A dual-motion rotation and retraction system for forming a pathway to a patient's intervertebral disc space includes a dilator, retractable dual-blade assembly, and dual-motion retractor. The dilator may feature a narrow rectangular, elliptical, or elongated configuration body for insertion parallel to the fibers of the psoas muscle, including an angle of 0 to 90 degrees to the patient's spine. The dual-blade assembly includes opposing blade subassemblies, each having a blade bordered by adjustable wings, along with built-in lighting and video capabilities. The dual-blade assembly may be passed over the dilator at the insertion orientation. The dual-motion retractor may be disposed about the dual-blade assembly and dilator and employed to both rotate the dual-blade assembly and the dilator 0 to 90 degrees to a final rotated orientation parallel to the intervertebral disc space and to retract the opposing blade subassemblies away from one another to create the surgical pathway. Other embodiments are also disclosed.

Arthroplasty jigs and related methods are disclosed. Some of the arthroplasty jigs may comprise a jig body that is configured to align with a surface of a bone, and a positioning component. Certain of the methods may comprise providing such an arthroplasty jig, and aligning the jig body with a surface of a bone so that the positioning component provides at least one of a visible, audible, or tactile indication that such alignment has been achieved. Some of the arthroplasty jigs may comprise a jig body that is configured to align with a surface of a bone, and that is marked with identifying information. Certain of the methods may comprise providing an arthroplasty jig comprising a jig body that is configured to align with a surface of a bone, or providing an arthroplasty jig blank, and marking the arthroplasty jig or the arthroplasty jig blank with identifying information.

A system for guiding a surgical instrument during a medical procedure is disclosed. The system includes a collar device having both a radiopaque marker and a laser light source, and an instrument-guiding device having at least one inclinometer and is coupled to a surgical instrument for use during the medical procedure. The collar device is configured to couple to a radiographic imaging system and providing a laser replication of a surgical reference plane, and the instrument-guiding device is configured for alignment with the surgical reference plane and an instrument angle for guiding the surgical instrument along a surgical axis between a skin entry point and a target.

A lateral retractor system for forming a pathway to a patient's intervertebral disc space includes a single dilator and a retractable dual-tapered-blade assembly. The dilator may feature a narrow rectangular body for insertion at an insertion orientation parallel to the fibers of the patient's psoas muscle, at an approximate 45-degree angle to the patient's spine. The retractable dual-tapered-blade assembly consists of only two blade subassemblies, each having a blade bordered by adjustable wings, along with built-in lighting and video capabilities. The dual-tapered-blade assembly may be passed over the single dilator at the insertion orientation and rotated approximately 45-50 degrees to a final rotated orientation parallel to the intervertebral disc space before the two blade subassemblies are retracted away from one another to create the surgical pathway, while simultaneously and continuously assessing for encroachment upon one or more nerve structures within 360-degrees of the instrument. Other embodiments are also disclosed.

Disclosed is a surgical ancillary device, preferably Y-shaped, including three contact portions intended to come into contact with three corresponding reference areas of an operation area, and a unit for determining an orientation coordinate system of the ancillary device in a Galilean orientation coordinate system. At least one of the first and second contact portions, and preferably both, includes a concave or convex end, for example a roller that is optionally mounted so as to be rotatably movable, or a gutter-shaped element. Each end comes into contact with two reference points in the corresponding reference area, which is respectively convex or concave. These two points accurately guide the rotation of the ancillary device in order to bring the third contact portion into contact with the third reference area. The orientations of the ancillary device define the orientation coordinate system, the determination of which can therefore be accurately reproduced.

A medical device having a body having a first bubble vane for measuring angle in one plane; said body having a second bubble vane for measuring an angle in another plane; said first bubble vane having angle indicia; said second bubble vane having angle indicia; said one plane being the in a different plane from said another plane and the angles in the two planes providing the entry point for an incision for the placement of an orthopedic device.

A lateral retractor system for forming a pathway to a patient's intervertebral disc space includes a single dilator and a retractable dual-tapered-blade assembly. The dilator may feature a narrow rectangular body for insertion at an insertion orientation parallel to the fibers of the patient's psoas muscle, at an approximate 45-degree angle to the patient's spine. The retractable dual-tapered-blade assembly consists of only two blade subassemblies, each having a blade bordered by adjustable wings, along with built-in lighting and video capabilities. The dual-tapered-blade assembly may be passed over the single dilator at the insertion orientation and rotated approximately 45-50 degrees to a final rotated orientation parallel to the intervertebral disc space before the two blade subassemblies are retracted away from one another to create the surgical pathway, while simultaneously and continuously assessing for encroachment upon one or more nerve structures within 360-degrees of the instrument. Other embodiments are also disclosed.

A lateral retractor system for forming a pathway to a patient's intervertebral disc space includes a single dilator and a retractable dual-tapered-blade assembly. The dilator may feature a narrow rectangular body for insertion at an insertion orientation parallel to the fibers of the patient's psoas muscle, at an approximate 45-degree angle to the patient's spine. The retractable dual-tapered-blade assembly consists of only two blade subassemblies, each having a blade bordered by adjustable wings, along with built-in lighting and video capabilities. The dual-tapered-blade assembly may be passed over the single dilator at the insertion orientation and rotated approximately 45-50 degrees to a final rotated orientation parallel to the intervertebral disc space before the two blade subassemblies are retracted away from one another to create the surgical pathway, while simultaneously and continuously assessing for encroachment upon one or more nerve structures within 360-degrees of the instrument. Other embodiments are also disclosed.

Disclosed is a surgical ancillary device, preferably Y-shaped, including three contact portions intended to come into contact with three corresponding reference areas of an operation area, and a unit for determining an orientation coordinate system of the ancillary device in a Galilean orientation coordinate system. At least one of the first and second contact portions, and preferably both, includes a concave or convex end, for example a roller that is optionally mounted so as to be rotatably movable, or a gutter-shaped element. Each end comes into contact with two reference points in the corresponding reference area, which is respectively convex or concave. These two points accurately guide the rotation of the ancillary device in order to bring the third contact portion into contact with the third reference area. The orientations of the ancillary device define the orientation coordinate system, the determination of which can therefore be accurately reproduced.

A subcutaneous tunneling tool comprises an elongated shaft that may be inserted through an incision in a patient to create a subcutaneous tunnel under the patient's skin. The subcutaneous tunneling tool also comprises a guide mechanism secured to a proximal end of the elongated shaft, wherein the guide mechanism is configured to project a light beam aligned with the elongated shaft toward the elongated shaft. When at least a distal end of the elongated shaft is positioned beneath a patient's skin, the light beam is projected onto an external surface of the patient's skin, aligned with the elongated shaft such that the light beam may be used to guide the elongated shaft along a desired tunnel path.