Surgery – Instruments – Orthopedic instrumentation
Reexamination Certificate
2000-10-18
2003-12-02
Dvorak, Linda C. M. (Department: 3739)
Surgery
Instruments
Orthopedic instrumentation
C606S060000, C606S064000
Reexamination Certificate
active
06656179
ABSTRACT:
BACKGROUND OF THE INVENTION
This application claims a priority from German application 199 50 252.8-35, filed Oct. 18, 1999, and the contents of that priority application are incorporated herein by reference.
This invention relates to a bone plate for osteosynthesis having a plate-like base and a top, with the base having a receiving opening for retaining a bone screw that attaches it, for example, to a vertebra, with a screw head of the bone screw being received by the receiving opening.
Bone plates for osteosynthesis are generally known. Such bone plates are attached, for example, to vertebrae, in order to stabilize the vertebrae. In this regard, individual bone plates are connected to each other by rods, with the rods being attached to, specifically fixedly clamped into, the bone plates. Bone screws that pass through the bone plates and are screwed into the vertebrae are used for attaching the bone plates to the vertebrae. The bone plate is generally secured by the screw head.
It is generally recognized that, particular in thoracic applications, bone plates having small structural lengths are preferable. Additionally, the bone plates should have small overall heights. However, these requirements are not fulfilled by bone plates that are attached to bones by pluralities of bone screws, particularly to vertebrae.
It is an object of this invention is to provide a bone plate that can be used problem-free for thoracic application.
SUMMARY OF THE INVENTION
According to principles of this invention, a base of a bone plate of the type set forth in the opening paragraph above has only one receiving opening therein.
The bone plate of the invention is, therefore, driven into the bone in a conventional manner, and fastened thereto by a bone screw. However, only a single bone screw inserted into the single receiving hole provided for it is used for the fastening. The bone screw secures the bone plate to the bone by this receiving opening. Since only a single bone screw is used, only one receiving opening is required, so that an overall length of the bone plate is significantly reduced. Thoracic use of this bone plate, therefore, causes no problems at all.
An enhancement provides that the base has a receiving area for the setting rod, and the receiving opening is positioned within this receiving area. In this way, no additional areas are needed in which receiving openings for the bone screw must be positioned. Because the receiving area for the setting rod is located in the base anyway, the receiving opening for the screw head of the bone screw can also be placed there.
Specifically, the receiving opening is located at, but below, the setting rod. Therefore, the setting rod extends above the screw head of the bone screw. This permits optimal transmission of force of those forces exerted by the setting rod to the bone, without subjecting the bone plate to high levels of moment, which would also have to be supported.
Positioning the receiving opening symmetrically within the receiving area also contributes to this. The receiving opening is located preferably on the center line of symmetry, that is in a symmetrical vertical center plane of the bone plate.
Preferably the receiving opening is structured as a countersunk receptacle for a countersink-formed screw head of the bone screw. The receiving opening is also preferably spherically-formed and the screw head of the bone screw is spherically shaped. In this way, on the one hand, the base of the bone plate is optimally fastened, and on the other hand, only minimal overall height is required for receiving the screw head.
In one embodiment, the receiving opening has a surface structure over at least a partial area of a surface which faces toward the screw head.
Because of the surface structure in the receiving opening, against which the screw head lies, a retaining effect, that is in a screwing out direction, is achieved for the screw head. The bone plate is thus not only connected by a force fit with the screw head, but also with a form fit. Owing to this form-fit connection, a risk of the screw loosening, that is losing its firm hold in the bone, is reduced. Moreover, there remains, as before, a connection between the screw head and bone plate even if the bone changes its shape in the area where it bears on the bone plate.
The receiving opening is preferably circular in shape. Such openings allow the screw head to be screwed in and fit closely without any problems.
Although the surface structure must be provided only over a partial area of a perimeter forming the receiving opening, in a preferred embodiment the surface structure extends over the entire inner perimeter forming the receiving opening. This has the significant advantage that the head of the bone screw is likewise secured over its entire outer perimeter, since it is formed-locked anchored in the receiving opening.
A further enhancement provides that the area of the receiving opening facing away from the bone has a surface structure. Particularly in spherically-shaped receiving openings in which a spherically-shaped head of the bone screw is lodged, a nearly perpendicular, i.e. minimally inclined, area of the receiving opening facing away from the bone has the surface structure, at which a holding of the screw head is more secure than in the inclined area. In the area that runs essentially perpendicular to the screw axis, the screw head moves essentially parallel to and along the inner surface of the receiving opening when the screw is being screwed in. Only immediately at the end of the screwing-in process does the lower area of the screw head rest upon the inclined section of the dome-shaped receiving opening, thereby securing the bone plate to the bone.
Preferably, in the circumferential direction, the surface structure has a structural grain. In this way, an inhibition of movement is achieved in the circumferential direction, that is, in the rotational direction of the screw.
Preferred embodiments provide that the surface structure is in the form of longitudinal grooves, teeth, ribs, or similar structures. It is also conceivable that the surface structure is provided by roughening of the surface.
A preferred embodiment provides that the longitudinal grooves or teeth are structured in the form of sawteeth. In this arrangement, each sawtooth of a saw-toothed area has one steep and one flat flank. In order to inhibit movement of the screw in the unscrewing direction, the flat flank rises in the screw-in direction of the bone screw. Therefore the bone screw can be screwed in relatively easily, and is secured against becoming unscrewed by the steep flank of the sawteeth.
This inhibition of movement is optimized in that the screw head has a surface structure that supports this inhibition of movement. Specifically, the screw head may also have grooves running in a longitudinal direction, or similar arrangements. Sawteeth are also conceivable.
REFERENCES:
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patent: 5662652 (1997-09-01), Schafer et al.
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patent: 5882350 (1999-03-01), Ralph et al.
patent: 5925047 (1999-07-01), Errico et al.
patent: 5947969 (1999-09-01), Errico et al.
patent: 6106526 (2000-08-01), Harms et al.
patent: 6302888 (2001-10-01), Mellinger et al.
patent: A119509331 (1996-09-01), None
Chan Donald
Halm Henry
Liljenqvist Ulf
Schaefer Bernd
Dvorak Linda C. M.
Schaefer Bernd
Schopfer Kenneth
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