140 results about "Vertebral lamina" patented technology

A prosthetic replacement for a posterior element of a vertebra comprising portions that replace the natural lamina and the four natural facets. The prosthetic replacement may also include portions that replace one or more of the natural spinous process and the two natural transverse processes. If desired, the prosthesis replacement may also replace the natural pedicles. A method for replacing a posterior element of a vertebra is also provided.

The invention discloses methods and devices for repairing, replacing and/or augmenting natural facet joint surfaces and/or facet capsules. A facet joint restoration device of the invention for use in a restoring a facet joint surface comprises: a cephalad facet joint element comprising a flexible member adapted to engage a first vertebrae and an artificial cephalad joint; and a caudad facet joint element comprising a connector adapted for fixation to a second vertebrae and an artificial caudad joint adapted to engage the cephalad facet joint. In another embodiment, the invention discloses a facet joint replacement device for use in replacing all or a portion of a natural facet joint between a first vertebrae and a second vertebrae comprising: a first cephalad facet joint element having a fixation member adapted to engage a lamina or spinous process of the first vertebrae and a first caudad facet joint element, the first caudad facet joint element comprising a first caudad connector adapted to fixate to the second vertebral body and an artificial caudad facet surface adapted to engage with the cephalad facet joint element.

An example apparatus places translaminar screws across a facet joint between adjacent first and second vertebrae in a minimally invasive surgical procedure. The apparatus includes a first K-wire, a second K-wire, a first fixation block, a second fixation block, a support block, a first rod member, a second rod member, and a cannula. The first K-wire is inserted into the spinous process of the first vertebrae. The second K-wire is inserted into a transverse process of the second vertebrae. The first fixation block has perpendicularly extending first and second passages. The first K-wire extends into the first passage in the first fixation block. The second fixation block has perpendicularly extending first and second passages. The second K-wire extends into the first passage in the second fixation block. The support block has perpendicularly extending first and second passages. The first K-wire extends into the first passage in the support block. The first rod member extends through the second passage in the first fixation block and the second passage in the second fixation block. The second rod member further secures the first and second fixation blocks to the first and second vertebrae. The second rod member extends through the second passage in the support block. The cannula enables implantation of the translaminar screws across a facet joint between the first and second vertebrae.

A trans-vertebral and intra-vertebral plate and a rectangular cage with a slot for the plate of spinal fixation device are for neutralizing intervertebral movement for the spinal interbody fusion. The rectangular cage with a vertical or oblique slot is inserted into the intervertebral space from the lateral or anterior side of the spinal column and then the plate is inserted through the slot of the cage and hammered into and buried inside two adjacent vertebral bodies, to achieve three-dimensional intervertebral fixation.

A total artificial spinous process (spino)-laminar prosthesis (TASP-LP) including a body having a portion forming a spinous process extending away from the body, a first lamina portion extending from a first side of the body, and a second lamina portion extending from a second side of the body, wherein the first lamina portion and the second lamina portion are disposed on opposite sides of the spinous process.

An orthopaedic device to realign bone segments comprises first and second attachment members and a strut or spacer member. The first attachment member is attached to a first rib bone or first transverse process or first lamina of a vertebra. The second attachment member is attached to a second rib bone or second transverse process or second lamina of a vertebra. The strut is positioned between the first and second attachment members. The strut is fixedly or releasably connected to the first and second attachment members to couple the first attachment member to the second attachment member. The strut provides distraction between the first and second rib bones or transverse processes to realign the rib bones. The attachment members comprise a clamp and screw combination.

An implant of the intersomatic cage type, for fusion of vertebral bodies by a transforaminal approach, is disclosed that comprises a body with a curved profile that is designed to be implanted between the vertebral plates of two adjacent vertebrae. According to the invention, said body of curved profile comprises a posterior maneuvering part and an anterior attack part, said anterior attack part being composed of a lower tongue and of an upper tongue that are designed to receive between them a spacer element that can slide between a position of introduction, in which it is situated near said posterior maneuvering part, and a spacing position, in which it is situated near the end of said anterior attack part, thus increasing the thickness of the latter by spreading the tongues apart, said spacer element comprising a receiving seat that is open at the top and bottom.

Provided is a novel system that includes a low profile anterior vertebral body plate and quick lock screws for the fixation and stabilization of the cervical spine, the quick lock screw having an integral novel screw locking mechanism of a locking thread disposed on at least a portion of the side of the screw head, which engages an inwardly directed screw hole flange and thus attaches to the plate so as to lock the screw into the plate Also provided is a method of stabilizing cervical vertebrae using the disclosed system.

A posterior cervical vertebral stabilizing system is disclosed. The system includes a device comprising an upper portion for positioning adjacent to a relatively superior vertebra of a patient's spine and a lower portion for positioning adjacent to a relatively inferior vertebra of the patient's spine. The upper portion forms a support for abutting the posterior surface of the superior vertebra and the lower portion forms a saddle for engaging a spinous process of the inferior vertebra. The device has an anterior face that, at each of the upper and lower portions, has a radius of curvature about an axis. The system includes a method of affixing the device to a spine of a patient by positioning the device posteriorly of the relatively superior and relatively inferior vertebrae, and looping cable about the device and the lamina of the vertebrae. The method may also include promoting fusion of the vertebrae together.

An in-situ formed laminoplasty implant comprising an expandable bag containing a flowable, hardenable composition, wherein the implant may be shaped to act as a laminoplasty strut and be rigidly connected to a prepared lamina space.

This implant includes two elongated elements (1, 2) of reduced width, defining, at their edges, two longitudinal surfaces opposite each other. These elements (1, 2) being intended to be positioned between the vertebral plates (101) of the vertebrae, apart from each other, with their longitudinal surfaces in contact with the vertebral plates (101. Elements (1, 2) have curved shapes, having substantially the same curvature from one element (1, 2) to the other, and one of the elements (2) has a length smaller than that of the other element (1), the element (2) with the smaller length being intended to be placed in the anterior position on a vertebral plate (101) while the element (1) with the larger length is intended to be placed in the posterior position on this same vertebral plate (101).

The invention discloses an inner elastic fixer of vertebral spinous process. The fixer comprises a U-shaped elastic strip (1) and a U-shaped clip (2) arranged at both sides of the U-shaped elastic strip. The invention is characterized in that lateral wings (3) are arranged at both sides of the bottom of the U-shaped elastic strip (1) respectively, the lateral wings (3) extend along the negative direction of a U-shaped opening and a tapping screw hole (5) is arranged on each lateral wing (3). The invention fastens a fixed bolt on the upper spinous process and the lower spinous process by the U-shaped clip and adopts the tapping screw hole to fix the lateral wing on a vertebral lamina at the root of the spinous process, thus greatly reducing force acting on the spinous process so as to improve the stability of fixing and effectively prevent the fracture and incision of the spinous process.

Provided is a novel system that includes an anterior vertebral body plate, suture lock bone screws, and an elongated suture lock to provide an interconnection for said bone screws, such that said system can be used for the fixation and stabilization of the cervical spine, the suture lock bone screws being connected one to the other by the elongated suture lock are prevented from unintentionally backing out of said plate. Also provided is a method of stabilizing cervical vertebrae using the disclosed system.

The invention discloses a universal omni-posterior-double lateral mass bridging board for cervical vertebra. The bridging board is in an arched whole made of a narrow and long metal plate, and comprises two lateral mass fixing plates, two vertebral lamina fixing plates, a spinous platform fixing plate and a bone grafting fixing plate. The bridging board is mainly used for reconstructing a vertebral canal structure after posterior expansive laminoplasty of cervical spine, can simultaneously fulfill fixation of open door side and hinge side in the expansive laminoplasty, the length of each fixing plate and angles among the fixing plates are in accordance with the characteristics of human cervical vertebra dissection; the bridging board has strong biological attachment and can furthest resist posterior pressure, so that the expansive laminoplasty failure caused by crack reclosing at the vertebral open door side and hinge fracture is avoided; the whole structure adapts to the posterior anatomy structure of human cervical vertebra and the characteristics of biological mechanics; and the bridging board can be pre-bent properly in use. The universal omni-posterior-double lateral mass bridging board for cervical vertebra is expected to replace the conventional posterior cervical single open door fixing plate to become a clinical standard postoperative physiology and stability reconstructing method after the posterior cervical single open door expansive laminoplasty.

A bone fracture plate formed by a vertebral plate comprises a reticular frame for holding a bone grafting material. The reticular frame comprises a bottom surface facing to the inner cavity of a vertebral canal, an upper side face and a lower side face. The top surface of the reticular frame is used for implanting and tamping the opening of the bone grafting material. The inner side face of the reticular frame is provided with an inner opening used for the connection of the broken ends of the vertebral plate and the bone grafting material inside the reticular frame. The outer side face of the reticular frame is provided with an outer opening used for the connection of the broken ends of a lateral mass of a cervical vertebra and the bone grafting material inside the reticular frame. The inner side on the top surface of the reticular frame is provided with a first mounting plate fixedly connected with the broken ends of the vertebral plate and the outer side on the top surface of the reticular frame is provided with a second mounting plate fixedly connected with the broken ends of the lateral mass. The invention has the advantages that the invention is capable of effectively and adequately grafting bone, preventing grafted bone piece from falling into the vertebral canal after surgery, and also preventing a callus from proliferating and protruding towards the vertebral canal.

The present invention relates to a prosthesis including a first component that delimits a single central housing, including a bottom forming a first articular surface, a peripheral wall and, at a distance from the bottom, an edge extending inwards, a peripheral supporting surface, and on the side turned towards said bottom a second articular surface; and a second component including a plate intended to come into contact with the vertebral plate of the relevant vertebra and a single central pin with a widened head.