Deformable threaded locking structures, and related systems and methods

What is claimed: 1. A bone plate, comprising: a plate body that defines a combination hole comprising a locking hole and a compression hole that intersect one another and each extends from an outer surface of the plate body to a bone-facing surface of the plate body, wherein the locking hole and the compression hole extend away from each other along a longitudinal axis, the plate body further defining 1) a locking surface that defines the locking hole, 2) a second surface that defines the compression hole, and 3) an intersection boundary between the locking surface and the second surface; wherein the locking surface further defines: first, second, and third columns sequentially located about a central axis of the locking hole, each column having a first side, a second side opposite the first side, and a column length measured from the first side to the second side; a first recess extending from the second side of the first column to the first side of the second column; an additional recess extending from the second side of the third column to the first side of the first column; plate threads that traverse each of the columns and at least portions of the first recess and the additional recess; and a transition zone that is spaced from the first column along a longitudinal direction oriented along the longitudinal axis and extends to the intersection boundary, wherein the plate threads traverse the locking surface in the transition zone, and the locking surface in the transition zone is elongated such that the column lengths of the second and third columns is greater than the column length of the first column. 2. The bone plate of claim 1 , wherein the longitudinal axis intersects the first column, and the second and third columns are substantially equidistantly spaced from the longitudinal axis with respect to a lateral direction perpendicular to the longitudinal axis. 3. The bone plate of claim 1 , wherein: the plate threads define fully formed thread profiles that include the crests and further include roots and flanks that extend from the roots to the crests; and at least some of the plate threads extend to the intersection boundary such that interface edges between the locking surface and the second surface along the intersection boundary on both sides of the longitudinal axis include edges of the fully formed thread profiles. 4. The bone plate of claim 3 , wherein the plate threads traverse the locking surface such that a thread height measured from the crest to the root is substantially constant along at least one partial revolution about the central axis wherein the at least one partial revolution extends from the intersection boundary on one side of the longitudinal axis to the intersection boundary on the opposite side of the longitudinal axis. 5. The bone plate of claim 3 , wherein the crests extend in straight lines along at least a majority of the transition zone one side of the longitudinal axis and on an opposite side of the longitudinal axis. 6. The bone plate of claim 3 , wherein the locking surface further defines transition portions extending respectively from the second and third columns to the intersection boundary, the transition portions are located opposite each other along a lateral direction perpendicular to the longitudinal direction, and the transition portions are arcuately convex. 7. The bone plate of claim 6 , wherein: each column defines a crest trajectory axis that intersects the crest of each fully formed plate thread in the column; in a reference plane orthogonal to the central axis the crest trajectory axes of the first, second, and third columns are spaced from the central axis at a substantially equivalent radial distance measured along a radial direction perpendicular to the central axis; and the transition portions define transition radii, such that a ratio of the radial distance to the transition radii is in a range of about 1:2.1 to about 1:2.7 in the reference plane. 8. A bone plate, comprising: a plate body that defines a combination hole comprising a locking hole and a compression hole that intersect one another and each extends from an outer surface of the plate body to a bone-facing surface of the plate body, wherein the locking hole and the compression hole extend away from each other along a longitudinal axis, the plate body further defining 1) a locking surface that defines the locking hole, 2) a second surface that defines the compression hole, and 3) an intersection boundary between the locking surface and the second surface; wherein the locking surface further defines: first, second, and third columns sequentially located about a central axis of the locking hole, each column having a first side, a second side opposite the first side, and a column length measured from the first side to the second side; a first recess extending from the second side of the first column to the first side of the second column; an additional recess extending from the second side of the third column to the first side of the first column; plate threads that traverse each of the columns and at least portions of the first recess and the additional recess; and a transition zone that extends from the second column to the intersection boundary on one side of the longitudinal axis and extends from the third column to the intersection boundary on an opposite side of the longitudinal axis wherein the transition zone on the one side and the opposite side of the longitudinal axis defines a transition length that is greater than the column length of the first column. 9. The bone plate of claim 8 , wherein the longitudinal axis intersects the first column, and the second and third columns are substantially equidistantly spaced from the longitudinal axis with respect to a lateral direction perpendicular to the longitudinal axis. 10. The bone plate of claim 8 , wherein: each column defines a crest trajectory axis that intersects the crest of each fully formed plate thread in the column, such that the crest trajectory axes of the first, second, and third columns are substantially equidistantly spaced from the central axis and in a reference plane orthogonal to the central axis the crest trajectory axes of the first, second, and third columns are spaced from the central axis at a substantially equivalent radial distance measured along a radial direction perpendicular to the central axis. 11. The bone plate of claim 10 , wherein the column lengths of the second and third columns are greater than the column length of the first column. 12. The bone plate of claim 10 , wherein the transition zone defines a transition length in the reference plane, wherein, on the one side of the longitudinal axis the transition length extends from the crest trajectory axis of the second column to the intersection boundary, and on the opposite side of the longitudinal axis the transition length extends from the crest trajectory axis of the third column to the intersection boundary. 13. The bone plate of claim 12 , wherein the transition length on the one side and the opposite side of the longitudinal axis is greater than the column lengths of the second and third columns. 14. The bone plate of claim 8 , wherein a ratio of the column length of the first column to the column lengths of the second and third columns is in a range of about 1:2 to about 1:15. 15. A bone plate, comprising: a plate body that defines an outer surface, a bone-facing surface opposite the outer surface, and a combination hole comprising a locking hole and a compression hole that intersect one another and each extending from the outer s