Surgery – Instruments – Orthopedic instrumentation
Reexamination Certificate
2001-09-10
2003-09-09
Shaver, Kevin (Department: 3732)
Surgery
Instruments
Orthopedic instrumentation
C606S075000
Reexamination Certificate
active
06616670
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a bone nail having openings for receiving one or more transmitting units which emit signals at a predetermined distance from and in a predetermined alignment relative to cross-bores in the nail and to an apparatus for applying an electrical excitation signal to the transmitting units in the form of signal generators disposed in the bone nail.
It is known to use so-called locking nails to treat bone fractures in tubular bones. These nails have cross-bores through which bone screws are passed in order to retain the bone fragments on the bone nail and to secure the fragments from being displaced and distorted. Before the bone screws can be turned in it is necessary to drill holes into the cortical mass. These holes must be aligned with the cross-bores of the bone nail in a relatively precise way.
Numerous methods and apparatus have been developed to find the point where a bore for the bone screw should be placed. Most aim-taking instruments operate according to the principle of X-ray examination. The operator can determine the location of the cross-bores in the bone nail within the bone on the screen and can place the drill accordingly. However, mechanical aiming instruments are also known which can be positioned onto the free end of the bone nail. The spacing of the cross-bore from the end of the bone nail is known. The rotational position of the cross-bore can also be indicated by an appropriate marking at the end of the bone nail. Then, the cortical mass may be drilled through by means of a suitable aiming sleeve. Neither the patient nor his operator will be exposed to X-ray radiation when the mechanical aiming instrument is used in lieu of the X-ray examination process. The disadvantage of the mechanical aiming instrument is that any distortion of the nail, while being driven in, causes deviations in the location of the cross-bores which cannot be detected by the aiming instrument.
An aiming instrument for locking screws used in bone nails in medullary bones has become known from U.S. Pat. No. 5,411,503, the teachings of which are incorporated herein by reference. In this method, a pointed guide bar is introduced into the hollow bone nail. The pointed guide bar is provided with two oscillating circuits at its distal end. The pointed guide bar has a stop at its proximal end. To position an aiming instrument, the pointed guide bar is completely inserted into the bone nail which was driven in with the stop member resting on the proximal end of the nail. The two oscillating circuits at the distal end of the bar are excited and the electromagnetic field which they emit is detected by appropriate sensors on an aiming instrument. The aiming instrument is aligned in the field of the oscillating circuits in such a way that a guide channel connected thereto for the drill is aligned on the one nail according to the cross-bore. This apparatus has the disadvantage that a distortion or upsetting of the bone nail which occurs while the nail is driven in cannot be taken into account like for the previously described mechanical aiming instruments.
From U.S. Pat. No. 5,584,838, the teachings of which are incorporated herein by reference, a bone nail is shown having a hollow shank into which a member having a single oscillating circuit is inserted. The nail is driven into the bone with the member inserted so that the aforementioned disadvantages of the nail getting distorted cannot occur. However, a nail formed in such a way requires a comparatively expensive aiming instrument to align the drill since only a single oscillating circuit is used in the nail. What further proves to be a disadvantage is that the oscillating circuit must be disposed accurately in the channel of the cross-bore in order that the location of the cross-bore may be precisely detected. The member which was inserted is removed again after the channel of the cross-bore is detected.
SUMMARY OF THE INVENTION
It is the object of the invention to provide a bone nail wherein the location of its cross-bores can reliably be determined by simple means after it is driven in.
According to the invention, the bone nail has a hollow shank which is provided with at least one cross-bore to receive a bone screw and the like. In the area of the cross-bore, the shank is fitted with a retaining device for at least one signal generator which is adapted to emit signals at a predetermined spacing from and in a predetermined alignment relative to the cross-bore. The signals can be detected by means of an aim-taking instrument which is introduced by the operator outside the nail. The position in an axial direction and the alignment of the cross-bore can be determined with reference to the position and orientation of the radiation emitted. The signal generator can be provided as a passive or active component. In a preferred embodiment the signal generator is a passive oscillating circuit. Also a transponder can be provided as a passive component. The signal generator generates and emits a signal in response to an electrical excitation signal. The excitation signal is applied to the signal generator by means of a guide bar with an electrical conductive tip. The emitted signal is detected from the outside of the bone by the aiming instrument.
The retaining device has an insert disposed in the shank. Preferably, the insert is in a sleeve-like fashion and, on its inner wall, is provided with recesses or through openings to receive one signal generator for each retaining device each. The insert is aligned in the shank of the bone nail, which allows for determining the bore location after the nail is driven in. Since at least two signal generators are preferably used in the insert the aiming instruments used are of a comparatively simple structure. The signal generators need not be disposed in a flush relationship with the cross-bore, but may be disposed and aligned at spacings in the shank. Because a sleeve-shaped insert having a through passage is preferably used and the signal generators are disposed in the insert wall a free through passage will remain in the shank and, for example, will permit the driving in of the bone nail along a pointed guide bar. In the inventive bone nail, the signal generators will permanently remain in the bone nail.
In order to ensure the correct alignment of the insert in an axial direction after the nail is driven in, the shank has formed therein an inwardly projecting shoulder or protrusion on which the insert introduced into the shank bears in an axial direction. The insert finishes in a flush fashion with the inner wall of the shank so that an inner wall is formed which substantially is continuously flat. Preferably, the insert is provided at the proximal end of the insert so that this one is supported on the shoulder during the drive-in operation.
For an alignment of the insert in a radial direction, the insert is provided with bores extending transversely to the longitudinal direction and are aligned in the shaft according to the cross-bores. The bores in the insert allow the alignment of the insert in its inserted condition in the shaft according to the bores, which causes the transmitting devices in the insert to be aligned in a way dependent on the bores.
Preferably, the retaining member additionally has a sleeve-shaped contact member which covers one or more recesses or through openings for the signal generator. The contact member is connected to the signal generator in an electrically conductive way, and is electrically insulated with respect to the insert. Such a contact member increases the contact surface of the transmitting device. Preferably, the signal generator additionally connects to the wall of the bone nail as a second contact. The transmitting device introduced in the insert also is electrically insulated from the insert here. In this embodiment, a current flows across the contact element and through the signal generator and into the wall of the bone nail.
The object according to the invention is also achieved by a bone nail including a shank which
Füllgraf René
Simon Bernd
Lerner David Littenberg Krumholz & Mentlik LLP
Priddy Michael B.
Shaver Kevin
Stryker Trauma GmbH
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