Abstract: Surgical dilators with tips having curved tapers and with a minimal distance between the distal and proximal ends of the dilator tips provide for precision placement of miniature medical devices at a target area in a body with reduced insertion force. A contour of a longitudinal cross section of the dilator tip comprises a first convex portion extending from the distal end to a first interface; a concave portion extending from the first interface to a second interface; and a second convex portion extending from the second interface to a third interface at the proximal end. The first convex portion and the second convex portion are convex relative to an interior of the tip and the concave portion is concave relative to the interior of the tip.

Abstract: An interface for coupling with a percutaneously implantable lead is described. The interface includes a rotation based system to engage the terminal connector of the lead. The interface includes a brake which retains the lead in the lead port through friction, but allows the lead to exit the lead port if sufficient force is applied. The interface can be coupled with the lead without removing a stylet or stiffening wire from the lead.

Abstract: The invention is a hollow electrode implantation device for inserting a flexible electrode, such as a Memberg electrode, in living tissue. The inserter has a longitudinal slot that accepts the electrode into the hollow center of the electrode implantation device. The slot is offset at least once forming one or more offset slots, where retainer tabs define the slots and assure retention of the electrode in the implantation device during insertion of the electrode into living tissue.

Abstract: Surgical dilators with tips having curved tapers and with a minimal distance between the distal and proximal ends of the dilator tips provide for precision placement of miniature medical devices at a target area in a body with reduced insertion force. A contour of a longitudinal cross section of the dilator tip comprises a first convex portion extending from the distal end to a first interface; a concave portion extending from the first interface to a second interface; and a second convex portion extending from the second interface to a third interface at the proximal end. The first convex portion and the second convex portion are convex relative to an interior of the tip and the concave portion is concave relative to the interior of the tip.

Abstract: Suture tracking dilators and methods for removing implanted medical devices such as microstimulators or microsensors from living tissue are described. A suture tracking dilator has a slit running along its axial length. The slit can have a curved portion. A suture is attached to a medical device prior to its implantation. To remove the implanted medical device, the free end of the suture is exposed and inserted in the slit in the suture tracking dilator. The suture is held under tension at its free end, the dilator is inserted in the living tissue and the dilator follows the suture to the implanted medical device. The medical device is removed by pulling on the free end of the suture.

Abstract: A medical instrument, particularly a surgical instrument with a displaceable push/pull activation tube arranged on the proximal end of a hand manipulator, that also contains an inner tube for retaining a fixed jaw, for activating remote tool parts on the distal end, in which a force-limiting device limits the transmission of force to the remote tool parts from the hand manipulator via an extendable coil spring. The medical instrument optionally features a fiber scope to enable optical viewing to locate the implanted device for removal as well as a saline flush capability. The instrument has jaws that are cylindrical in shape to facilitate grasping an implanted cylindrical device.

Abstract: Disclosed are a method and apparatus for initializing an additive process computer-controlled three-dimensional modeling machine which builds models on a modeling platform. The method, without operator intervention, senses the top surface of a substrate or other object mounted on the platform at a variety of preselected x, y locations and records the z-axis positions of the platform corresponding to the sensing of the object. Using the recorded z-axis positions, a z-start position for the modeling platform is calculated. The platform can be automatically placed at the calculated z-start position. The recorded z-axis positions can further be used to define a plane fitted to the substrate top surface. Optionally, the model can be built in a coordinate system defined by the plane.

Abstract: A system for mounting a slab substrate in a three-dimensional modeling machine includes two parallel rails positioned on opposite sides of a modeling platform. A blade extends along each rail, each blade having an inward-facing knife edge. A slab substrate having a width which approximates the distance between the two rails and having slits in its sides is loaded in the machine by lining up the slits, respectively, with each blade and pushing the substrate towards the rear of the platform as the knife edges cut into the substrate. Preferably, the platform includes a rear stopper to stop rearward motion of the substrate. The platform preferably also includes a retaining means at its front edge that is actuated to lock the substrate into place on the platform during modeling. The substrate is removed from the platform by deactuating the retaining means, if any, grasping the substrate, and sliding the substrate towards the front of the platform.