APPLIED SPINE TECHNOLOGIES, INC. Patent applications |
Patent application number | Title | Published |
20100222819 | Integral Spring Junction - Spinal stabilization devices, systems and methods are provided that include a spring junction wherein a structural member is mountable to a spine attachment fastener and a resilient element is affixed to the structural member along an attachment region of the resilient element. The attachment region is disposed physically separately with respect to an active region of the resilient element. The attachment region can include a weld region produced via an E-beam welding process involving temperatures of 1000° F. or greater, wherein a heat-affected zone adjacent the weld region is disposed physically separately with respect to the active region. The resilient element may be a coil spring including bend regions adjacent its outermost (i.e., last) coils wherein the material of the coil spring initially bends away from the last coil, then bends back toward the last coil before terminating near the last coil. | 09-02-2010 |
20100174317 | Dynamic Spine Stabilizer - A dynamic spine stabilization device is provided that includes at least one force imparting member, e.g., a spring. The force imparting member is adapted to deliver a force of between about 150 lb/inch and 450 lbs/inch, and restrict the relative travel distance between said first and second pedicles to a distance of between about 1.5 mm and 5 mm. The spinal stabilization devices also have a minimal impact on the location of the center of rotation for the spinal segment being treated. By providing resistance in the noted range and restricting the travel distance to the noted range, it has been found that the stabilization device provides a desired level of stabilization, as reflected by range of motion values that closely approximate pre-injury range of motion levels. In addition, the resistance levels are not so high as to alter the location of the center of rotation of the treated spinal segment from its normal anatomical location to levels previously obtained, thereby permitting substantially unimpeded angular motion despite the posterior presence of a stabilization device. | 07-08-2010 |
20090177196 | Medical Instrument For Rod Positioning - Apparatus, systems and methods relating to manipulation, e.g. pivoting, of a rod-shaped element using a rod positioning assembly are disclosed. A rod-shaped element is initially gripped axially (relative to and) by a rod positioning assembly and then pivoted into a transverse orientation without pivoting the rod positioning assembly and/or releasing the rod-shaped element. Rod positioning assemblies include a handle element and a pair of jaw elements in communication therewith. The jaw elements are positioned distally relative to the handle element and the handle element is adapted to effect relative motion between the first and second jaw elements. The abutment faces of the jaw elements define a pair of axially aligned notches at or near the distal ends of the first and second jaw elements, a pair of traversely aligned central wells that define a circular opening that extends transversely across the jaw elements, and a pair of grooves that open up to a single transverse side of the jaw elements. | 07-09-2009 |