Bone Harvester and Method for Processing a Bone

What is claimed is: 1 . A bone harvester for harvesting a bone core, the bone harvester comprising a shaft having a lumen, a distal end with a blade having a distal cutting edge, a proximal end, and an engagement element that locks the relative rotation of the bone harvester and the bone core. 2 . The bone harvester of claim 1 wherein the engagement element comprises an open slot, a notch, a flat face, an internal slot substantially parallel to a longitudinal axis of the shaft, a collar, a plurality thereof, or a combination thereof. 3 . The bone harvester of claim 2 wherein the engagement element comprises the open slot, and the open slot has a side opening through the blade that extends from the distal cutting edge toward the proximal end of the shaft. 4 . The bone harvester of claim 2 wherein a length of the open slot is at least 20% of a length of the bone core. 5 . The bone harvester of claim 2 wherein a width of the open slot is from 5% to 10% of the circumference of the bone core. 6 . The bone harvester of claim 2 , wherein the open slot has a width from about 0.3 mm to about 7 mm. 7 . The bone harvester of claim 2 wherein the engagement element comprises the notch, and the notch comprises a protrusion into the lumen of the shaft. 8 . The bone harvester of claim 1 wherein the length of the bone core is about 4 to 10 mm. 9 . The bone harvester of claim 1 wherein the bone core has a diameter from about 2.5 to about 8 mm. 10 . The bone harvester of claim 1 wherein the blade has a circumferential shape and has a longitudinal through-bore connecting to the lumen of the shaft. 11 . The bone harvester of claim 1 wherein the blade has a tapered outer diameter along a direction of an axis of the shaft toward the distal end. 12 . The bone harvester of claim 1 wherein the blade has an outer diameter that tapers by a amount from about 3 mm to about 5 mm, such that the proximal diameter is larger than the distal diameter. 13 . The bone harvester of claim 1 , wherein the blade has a tapered wall thickness. 14 . The bone harvester of claim 1 wherein the shaft comprises a step adjacent to the blade, wherein the step is formed by a change in outer diameter of the shaft. 15 . The bone harvester of claim 14 wherein the step has a position to form a bone core having a length from about 2 mm to about 12 mm. 16 . The bone harvester of claim 1 wherein the shaft further comprises a window proximal to the blade, wherein the window comprises an opening on a side portion of the shaft to expose a portion of the lumen. 17 . The bone harvester of claim 1 further comprising a handle comprising a handle module, wherein the handle module is mechanically attached to the shaft and one or more rods, wherein the handle module comprises a longitudinal hole extending through the handle module and one or more lateral holes, wherein the shaft extends through the longitudinal hole and each of the one or more rods extends from a lateral hole approximately perpendicular to a longitudinal axis of the shaft. 18 . A bone harvesting guide comprising: a first guiding pin; a second guiding pin; and a tube configured to accommodate a bone harvester; wherein the first guiding pin, the second guiding pin, and the tube are assembled whereby a longitudinal axis of the first guiding pin, a longitudinal axis of the second guiding pin, and a longitudinal axis of the tube are substantially parallel to each other; and wherein, in a cross-section of the bone harvesting guide, a center of the first guiding pin, a center of the second guiding pin, and a center of the tube form vertexes of an equilateral triangle. 19 . A kit for harvesting a bone core comprising: a bone harvester according to claim 1 ; and a pushing tool, wherein the pushing tool comprises a pushing rod having a shape matching the lumen defined by the shaft. 20 . A method for processing a bone comprising: inserting a bone harvester according to claim 1 into a bone whereby at least a portion of the engagement element is within the bone and the bone core is within the lumen; rotating the bone harvester to rotate the bone core relative to the bone to shear the base of the bone core from the bone; and withdrawing the bone harvester thereby obtaining a harvested bone core. 21 . A bone core comprising a distorted cylindrical body, wherein the distorted cylindrical body has a non-circular cross section perpendicular to the cylindrical axis corresponding to an accretion to or removal from the corresponding circular form.