Bone graft cage

What is claimed is: 1. A device for containing a bone graft material, comprising: a mesh outer sleeve extending longitudinally from a proximal end to a distal end and sized and shaped to correspond to a profile of an outer surface of a target bone, the outer sleeve including a plurality of openings extending therethrough, longitudinally adjacent ones of the plurality of openings being offset from one another relative to a longitudinal axis of the device, the outer sleeve including a longitudinal slot extending from the proximal end to the distal end and defined by longitudinal edges extending along a length thereof; a mesh inner sleeve connected to an interior surface of the outer sleeve via at least one connecting strut so that a bone graft collecting space is defined therebetween, the inner sleeve sized and shaped to correspond to a profile of a medullary canal of the target bone, the inner sleeve including a plurality of openings extending therethrough; and an interstitial mesh comprising a plurality of radial struts extending radially away from an exterior surface of the inner sleeve toward an interior surface of the outer sleeve, and a plurality of circumferential struts connecting radially outermost ends of adjacent ones of the radial struts to prevent axial migration of the bone graft material out of the bone graft collecting space. 2. The device of claim 1 , wherein the openings of one of the inner and outer sleeves is formed via a plurality of sleeve circumferential struts and a plurality of sleeve axial struts intersecting one another, the sleeve axial struts interrupted between adjacent sleeve circumferential struts so that the longitudinally adjacent openings formed via the intersecting sleeve circumferential struts and sleeve axial struts are offset from one another. 3. The device of claim 2 , wherein a distance between adjacent sleeve axial struts is two times a distance between adjacent sleeve circumferential struts. 4. The device of claim 1 , wherein the inner sleeve includes a first longitudinal slot extending along an entire length thereof, the inner sleeve connected to the interior surface of the outer sleeve via a first one of the radial struts extending from a portion of the exterior surface of the inner sleeve substantially opposing the first longitudinal slot. 5. The device of claim 4 , wherein the inner sleeve further includes a second longitudinal slot diametrically opposing the first longitudinal slot to define a first clamshell portion and a second clamshell portion, the first and second clamshell portions connected to the interior surface of the outer sleeve via a plurality of sleeve axial struts extending along longitudinal edges of the first and second clamshell portions defining the second longitudinal slot. 6. The device of claim 1 , wherein openings defined by the mesh outer sleeve are larger than openings defined by the mesh inner sleeve. 7. The device of claim 1 , wherein a length of the inner sleeve is selected to be less than a distance between separated portions of the target bone. 8. The device of claim 1 , wherein one of the outer sleeve, the inner sleeve and the interstitial mesh are formed of a bioresorbable material. 9. The device of claim 8 , wherein the bioresorbable material is polycaprolactone. 10. A device for containing a bone graft material, comprising: a mesh outer sleeve extending longitudinally from a proximal end to a distal end and sized and shaped to correspond to a profile of an outer surface of a target bone, the outer sleeve including a longitudinal slot extending from the proximal end to the distal end and defined by longitudinal edges extending along a length thereof and openings defined via a plurality of sleeve circumferential struts and a plurality of sleeve intersecting struts, each opening of the outer sleeve being offset from an adjacent one of the openings of the outer sleeve relative to a longitudinal axis of the device; a mesh inner sleeve connected to an interior surface of the outer sleeve via at least one connecting strut so that a bone graft collecting space is defined therebetween, the inner sleeve sized and shaped to correspond to a profile of a medullary canal of the target bone, the inner sleeve including openings defined via a plurality of sleeve circumferential struts and a plurality of sleeve intersecting struts, each opening of the inner sleeve offset from an adjacent one of the openings of the inner sleeve along an axis relative to the longitudinal axis of the device; and an interstitial mesh comprising a plurality of radial struts extending radially away from an exterior surface of the inner sleeve toward an interior surface of the outer sleeve and a plurality of circumferential struts connecting radially outermost ends of adjacent ones of the radial struts to prevent axial migration of bone graft material out of the bone grafting space. 11. The device of claim 10 , wherein the inner sleeve comprises a plurality of sleeve, the sleeve intersecting struts of one of the outer sleeve and the inner sleeve extending axially, the sleeve intersecting struts being interrupted between adjacent ones of the sleeve circumferential struts so that the adjacent openings formed thereby are offset from one another. 12. The device of claim 11 , wherein a distance between adjacent ones of the sleeve axial struts is two times a distance between adjacent ones of the sleeve circumferential struts.