Sacroiliac joint fusion implants, insertion instruments, and methods

The invention claimed is: 1 . An implant for transfixing a sacroiliac (SI) joint, comprising: a main body defining a longitudinal axis along a length of the main body and comprising: a window extending laterally through the main body; a central section comprising the window and at least one opening, wherein bone graft may be added through the at least one opening and/or the at least one opening is configured for self-harvesting of bone, and wherein at least a portion of the central section is unthreaded; at least one wing deployable out of the window and configured to engage with cortical bone of a sacrum; and an externally threaded proximal end; and a compressive body threadedly coupled to the externally threaded proximal end such that an overall length of the implant is adjustable by threading the compressive body along the externally threaded proximal end, wherein the compressive body is configured to engage with an ilium. 2 . The implant of claim 1 , further comprising a cannula extending along the longitudinal axis and through each of the main body and the compressive body. 3 . The implant of claim 1 , wherein the compressive body comprises a compressive body distal end comprising a plurality of teeth configured to engage the compressive body with the ilium. 4 . The implant of claim 1 , further comprising: an internal plunger received within the main body and coupled to the at least one wing, wherein longitudinal distal movement of the internal plunger deploys the at least one wing out of the window. 5 . The implant of claim 4 , wherein the main body comprises internal threads and the internal plunger comprises corresponding external threads, and wherein the internal plunger is configured to be threaded along the internal threads of the main body to achieve the longitudinal distal movement of the internal plunger. 6 . The implant of claim 1 , wherein the at least one wing comprises at least one counter-rotational feature to mitigate rotation of the implant when engaged with the cortical bone of the sacrum. 7 . The implant of claim 1 , wherein the implant is at least partially coated in hydroxyapatite. 8 . A method for fusion of a sacroiliac (SI) joint, comprising: providing an SI implant, comprising: a main body comprising a distal anchor that comprises at least one deployable wing; a central section comprising a window through which the at least one deployable wing is deployable and at least one opening, wherein bone graft may be added through the at least one opening and/or the at least one opening is configured for self-harvesting of bone, and wherein at least a portion of the central section is unthreaded; and a proximal anchor coupled to the main body; inserting the SI implant through an ilium, across the SI joint, and at least partially into a sacrum; and engaging the at least one deployable wing with cortical bone of the sacrum and engaging the proximal anchor with the ilium to cause compression across the SI joint. 9 . The method of claim 8 , further comprising: providing an insertion instrument configured to: insert the SI implant; deploy the at least one deployable wing to engage with the cortical bone; and adjust a position of the proximal anchor to engage with the ilium. 10 . The method of claim 8 , wherein the SI implant is a first SI implant and the method further comprises: inserting a second SI implant through the ilium, across the SI joint, and at least partially into the sacrum. 11 . The method of claim 8 , wherein the proximal anchor comprises a compressive body threadedly coupled to the main body, and wherein engaging the proximal anchor with the ilium comprises threading the compressive body longitudinally along the main body in a medial direction. 12 . The method of claim 8 , wherein the main body comprises a self-drilling distal end, and wherein inserting the SI implant through the ilium, across the SI joint, and at least partially into the sacrum comprises self-drilling the SI implant. 13 . The method of claim 8 , wherein engaging the at least one deployable wing with the cortical bone of the sacrum comprises: deploying the at least one deployable wing into cancellous bone of the sacrum; and retracting the SI implant laterally towards the ilium to engage the at least one deployable wing with the cortical bone. 14 . The method of claim 8 , wherein the SI implant comprises a cannula along a longitudinal axis of the SI implant, and wherein the method further comprises: inserting bone graft into the SI implant via the cannula. 15 . An implant for transfixing a sacroiliac (SI) joint, comprising: a main body defining a longitudinal axis along a length of the main body and comprising: at least one wing deployable between an open configuration in which the at least one wing is located within the main body and a closed configuration in which the at least one wing is at least partially external from the main body; a central section comprising a window through which the at least one wing is deployable and at least one opening, wherein bone graft may be added through the at least one opening and/or the at least one opening is configured for self-harvesting of bone, wherein at least a portion of the central section is unthreaded; and a proximal end; and a compressive body coupled to the proximal end of the main body, wherein the compressive body is adjustable longitudinally along the proximal end of the main body; and a cannula extending along the longitudinal axis through the main body and the compressive body. 16 . The implant of claim 15 , wherein the cannula is unobstructed along the longitudinal axis. 17 . The implant of claim 15 , wherein the compressive body comprises a compressive body proximal end comprising a plurality of recesses configured to counter rotation of the implant when inserted into a patient. 18 . The implant of claim 15 , wherein the at least one wing comprises a wing tip having a sharp edge configured to push through cancellous bone of a sacrum. 19 . The implant of claim 15 , wherein the implant comprises at least one of titanium, steel, magnesium, a polymer, a bioabsorbable material, or an allograft. 20 . The implant of claim 15 , wherein adjusting a position of the compressive body on the proximal end of the main body adjusts an amount of compression applied to the SI joint.