CA2780102A1 - Multi-adjustable plate for osteotomy - Google Patents

Abstract

The purpose of the mechanical device is to correct a malformation of the bones of the body. It is continuously adjustable, making it easier for the surgeon to work by reducing the time required for surgery, thus reducing the risk of infection, and mainly ensuring the precision desired for the surgery. The device comprises an upper plate (1) which can slide on a lower plate (2) using a guide (7). These plates can be screwed on either side of an angled notch made in the bone. The plates comprise an upper support (5), respectively lower (6) of the notch in the bone, these supports are in the form of an acute angle bevel so as to substantially match the faces of the notch. One of the Plates is provided with a Continuous Adjustment Screw (4) of the position of the Plates between them. The device further comprises a Locking Screw (3) making it possible to maintain the open position of the device and consequently the final angle of the notch in the bone in the desired position. The upper support of the notch of the bone with angular adjustment makes it possible to correct the angle of the bevelled face of the Support, in particular the tibial slope or "slope", thanks to a conical screw (8) adjusting a angular space in the support.

Description

MULTI-ADJUSTABLE PLATE FOR OSTEOTOMY
The invention relates to a mechanical device for the purpose of correcting a malformation of misalignment of the bones of the body. The device is constituted a plate osteotomy for millimetric correction, self-adjusting, regulating the opening of previously fixed corner, also allowing the slope to be adjusted (slope ).
INTRODUCTION

Osteotomies have been used for many years to correct some deformations of the bones. These methods can be applied to various bone, the femur, the tibia, calcaneus, metatarsal, radius, humerus, etc. The malformation bone is occurring for several reasons, for example by causing a misalignment of the leg, forming an angle between the femur and the tibia, presenting a curved appearance when the observes of forward. (Fig. 1) Osteotomies performed around the knee (femur and tibia) are very popular, and have suffered a evolution as to their fixation. At the beginning of the 20th century, we realized osteotomy by doing call to plaster as a fixation instrument. Subsequently, other materials have arisen, such as wires, screws and plates, providing more stability and process safety. In 2002, the Puddu Plate for the fixation of osteotomy with wedge The opening has become known around the world. From there, from new plates are appeared on the market. The plates work essentially like instrument of fixation of the osteotomy, while other stages of surgery are made by others instruments. In doing so, it is common to observe complications inherent to the surgical procedure and the method of fixation used with the devices of art previous:

1) excessive length of surgery, because of the various stages (time surgical perform during the operation:
a) passage of the guidewire, cutting of the bone, opening of the tuning fork, choice of the plate adequate, removal of the tuning fork, fixation of the plate. Because of this great difficulty few surgeons are entitled to perform such a procedure.
b) increased risk of infection.
c) risk of increased neurological injury.
d) more bleeding during the operation.

2) fracture of the lateral cortex of the tibia, one of the most frequent and more fears of tibia osteotomy with opening corner. This is happening when the notch of the osteotomy reaches the lateral cortex of the tibia, causing its fracture then the subluxation of the bone.

3) fracture of the articular surface. Occurs when the height and the slope of the notch of the osteotomy is erroneously made.

4) Hypo- and hypercorrection. Complication directly related to plaque used because it does not are not all types of plates that allow millimetric adjustment of the corner opening; this complication can also come from a fixation inadequate, or incorrect preoperative planning.

5) Alteration of the tibial slope. Consists of the alteration of tibia inclination in the sagittal plane, clinically characterized by loss of extension knee.
DISADVANTAGES OF THE DEVICES OF PRIOR ART AND PROBLEMS
OBSERVED

Devices usually used to correct bone malformations have two plates which move one over the other, in the axial direction, in general guided for maintain alignment (see Fig. 2).
There are systems that consist of a plate and a piece calibrated spacing (one corner) which will be introduced into the bone with a pre-defined fixed measurement, which corresponds to the angle desired opening.

The plates currently used for osteotomy do not have system of millimetric correction, which requires an assortment of numbered plates differently following the correction to achieve. Which means we can not find the measure exact desired because the measurements provided by the range range from 2.5 to 2.5 mm.
In addition, plaques only come into play during the final phase of surgery, in the sole purpose of fixation ; they do not intervene in the slope adjustment tibial.

With the devices of the prior art mentioned above, which are calibrated, the procedure surgical is the same, in the case of tibia correction for malformation angular, to to know: we cut a notch in angle or indentation in the shin, very near the knee.
A tuning fork is then introduced (millimeter corner, see Fig. 8) to facilitate the opening of bone to the desired angle, using a hammer to push the corner in the bone. Once the ideal opening is obtained, the plate is placed with a coin intercalary dimensioned beforehand. Finally, the plate is fixed and then removed the tuning fork (corner millimeter) carefully, through a very small working area.
By removing the tuning fork, the fixing screws are tightened and locked.

With all the existing devices on the market, it is necessary to hack very the bone, which, depending on the angle of correction, great risk of shearing of the bone, because of the significant forces required to introduce the corner calibrated, which can cause:
1) trauma in the lateral cortex 2) superficial trauma of the arteries, due to the fact that to perform the surgery, blood will stagnate in the arteries without being able to circulate for a period of 2 hours at maximum, which is the security limit.
3) excessive duration of surgery, which increases the risk of infection.
4) neurovascular injury.
This last point constitutes a complicating factor which would prolong the surgery, cause the effects mentioned above.

Another problem with currently used devices is the lack of guarantee as to obtaining the opening of the exact value desired. For example, in the case of the device to sawtooth, known as Anthony's Plate (Figure 3), where the plate superior is fixed above the notch, while the lower plate is attached to the below the notch (Fig. 2), it may be that the value of the desired opening corresponds to a position where the teeth do not fit together. At this point, the surgeon must decide if he will to content with an opening lower than desired, or on the contrary, opt for an opening higher. (Problem:
plate without millimetric adjustment, of little precision).

The same problem arises for dimension infill systems fixed, interchangeable (Fig. 4) known as the aforementioned Puddu Plate, possessing a piece to choose from among dozens of options that the kit contains, which piece serves as support for the cutting of the shin. Problem: a lot of time spent searching and choosing the room insert with the exact size required, resulting in an increase in the time of the surgery with greater exposure to the risks already mentioned.

THE INVENTION SUBJECT TO THIS APPLICATION

The purpose of this patent application is to develop a mechanical device whose objective of correcting a malformation of the bones of the body, with continuous adjustment, allowing to facilitate the surgeon's work by reducing the time of surgery, decrease the risks of infection, and mainly to guarantee the desired accuracy for surgery, everything by not having the disadvantages mentioned above.

The solution to achieve this goal is contained in the characteristics of the independent claim number 1.

The invention makes it possible to make a small angle cut, much less than the angle required by the devices of the prior art.

The invention consists of two plates, the lower plate and the plate Superior, and the opening or closing is regulated by means of a screw, which following the meaning according to which one rotates it, allows to separate or to bring closer the two Plates.

This new Plates concept allows the introduction of Superior Supports and Less than Tibia in the restricted space of the notch, to tighten at the same time the screws fixing Upper and lower plates, then proceed to precise adjustment of the spacing Plates.

The use of this continuously adjustable system, without any break in continuity, is not not limited to the bones of the legs, but can be used on all the bones of the body, either in a goal of correction, either as a permanent prosthesis.

ADVANTAGES OF THE INVENTION

1) device made of synthetic material, allowing millimetric correction auto-adjustable, in a single device.
2) Allows fixing immediately after making the notch in the bone, thus providing increased safety regarding the risk of cortical fracture lateral and intra-articular fracture, and reducing the duration of surgery, thanks to its simplicity technical.
3) less risk of trauma to the articular surface because the Plaque is fixed during the opening of the osteotomy.
4) Significantly influences the final result because it allows to perform any correction required.
5) this device allows the adjustment and modification of the tibial deviation, thanks to tibial slope correction system.

6) Accuracy ensured thanks to the reduced notch in the tibia, due to the fact setting progressive from its opening to the exact point desired.

DETAILED DESCRIPTION OF THE INVENTION

The invention is now described in detail with reference also to additional figures.

The device has eight main parts (see Fig. 5):
1) Top plate 2) Lower Plate 3) Locking Screw 4) Adjustment Screw 5) Superior support of the tibia cut with angular adjustment 6) Lower Support of Tibial Notch

7) Aronde Tail Guidance System

8) Tapered cone tibial adjustment screw Plates can be introduced into the cut of small dimensions made in the Femur as shown in FIG. 6.
The fixing screws of the Upper and Lower Plates once installed position can to be screwed on both sides of the cut. Then, the Higher Supports and lower than the Tibia notch being in position, the gap between the plates can begin by through the Adjusting Screw (4) Considering that the upper and lower plates are guided between they by a Dovetail guide system (7), they remain aligned and the screw of setting continuous allows to spread them gradually.
The measure of the opening can be controlled millimetrically with high precision until the desired position is obtained.
Once confirmed the desired position, we can block the position obtained using the Locking screw (3) to maintain the exact position of the gap between two plates, this results in the opening angle of the cut of the femur to the exact value desired.
The Blocking Screw (3) has the function of blocking the Top Plate on the Plate Lower, thus guaranteeing the maintenance of the desired position.
After this blocking, the fixing screws of the upper and lower plates (Fig. 6) can to be tight and permanently blocked.
Finally, if it is necessary to correct the angle of the Higher Support of the tibia notch with angular adjustment, it can be done with a Conical Screw (8) which allows the opening of an existing angular space in the Upper Plate correcting the tibial slope, as shown in FIG. 7.
Once this correction is made, all fixing screws are blocked, the correction operation of the malformation is over.
LEGEND OF FIGURES
Fig. 1 1.1) - Femur 1.2) - Tibia.
Fig. 2 2.1) - Notch at the tibia angle.
2.2) - Top plate.
2.3) - Lower Plate.
2.4) - Fixing Screw.
Fig. 3 3.1) - Top Plate 3.2) - Lower Plate 3.3) - Superior support of the tibia cut.
3.4) - Lower support of the cut of the tibia.
Fig. 4 4.1) - Plate 4.2) - interchangeable wedge of support of the notch of the tibia.
4.3) - Interchangeable corner set.

Fig. 5 1) - Top plate 2) - Lower Plate 3) - Locking Screw 4) - Adjustment Screw 5) - Superior support of the tibia cut with angular adjustment.
6) - Lower support of the cut of the tibia.
7) - Guide of the type "Dovetail".
8) - Conical tibial slope adjustment screw.
Fig. 6 6.1) - Upper Mounting Screw.
6.2) - Top plate.
6.3) - Lower fixing screws.
6.4) - Lower Plate.
6.5) - Femur.
6.6) - Tibia.
Fig. 7 7.1) - Conical screw for the angular opening.
7.2) - Superior support of the tibia cut with angular adjustment.
7.3) - Top plate.

Fig. 8 8.1) - Diapason (corner) 8.2) - Hammer for opening the notch using the Diapason ..

Claims (6)

1. Mechanical device intended to correct a malformation of bone body, continuously adjustable, to facilitate the work of the surgeon in reducing the time of surgery, thus reducing the risk of infection, and mainly to guarantee the desired precision for surgery, characterized in that a top plate (1) slidable on a Bottom Plate (2) using a guide (7), these plates can be screwed on both sides of an angled cut made in the bone, the plates having a Upper Support (5), respectively Lower (6) of the notch of the bone, these supports being directed in a direction substantially perpendicular to the Plates to be introduced into the notch of the bone, these supports having in addition a form of acute angle bevel angle to substantially conform to the faces of the notch, further characterized in that one of the plates is provided with a continuous adjustment screw (4) of the position of the plates together, the device further comprising a screw of Blocking (3) to maintain the open position of the device and as a result the final angle of the notch of the bone in the desired position. 2. Device according to claim 1, characterized in that the guide (7) allowing the plates to slide on one another has a profile in Dovetail shape. 3. Device according to one of claims 1 or 2, characterized in that the upper support of the bone notch has an angular adjustment correcting the angle of the beveled face of the Support, in particular the slope or tibial slope. 4. Device according to claim 3, characterized in that the adjustment angular is obtained using a Conical Screw (8) which allows the opening of a space angular existing in the Upper Plate. 5. Device according to one of claims 1 or 2, characterized in that the Lower Support of the bone notch has an angular adjustment correcting the angle of the beveled face of the Support, in particular the slope or tibial slope. 6. Device according to claim 5, characterized in that the adjustment angular is obtained using a Conical Screw that allows the opening of a space angular existing in the Inferior Plate.