Abstract: A metatarsal fixation device is provided for fixation of osteotomy or fracture of a distal metatarsal metaphysis bone of the human foot and for fixation of an associated capsule to the metatarsal head. The device includes a metallic bone plate with a series of screw holes along an elongated portion of the plate and a combination of a singular screw hole and a resilient clamp on an end of the elongated portion. The resilient clamp has two arched resilient arms extending laterally outward from an end of the elongated portion. Each arm has a plurality of spikes on an inner surface thereof providing points of contact that compress and attach a metatarsal phalangeal joint capsule portion to the medial and/or lateral aspect of the metatarsal head, thereby facilitating realignment of the metatarsophalangeal joint and respective digit. The resilient arms are biased to grasp lateral sides of a metatarsal head and any associated capsule portion.

Abstract: A metatarsal fixation device is provided for fixation of osteotomy or fracture of a distal metatarsal metaphysis bone of the human foot and for fixation of an associated capsule to the metatarsal head. The device includes a metallic bone plate with a series of screw holes along an elongated portion of the plate and a combination of a singular screw hole and a resilient clamp on an end of the elongated portion. The resilient clamp has two arched resilient arms extending laterally outward from an end of the elongated portion. Each arm has a plurality of spikes on an inner surface thereof providing points of contact that compress and attach a metatarsal phalangeal joint capsule portion to the medial and/or lateral aspect of the metatarsal head, thereby facilitating realignment of the metatarsophalangeal joint and respective digit. The resilient arms are biased to grasp lateral sides of a metatarsal head and any associated capsule portion.

Abstract: A metatarsal fixation device is provided for fixation of osteotomy or fracture of a distal metatarsal metaphysis bone of the human foot and for fixation of an associated capsule to the metatarsal head. The device includes a metallic bone plate with a series of screw holes along an elongated portion of the plate and a combination of a singular screw hole and a resilient clamp on an end of the elongated portion. The resilient clamp has two arched resilient arms extending laterally outward from an end of the elongated portion. Each arm has a plurality of spikes on an inner surface thereof providing points of contact that compress and attach a metatarsal phalangeal joint capsule portion to the medial and/or lateral aspect of the metatarsal head, thereby facilitating realignment of the metatarsophalangeal joint and respective digit. The resilient arms are biased to grasp lateral sides of a metatarsal head and any associated capsule portion.

Abstract: A metatarsal fixation device is provided for fixation of osteotomy or fracture of a distal metatarsal metaphysis bone of the human foot and for fixation of an associated capsule to the metatarsal head. The device includes a metallic bone plate with a series of screw holes along an elongated portion of the plate and a combination of a singular screw hole and a resilient clamp on an end of the elongated portion. The resilient clamp has two arched resilient arms extending laterally outward from an end of the elongated portion. Each arm has a plurality of spikes on an inner surface thereof providing points of contact that compress and attach a metatarsal phalangeal joint capsule portion to the medial and/or lateral aspect of the metatarsal head, thereby facilitating realignment of the metatarsophalangeal joint and respective digit. The resilient arms are biased to grasp lateral sides of a metatarsal head and any associated capsule portion.

Abstract: An external fixator for mounting to a patient's leg or other anatomy to stabilize bones in the patient's leg or other anatomy includes a first ring including a first plurality a slots therein and a second ring including a second plurality of slots therein. A foot-plate has a generally U-shape and a third plurality of slots therein. A first strut is mounted between the first ring and the second ring. The first strut includes an upper tube, a lower tube, a first telescoping element securing the upper tube to the lower tube and first and second end fittings secured to ends of the upper and lower tubes, respectively. The first end fitting secures the first strut to the first ring and the second end fitting secures the first strut to the second ring.

Abstract: A metatarsal fixation device is provided for fixation of osteotomy or fracture of a distal metatarsal metaphysis bone of the human foot and for fixation of an associated capsule to the metatarsal head. The device includes a metallic bone plate with a series of screw holes along an elongated portion of the plate and a combination of a singular screw hole and a resilient clamp on an end of the elongated portion. The resilient clamp has two arched resilient arms extending laterally outward from an end of the elongated portion. Each arm has a plurality of spikes on an inner surface thereof providing points of contact that compress and attach a metatarsal phalangeal joint capsule portion to the medial and/or lateral aspect of the metatarsal head, thereby facilitating realignment of the metatarsophalangeal joint and respective digit. The resilient arms are biased to grasp lateral sides of a metatarsal head and any associated capsule portion.

Abstract: An implant that facilitates the fusion of a first bone part with a second bone part includes an implant body that extends between the first bone part and the second bone part. The implant body includes a first portion that fits within a first receiving aperture in the first bone part, and the implant body includes a second portion that fits within a second receiving aperture in the second bone part. At least one of the first portion and the second portion can be made of bone. Additionally, at least the second portion is formed to have a non-circular cross-sectional shape to inhibit relative motion between the bone parts and the implant body.

Abstract: A joint aligner (12) for use with a flexible first connector (26) for aligning a joint (18) between a first bone (14) and a second bone (16) comprises an aligner body (20) that is adapted to be secured to the first bone (14), the aligner body (20) including a first connector aperture (22) that is adapted to receive the first connector (26) so that the first connector (26) can extend between the first connector aperture (22) and bone connecting material (19) to couple the first bone (14) to at least a portion of the bone connecting material (19). Additionally, the first connector aperture (22) can be positioned along an outer surface (232) of the aligner body (20) and can extend at an aperture angle (250) of between approximately fifteen and twenty-five degrees relative to a first end (228).

Abstract: A fusion plate (10) for compressing bone material at an interface between a first bone part (929A) and a second bone part (929B) comprises (i) a first end (12) having a first thickness (464); (ii) a thickened region (250) that is spaced apart from the first end (12), the thickened region (250) having a second thickness (466) that is greater than the first thickness (464); and (iii) a compression aperture (22) that extends through the thickened region (250) at a compression angle (224) relative to a planar axis (246). The compression angle (224) can be between approximately thirty and fifty-five degrees relative to the planar axis (246). The first end (12) includes a top surface (26), and the thickened region (250) extends farther away from the bone parts (929A, 929B) than the top surface (26) when the fusion plate (10) is implanted substantially adjacent to the bone parts (929A, 929B).

Abstract: A staple inserter (12) for use with a surgical staple (10) during a surgical procedure, the surgical staple (10) including a middle section (14) and two side sections (16) that cantilever away from the middle section (14), the surgical staple (10) being selectively movable between a relaxed configuration and an opened configuration, the staple inserter (12) comprising a staple holder assembly (20) that is rotatable in a first direction relative to the surgical staple (10) to selectively engage and retain the surgical staple (10). The staple holder assembly (20) includes (i) a first engagement member (32) that is rotatable in the first direction relative to the surgical staple (10) to selectively engage and retain the surgical staple (10), and (ii) a second engagement member (32) that is rotatable in the first direction relative to the surgical staple (10) to selectively engage and retain the surgical staple (10).

Abstract: A surgical staple (714) for inserting into one or more bone parts (10, 12) comprises a plate (718), a first screw (748) and a second screw (748). The plate (718) includes a first end (768F), an opposed second end (768S), a first aperture (742) that is positioned near the first end (768F), and a second aperture (742) that is positioned near the second end (768S). Additionally, the plate (718) is curved along a length of the plate (718) from the first end (768F) to the second end (768S). The first screw (748) extends through the first aperture (742). The second screw (748) extends through the second aperture (742). Further, the first screw (748) and the second screw (748) are angled toward one another when the surgical staple (714) is in a relaxed configuration.

Abstract: A grommet (414) for use with a surgical implant (212) comprises a base (450) and a sleeve (452). The base (450) can be positioned around a portion of the surgical implant (212). Additionally, the sleeve (452) is connected to the base (450) and extends away from the base (450). The sleeve (452) includes an inner surface (446) having a non-circular shape to inhibit relative rotation between the grommet (414) and the surgical implant (212), and an outer surface (438) that is substantially cylinder-shaped. The outer surface (438) of the sleeve (452) can taper as the sleeve (452) extends away from the base (450). Additionally, the sleeve (452) can include one or more anti-rotation features (440) that are positioned along the outer surface (438) of the sleeve (452) to inhibit rotation between the grommet (414) and the bone (20) into which the surgical implant (212) is implanted.

Abstract: A method for guiding a saw blade (22) during preparation of a metatarsal (14) of a foot (10) for a procedure, such as to receive a metatarsal bone implant (20), includes positioning a housing (242) substantially adjacent to the metatarsal (14), coupling an aligner (38) to the housing (242), and aligning a saw guide (30) of the housing (242). The housing (242) includes the saw guide (30) for receiving and guiding the saw blade (22). The foot (10) includes one or more additional metatarsals (142), and the aligner (38) is used to align the saw guide (30) relative to the metatarsal (14) by aligning the aligner (38) to be substantially parallel to and positioned over a longitudinal axis (40) of one of the additional metatarsals (142).

Abstract: A metatarsal implant (212) for insertion into a stem aperture (25) in a metatarsal (14) bone of a foot and to form a joint with the proximal phalanx (16) of the great toe, includes a head (226) and a stem (228). The head (226) includes an articular joint engaging surface (232) and an opposed, bone engaging surface (230). The stem (228) cantilevers away from the bone engaging surface (230), and is adapted to be inserted into the stem aperture (25). The stem (228) can have a stem axis (228A) that is at an angle (234) of between approximately 45 and 75 degrees relative to the bone engaging surface (230). The stem axis (228A) can also be at an angle (266) of between approximately 40 and 80 degrees relative to a tangential reference line (234) drawn from the articular joint engaging surface (232). In one embodiment, the stem axis (228A) is at an angle (266) of between approximately 50 and 70 degrees relative to the tangential reference line (234) of the articular joint engaging surface (232).