A system and method for developing customized apparatus, such as guides, for use in one or more surgical procedures is disclosed. The system and method incorporates a patient's unique anatomical features or morphology, which may be derived from capturing MRI data or CT data, to fabricate at least one custom apparatus or guide. According to a preferred embodiment, the customized apparatus comprises at least one patient-specific surface and or contour, which may be derived from MRI or CT data. Apparatus may be matched in duplicate and oriented around the patient's own anatomy, and may further provide any desired axial alignments or insertional trajectories. In an alternate embodiment, the apparatus may further be aligned and/or matched with at least one other apparatus during the surgical procedure.

A probe unit includes, a probe configured to treat a bone by ultrasonic vibration, a hollow sheath which surrounds the probe and which has a first portion at a small distance from a central axis, and a second portion at a greater distance from the central axis than the first portion, and a knob configured to rotate the sheath relative to the probe between a first position for insertion between the bone and a living tissue facing the bone so that the first portion is located between the bone and the living tissue and a second position for insertion between the bone and the living tissue so that the second portion is located between the bone and the living tissue.

The invention relates to an aiming device (15) for the placement of Kirschner-wires in orthopedics/traumatology. The aiming device (15) comprises an adjustable aiming block (10) which is displaceably attached to a forceps (20). The fixation of the aiming device at the bone (30) can be varied by clamping the forceps (20) more or less strongly. The aiming block (10) can be displaced to the periost (31) and be fixed. The aiming device (15) according to the invention allows the alignment of the guidance (2) of the Kirschner-wire (1) about an axis of rotation (12). Before the Kirschner-wire (1) is inserted in the bone (30) its position and direction can be intraoperatively represented and aligned in at least two non-parallel planes of projection (P1, P2) by means of fluoroscopy and/or navigation. Repeated drilling and mistaken positioning of the Kirschner-wire (1) can so be avoided. Thus, allowing to reduce the time of operation and the exposure of the patient to radiation.

The invention relates to an aiming device (15) for the placement of Kirschner-wires in orthopaedics/traumatology. The aiming device (15) comprises an adjustable aiming block (10) which is displaceably attached to a forceps (20). The fixation of the aiming device at the bone (30) can be varied by clamping the forceps (20) more or less strongly. The aiming block (10) can be displaced to the periost (31) and be fixed. The aiming device (15) according to the invention allows the alignment of the guidance (2) of the Kirschner-wire (1) about an axis of rotation (12). Before the Kirschner-wire (1) is inserted in the bone (30) its position and direction can be intraoperatively represented and aligned in at least two non-parallel planes of projection (P1, P2) by means of fluoroscopy and/or navigation. Repeated drilling and mistaken positioning of the Kirschner-wire (1) can so be avoided. Thus, allowing to reduce the time of operation and the exposure of the patient to radiation.

An osteotomy plate for maintaining the spacing of a wedge-like opening in bone, the osteotomy plate comprising: a body having a front side and a back side; a key extending out of the back side of the body for disposition in a keyhole formed in the bone along the wedge-like opening; and a plurality of mounting holes for receiving fixation screws therein, the mounting holes being formed in the body such that when the key is disposed in the keyhole, the mounting holes direct the fixation screws into bone on either side of the wedge-like opening.

An apparatus and method for performing an open wedge osteotomy. The apparatus includes devices for forming an open wedge osteotomy in bone, including a keyed-wedge implant. The method includes the steps of forming a cut in a bone, forming a keyhole in the bone surface at the proximal end of the cut, and positioning a keyed wedge-shaped implant into the cut formed into the bone.

An aiming device for insertion of a Kirschner-wire to treat a target bone, comprises an aiming block permitting placement of a Kirschner-wire against the target bone and a forceps connected to the aiming block, the forceps being configured to clamp to the target bone.

A contact portion, provided in an exposed surface of the treating section, treats a treated object by a transmitted ultrasonic vibration while intruding into the treated object toward an intruding direction from a state being in contact with the treated object. An index portion is disposed on an anti-intruding direction side with respect to the contact portion in the exposed surface. The index portion becomes an index indicating an intruding amount of the contact portion into the treated object toward the intruding direction. The index portion includes index surfaces arranged in the intruding direction, and each of the index surfaces has an angle relative to the intruding direction which is different from the angle of the adjacent index surface.

A system and method for developing customized apparatus, such as guides, for use in one or more surgical procedures is disclosed. The system and method incorporates a patient's unique anatomical features or morphology, which may be derived from capturing MRI data or CT data, to fabricate at least one custom apparatus or guide. According to a preferred embodiment, the customized apparatus comprises at least one patient-specific surface and or contour, which may be derived from MRI or CT data. Apparatus may be matched in duplicate and oriented around the patient's own anatomy, and may further provide any desired axial alignments or insertional trajectories. In an alternate embodiment, the apparatus may further be aligned and/or matched with at least one other apparatus during the surgical procedure.

Surgical systems and methods for performing an osteotomy are disclosed herein. A surgical system includes a frame including a first section, second section, third section, fourth section, and a window. The surgical system can include a cut guide that can fit within the window and contact the first side, the second side, the third side, and the fourth side. The surgical system can include an aligner that can fit within the window and contact the first side, the second side, the third.