Device for shortening an elongated bone

The invention relates to a device (1) for shortening an elongated bone, in particular an ulna, comprising a bone plate (5) to be attached to the bone with a hole (6) for a fastening element for fixing the bone plate (5) on the bone and a slot offset longitudinally thereto for a holding element (9) that can be fastened in the bone, so that after the bone has been severed and a piece of bone has been removed in the region between the hole (6) and the slot, bone parts can be guided together by the displacement of the bone plate relative to the holding element (9). In order to create a device (1), which is constructed with a small space requirement and permits a highly accurate guiding together of the bone parts, it is provided according to the invention that a block (12) with an opening (13) for the holding element (9), which opening is elongated in plan view and lies above the slot, is arranged on the bone plate (5) in the region of the slot, wherein a unit (14) is arranged in the opening (13), against which unit the holding element (9) rests in the displacement direction and relative to which a remaining part of the block (12) can be displaced with the aid of a provided adjustment element (15).

The invention relates to a device for shortening an elongated bone, in particular an ulna, comprising a bone plate to be attached to the bone with a hole for a fastening element for fixing the bone plate on the bone and a slot offset longitudinally thereto for a holding element that can be fastened in the bone, so that after the bone has been severed and a piece of bone has been removed in the region between the hole and the slot, bone parts can be guided together by the displacement of the bone plate relative to the holding element.

A limited freedom of movement of a person's wrist can be caused by an excessive curvature of an ulna. One way of correcting this and thereby increasing the freedom of movement of the wrist, is to shorten the ulna. The procedure in this case is to sever the ulna at two points along parallel planes, after severing, a piece of bone of the ulna is removed and thereafter the bone parts are guided together in the region of the parallel planes. Subsequently, the bone parts grow together in the region of the planes guided together, so that after the bone parts have grown together, the ulna is shortened and less markedly curved.

A shortening of an ulna must be carried out with high precision so that only the curvature thereof is corrected, but defective positions are not caused by the procedure performed, e.g., a twisted position of the temporarily severed bone parts due to twisting of the bone parts while being guided together and while the said bone parts are subsequently growing together.

According to the prior art, various devices have already been proposed for shortening an ulna. From printed publication US 2005/0277941 A1 a bone plate is known, which remains fastened to the bone after the ulna has been shortened and is equipped with additional devices, which during a removal of a piece of bone interact with the bone plate and are used to hold separated bone parts which are present after the removal of a piece of bone, and to guide them together. These devices comprise a guide device for a saw for producing parallel cuts in the bone or for severing the same. Furthermore, holding elements are provided in the form of nails, which are placed in slots of the bone plate and are fastened in the bone. The bone plate is fastened to the bone in at least one further position with a screw in a shear-resistant manner. After the bone has been severed and a piece of bone has been removed, a forceps is placed on the bone plate in the fastened region, and the separated bone parts are guided together, wherein the forceps can engage in a further position on the provided nails, which serve as a holder, so that the bone plate is moved with one bone part relative to the nails located in the provided slots and the other bone part. Although a device of this type allows bone parts to be guided together, it is disadvantageous that a shortening of an ulna with this device can hardly be carried out by a single person or cannot be carried out by a single person at all. Namely, the bone plate still needs to be fixed on one bone part after the bone parts have been guided together. However, at the same time it is necessary to keep the bone parts in contact with the forceps, which is why the handling during a shortening of an ulna or an operation is difficult. Furthermore, manual guiding together with the aid of the forceps is a potential source of errors, since there is no exact control of the guiding together of the bone parts.

A device is known from printed publication U.S. Pat. No. 4,929,247, which likewise can be used in the shortening of an ulna. This device comprises a bone plate with several holes for fastening the bone plate to the bone as well as a slot. In addition, the device comprises two blocks, which are attached to the bone on both sides of a piece of bone to be removed with long retaining pins, wherein a retaining pin is guided through the slot. Finally, the two blocks arranged projecting upwards on the bone plate in a perpendicular manner are connected with two screws running parallel to the bone plate or horizontally, through which the blocks can be moved relative to one another. If a piece of bone has been removed in the region between the blocks, the adjustment screws are actuated and the bone parts are thereby moved towards one another. Thereafter the bone plate is fixed to the bone and the blocks are removed from the bone plate by releasing the retaining pins. However, it is a disadvantage with this device that it requires a large amount of space due to the two blocks that are necessary, which can lead to disadvantages in handling the device during an operation, since in an operation only a small incision is generally desirable, and therefore available space is small.

From U.S. Pat. No. 5,042,983 a cutting device is known for removing a piece of bone of an ulna. This device is used in conjunction with a device according to previously cited document U.S. Pat. No. 4,929,247. The cutting device is positioned on a supporting plate, which corresponds to the bone plate according to document U.S. Pat. No. 4,929,247. In a first step, the cutting device is fastened to the bone in predetermined positions with the corresponding supporting plate. After the bone has been severed and a piece of bone has been removed, the cutting device or the supporting plate is removed and the bone plate according to document U.S. Pat. No. 4,929,247 is placed in order to guide the bone parts together. However, it is disadvantageous in this approach that, in addition to the disadvantages mentioned above, the bone plate has to be fastened with positional accuracy in those holes in which the supporting plate of the cutting device was also previously positioned, which is associated with an uncertainty with regard to the position of bone parts present separated from one another during the guiding together of the same.

A removal of a piece of bone of an ulna and a subsequent arrangement of a device together with a bone plate and a guiding together of bone parts in two separate steps or with two separate devices is also known from document US 2007/0276383 A1.

The object of the invention is to disclose a device of the type mentioned at the outset which is constructed with a small space requirement and permits a highly accurate guiding together of the bone parts.

This object is attained with a device of the type mentioned at the outset when a block with an opening for the holding element, which opening is elongated in plan view and lies above the slot, is arranged on the bone plate in the region of the slot, wherein a unit is arranged in the opening, against which unit the holding element rests in the displacement direction and relative to which a remaining part of the block can be displaced with the aid of a provided adjustment element.

In a device according to the invention it is advantageous that it has only one block, which interacts with a holding element, so that a compact construction is given. During the use of the device, the holding element, seen in the displacement direction of the bone plate, bears against the unit positioned in the opening, so that the unit cannot move against the displacement direction. Therefore only a movement of the remaining part of the block in the displacement direction is possible, which can be performed with the provided adjustment element. Furthermore, a highly accurate guiding together of bone parts after the removal of a piece of bone is possible, since the block is already arranged on the bone plate and a shear-resistant attachment of the bone plate can also be carried out on the second bone part directly after the bone parts have been guided together. After the attachment of the bone plate, the block can then be removed.

The device according to the invention can be used in principle for shortening any bones in humans or in animals. However, the device according to the invention is preferably used in the shortening of an ulna. For this purpose the bone plate is embodied in an elongated manner corresponding to a sectional course of the ulna.

The provided block can be arranged directly on the bone plate. However, it is particularly preferred for the block to be embodied with extensions on the base which define a further plate, which is embodied at least in part with approximately the same width as the bone plate, but shorter. A region for fastening the block to the bone plate is created by the provided extensions, which, as mentioned, are located on the base. Since the extensions are arranged on the base and are embodied to be flat, no disadvantage results thereby with respect to space requirements. The block is thereby expediently arranged approximately centrally on the bone plate, which requires the slot of the bone plate to also be arranged approximately centrally on the same. This provides the advantage that the block, which requires the largest space requirement during an operation, lies approximately in the center of a cut, e.g., along a forearm, where the skin can be spread furthest and thus most space is available for attaching the device. In principle the block can also be arranged approximately at the end of the bone plate, although in this case an operation is somewhat more difficult, since the block then has to be fastened on the bone in the region of an end of an incision together with the bone plate. In any case it is expedient for the bone plate and the further plate to respectively have a slot, which slots are arranged one above the other and are located at an end of the bone plate lying opposite the hole. Then two holding elements can be used, wherein one holding element is in engagement with the block and the further holding element serves to guide the bone plate in a straight line while guiding the bone parts together.

In order for it to be possible to move the bone plate as far as possible without even the slightest twisting of one of the bone parts relative to one another, a device according to the invention is expediently embodied such that the holding element and a further holding element are provided, which engage in the slot and the opening of the block or the slots and are formed in an elongated manner with a cylindrical part and a part having a thread, wherein the cylindrical part in the block bears against the unit or against the further plate. In this respect it has proven to be expedient for the slots of the bone plate and a free region of the opening into which the holding element is guided or the slot of the further plate to be embodied with approximately the same dimensions.

The further plate is generally attached to the bone plate in a detachable manner, so that the further plate together with the block can be separated from the bone plate, as soon as the bone parts bear against one another and are respectively fixed by the bone plate.

It is particularly expedient for a guide device for a cutting device to be detachably fastened to the further plate, e.g., at the side of the guide device. This makes it possible to sever a bone as precisely as possible. In order to be able to place cuts along a bone in a variable manner, it can be provided thereby that the guide device can be fixed in a variable manner relative to the further plate. It is then sufficient for the guide device to have only one guide slot. If in addition a scale is provided, on which a position of the guide device relative to the further plate can be read off, a piece of bone can be removed with a desired or predetermined length. This has hitherto not been possible or possible only in individual cases according to the prior art, since only guide devices with several parallel guide slots with predetermined constant spacing were provided. This permitted only a removal of pieces of bone which corresponded to a whole-number multiple of the spacing between two guide slots.

The guide device is preferably detachably fastened to the further plate, so that the guide device can be removed after the severing of the bone but still before the guiding together of the bone parts and thus is not in the way while the bone parts are guided together.

In order to make it possible to guide the bone parts together with great precision or to control a contact pressure of the bone parts before fixing the bone plate, the remaining part of the block is advantageously continuously displaceable by the adjustment element.

Likewise with respect to an exact guiding together of the bone parts, it can be provided for the unit to partially surround the holding element. A position change of the holding element relative to the unit is prevented or at least largely ruled out by this measure.

The adjustment element can be embodied as an adjustment screw, which is arranged in or on the remaining part of the block, and is connected to the unit. It is expedient thereby for the adjustment screw to run approximately parallel to the bone plate in the displacement direction.

It is furthermore advantageous that the unit can be placed into the opening and the block has lateral recesses running in the displacement direction, through which a holding means connected to the adjustment element and holding the unit vertically in position is guided. This contributes to a smooth displacement of the remaining part of the block relative to the unit, since the holding means in interaction with the recesses serves to guide the remaining part of the block.

FIGS. 1 through 4show a device1according to the invention in various views. The device1comprises a bone plate5, which has a hole6on the end, which hole is embodied to be approximately round in plan view. In addition, the bone plate5has a slot7as well as a further slot11, the positions or situations of which are explained later. The bone plate5is embodied in an elongated manner and is generally composed of a metal such as titanium.

A block12is arranged on the bone plate5. The block12is embodied on the base with two extensions extending along the bone plate5, which jointly define a further plate10. The further plate10and the extensions of the block12respectively are detachably fastened to the bone plate5with fastening means24,25, e.g., screws. On an end of the bone plate5opposite the hole6of the same arranged on the end, the further plate10and the corresponding extension of the block12respectively extend approximately to the end of the bone plate5and in this end region has a slot16. This slot16is positioned above the further slot11of the bone plate5embodied with corresponding dimensions. The slot11inFIGS. 1 through 4is partially covered by the further plate10and can be clearly seen only after the further plate10has been removed. In this region the further plate10is embodied with a width, which corresponds approximately to that of the bone plate5.

The other part of the further plate10and the extension of the block12, which extends from the block12to the end hole6of the bone plate5, is embodied in a region adjoining the block12such that the further plate10in the region of the fastening means24on one side is approximately flush with the bone plate5, but on the other side has a tongue26projecting in the direction of the hole6of the bone plate5, which can be seen in particular fromFIGS. 2 through 4. The tongue26has on the outside a rail27running approximately parallel to the bone plate5. A guide device19is arranged on the rail27. The guide device19has a guide slot21, through which, for example, a saw can be guided, so that during a severing of an ulna the saw does not leave the plane defined by the guide slot21. An upper part of the guide device19surrounds the rail27. For this purpose, the guide device19is embodied with a groove corresponding to a profile of the rail27. In the upper part of the guide device19furthermore a scale22is located, based on which a position of the guide device19relative to the further plate10, with respect to which the guide device19can be displaced, can be read off. To this end, a marking is provided on the further plate10. The displaceability of the guide device19is achieved in that the guide device19has a lateral opening running horizontally in which a holding element28engaging in the rail27is arranged, which holding element can be released so that the guide device19can be displaced along the opening depending on requirements or the length of a piece of bone to be removed. Based on the scale22provided, a length of the piece of bone to be removed can be precisely adjusted. The advantage is thereby given at the same time that for two cuts to be made, respectively the same guide slot21is used as guide means, which means that two essentially parallel cutting planes are obtained, which has proven to be favorable after the removal of a piece of bone and the guiding together of parts of an ulna or while the parts are growing together. As can be seen fromFIG. 2, for example, the guide slot21is arranged in a lower part of the guide device19and runs approximately at an angle of 45° to the bone plate5.

The block12is arranged approximately centrally on the bone plate5. As mentioned, the block12is embodied with extensions on the base, which define a further plate10. This is an advantage with regard to easy handling of the device1. However, it is also possible for the block12and the further plate10to be embodied separately. In this case, the block12bears on the further plate10. The block12has a central opening13. A length of this opening13is dimensioned such that it covers at least the slot7of the bone plate5arranged beneath it. A holding element9can thereby be positioned in the opening13of the block12. A further holding element18is positioned in the insert in the slots7,11of the bone plate5or the further plate10.

As can be seen fromFIGS. 1 through 4, a unit14is arranged in the opening13of the block12. This unit14essentially completely fills a region of the opening13lying between the holding element9embodied as a tensile bolt and an end of the opening13. The unit14is embodied in a semicircular manner in the region of the holding element9and thus surrounds the holding element9or the tensile bolt. The unit14is detachably fixed with a holding means29. The holding means29or the retaining pin penetrates the block12and according to the representation inFIG. 1projects through lateral recesses17of the block12perpendicular to the bone plate5. An adjustment element15, namely an adjustment screw engages in the laterally projecting part of the holding means29. The adjustment element15embodied as an adjustment screw penetrates the block12parallel to the displacement direction or the bone plate5and lies at the level of the retaining means29. If the device1in the form shown inFIG. 1is attached to an ulna and a piece of bone has already been removed, two parts of the ulna separated and spaced apart from one another can be moved with respect to one another by rotating the adjustment screw until they bear against one another. Since the unit14does not move with the rotating adjustment screw, the remaining part of the block12with the attached bone plate5must move in the displacement direction shown by an arrow inFIG. 1, wherein the holding element9runs through a free region23of the opening13at least in part. The remaining part of the block12thereby runs via the holding means29.

Based onFIGS. 5 through 8, the use of the device1according toFIGS. 1 through 4is shown diagrammatically during an operation or a shortening of an ulna. The device1is placed on a bone2like an ulna, after the bone2has been exposed for the operation. After the placement of the device1, this is fixed at the end on the bone2at a hole6with a fastening element8, such as a screw. Furthermore, holding elements9,18, having a thread on the foot are arranged in the opening13of the block12or in the slot7of the bone plate5and the end slots11,16and fastened in the bone2. For this purpose, as can be seen fromFIG. 5, a well-fitting adapter30is inserted into the free region23of the opening13. This adapter30is embodied in a precisely fitting manner for the free region23and the slots7,11,16respectively, and has an opening running vertically, through which a drill31can be guided. Based on an embodiment with identical dimensions of the free region23and the slots7,11,16, the adapter30can be used multiple times and thus is used for drilling a hole in the bone2for the holding element9as well as as a guide and positioning aid for the holding element18.

If the device1is fastened to the bone2, a first severing of the bone2can be carried out with a suitable cutting device20(FIG. 6). After a first severing of the bone2has been carried out, the holding element28is released and the guide device19is displaced on the rail27corresponding to a length of a piece of bone to be removed and subsequently fixed again with the holding element28before a second cut is made. Following the second cut, the piece of bone of predetermined length is removed. Now a situation such as that shown inFIG. 7has been attained, wherein bone pieces3,4, are still spaced apart from one another. The gap produced by the removal of the piece of bone is covered by the guide device19of the device1inFIG. 7. With the aid of the adjustment screw or the adjustment element15, the bone part3is now moved to the bone part4in the manner described above. As soon as the bone part3bears against the bone part4, the bone plate5can also be fixed on the bone part4. When the bone plate5has been fixed with screws to both of the bone parts3,4, the device1can be removed. Then a situation shown inFIG. 8is reached. If needed, a further screw can be driven into the bone, namely obliquely in the region of the connection surfaces of the bone parts3,4, so that the bone parts3,4are additionally held pressed against one another.