the proximal leg end toward the distal leg end; wherein the channel is sized