Abstract: A bone cement applicator for applying a bone cement to a bone surface is provided. The bone cement applicator includes a bone cement receiver, a first housing and a second housing. The bone cement receiver has a first opening to be connected with a bone cement supplier supplying the bone cement. The first housing is connected with the bone cement receiver. The second housing is connected with the first housing. A cavity is formed between the first housing and the second housing. The cavity is in fluid communication with the first opening. The second housing includes a contact surface and a plurality of holes. The contact surface is in contact with the bone surface. The holes are located on the contact surface, in which the bone cement reaches the bone surface after sequentially flowing through the first opening, the cavity, and the holes.

Abstract: A three-dimensional (3-D) orthopedic drill guide device for accommodating a bone drill during an orthopedic surgery is disclosed. By establishing two specific angles in relation to the bone fascia, the device acts as a guide for bone drilling locations. In one specific instance, it is an optimal 3-D drill guide for the direction and Gamma angle (resulting from the devices Alpha and Beta angles of the device) of a drill hole in a femoral bone when used to replace an injured anterior cruciate ligament (ACL).

Abstract: Embodiments herein are generally directed to surgical retractor systems. In some embodiments, these retractor systems may be used in spinal fusion or other procedures that utilize a transforaminal approach.

Abstract: Bone fixation system including methods, apparatus, and kits, for steering a leading end of a fastener within bone. In some embodiments, the system may include (a) a flexible fastener having an external thread, and (b) a guide including a graspable handle attached or attachable to a wire having a distal end portion with a preformed longitudinal curvature in a direction indicated by the handle. The wire may be extendable through the fastener and configured to be advanced longitudinally, while extending through the fastener, such that the distal end portion of the wire penetrates bone ahead of a leading end of the fastener and creates a curved travel path for the leading end of the fastener.

Abstract: A method for fusing bones using a guide pin and a fastener is disclosed. The method includes inserting a guide pin into two bones. The guide pin including at least one radial marking. The method also including imaging the two bones and guide pin and analyzing the position of the at least one radial marking of the guide pin relative to the two bones. In addition, the method includes selecting a fastener, inserting a drill over the guide pin, drilling an opening through at least one of the two bones, and inserting the fastener into the opening. The guide pin may include an exterior surface with a first end and a second end, a cutting edge at the first end, and at least one radial marking near the first end. A system including a guide pin, a fastener, and a drill is also disclosed.

Abstract: Disclosed herein is a method of defining a mating surface in a first side of an arthroplasty jig. The mating surface is configured to matingly receive and contact a corresponding patient surface including at least one of a bone surface and a cartilage surface. The first side is oriented towards the patient surface when the mating surface matingly receives and contacts the patient surface. The method may include: a) identifying a contour line associated with the patient surface as represented in a medical image; b) evaluating via an algorithm the adequacy of the contour line for defining a portion of the mating surface associated with the contour line; c) modifying the contour line if the contour line is deemed inadequate; and d) employing the modified contour line to define the portion of the mating surface associated with the contour line.

Abstract: A substantially radiolucent cranial stabilization pin is adapted for use with a fixture for immobilizing a patient's head during a medical procedure. The pin includes a tip and a body, which are secured together to form the pin. The tip and body are constructed from non-ferrous, non-magnetic materials that are biocompatible. The tip and body are safe for use with, and compatible with, imaging techniques including MR imaging and CT imaging. In some examples the tip is a titanium insert and the body is molded within and around at least a portion of the tip. In some versions, the tip includes a hollow portion and one or more projections extending within the hollow portion. The molded body flows into the hollow portion and around the one or more projections of the tip creating a secure pin suitable to withstand torque and axial forces observed in use.

Abstract: Total knee replacement surgery is improved through custom cuts on the distal femur without resorting to expensive computer navigation. The method involves measurements on plain radiographs or CT scans prior to surgery, the amount of bone that would be resected on each knee, medially and laterally on the distal femur. In the preferred embodiments, the predetermined distance is in the range of 8-12 mm, more preferably 10 mm, and the resulting distance from the second line to the apex of the lateral condyle is in the range of 6 to 7 mm. A cutting fixture is provided and used to resect the medial condyle at the predetermined distance and the lateral condyle at the measured resulting distance.

Abstract: A cement-directing structure for use in cement-injection bone therapy includes a collapsible, self-restoring braided structure with regions of differential permeability to the bone cement. The regions of differential permeability may be provided by areas where the braided mesh density is greater or lesser than surrounding areas and/or by means of a baffle. After the structure is placed in a void within a bony structure, cement is injected into the interior of the structure then oozes out in preferred directions according to the locations of the regions of differential permeability.

Abstract: A bone preparation guide including a first patient-specific portion based on image data of a specific patient's bone and configured to match the patient's specific bone surface. A second patient-specific portion is based on image data of the specific patient's bone and configured to match the patient's specific bone surface. A patient-generic portion is configured to be a bone-facing portion supported by the first and the second patient-specific bone contacting members at a portion of the patient's bone surface not imaged during preparation of a preoperative plan.

Abstract: A flexible bone tool comprising a bone tissue removal element configured at a distal end of the tool, at least two links coupled proximally to the bone tissue removal element, the links connected to each other by a radial interference connection in which at least one radially outwards extending protrusion of a first link is received within a recess of a subsequent link. In some embodiments, the links are interconnected by a “snap-fit” connection. In some embodiments, the flexible bone tool is configured for transferring torque at a magnitude sufficient for drilling and/or reaming a bore in a bone.

Abstract: A drill guide includes a shaft, a drill guide assembly securable to the shaft, and a first drill guide insert. The drill guide assembly includes a first drill guide body defining a receiving passage, a locking member, and terminating in a first grasping projection that flexes between open and closed positions. The first drill guide insert installs in the receiving passage and includes a bore, a grasping projection displacement surface, a locking groove, and a key member. The grasping projection displacement surface moves the first grasping projection from its closed position to its open position during installation of the first drill guide insert. Upon installation, the locking groove receives the first grasping projection to lock the first drill guide insert in the first drill guide body, and the key member engages the locking member to prevent rotation of the first drill guide insert within the first drill guide body.

Abstract: An intervertebral support device to impose an anatomic distance between two adjacent vertebral bodies having a pair of vertebral support elements for introduction between the edge portions of the rear half of the vertebrae, at respective substantially symmetrical positions of the instantaneous rotation axis of the natural relative flexion-extension movement of the two adjacent vertebrae. The device assists stabilizing and/or restoring the correct position of the rotation axis, which characterizes the first stage of the degenerative breakdown, without significantly limiting the relative movement of the two vertebrae. The support elements have preferably a constraint means that constrains them to the edge portions of the vertebral bodies, in particular to resist the reaction force on the intervertebral disc.

Abstract: A system for achieving maxillo-mandibular fixation includes a bone fixation device including a bone fixation body formed from a plurality of links. The links define corresponding crests and valleys so as to impart flexibility into the bone fixation body. Thus, the bone fixation body can be aligned with the dental arch of the mandible and maxilla as necessary, and subsequently fastened to the underlying bone. Each bone fixation device includes at least one securement location on the fixation body that can attach to a securement device, such that the securement device fixes or stabilizes the mandible and the maxilla with respect to each other.

Abstract: A fastener assembly that can be used for the fixation or anchoring of orthopedic devices or instruments to bone tissue. In particular, a low profile variable angle or fixed angle fastener assembly is able to securely connect the orthopedic device to bone tissue. The fastener assembly may have a locking mechanism that will quickly and easily lock the fastener assembly with respect to the orthopedic device.

Abstract: Resection guides, implants and methods are disclosed. A guide may include a plate with a first end opposite a second end and a medial portion extending therebetween. The guide may also include at least one opening in the first end of the plate. The guide may further include at least one hole positioned along a longitudinal axis of the plate near the at least one opening. Surgical methods for using the guide for bone and joint fusions is also disclosed.

Abstract: Measuring tool, surgical constructs, and methods for measuring distances between two or more locations. A measuring device allows for simple and accurate intraoperative length measurements to be made. A measuring device has a distal end that can hold a flexible strand in a hole, eyelet, claw, or other suitable means. A shaft of the device has calibration markings on it, with the zero point at the end opposite the distal tip.

Abstract: An apparatus comprises a medial rail having a plurality of openings through the medial rail for receiving pins, screws or wires. An arm is pivotally mounted to the medial rail. The arm has at least a first track on a first side. A post has a connector slidably mounted to the first track of the arm for movement along the first track. A guide is slidably mounted for movement along the post. The guide has at least one opening through it and at least one pin for engaging a bone of a patient.

Abstract: An expandable spinal implant configured for positioning within a space between adjacent vertebral bodies includes an upper body, a lower body, a ratchet mechanism, and a plurality of bone screws. The upper body and lower body are pivotably affixed at a first end and are capable of movement relative to each other. The ratchet mechanism is slidably disposed on one of the upper and lower body and is capable of engaging the opposite one of the upper and lower body thereby permitting movement of the upper and lower body relative to each other in a first direction, but not in a second direction. An insertion instrument capable of being attached to the expandable spinal instrument and a method of performing spinal surgery is also disclosed.

Abstract: In one embodiment, a hinged microfracture awl includes a handle, and a shaft that extends through and from the handle, the shaft being pivotally mounted to the handle with a hinge, wherein a distal end of the shaft includes a sharp tip adapted to pierce bone and a proximal end of the shaft includes an impact head adapted to be struck by a striking tool.