• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Surgical guide for desrotatory osteotomy interventions with rotation of the bone sections on the cutting plane. The guide of the invention, obtained through additive technology, totally customized for the patient to be treated, allows to carry out the osteotomy intervention in a fast, extremely precise and safe way, so that starting from the guide described in the patent of invention P201830153, allows to increase the correction planes in the osteotomy intervention, specifically the rotation of the bone sections (5'-5) on their cutting plane. To do this, the guide takes advantage of the upper Kirschner wires that were implanted using the guide of the invention patent P201830153 to stabilize them on the upper section (5'), by passing them through a pair of upper protrusions (14), fitted with through holes, a guide that has a lateral groove (11) in correspondence with its lower end, elongated and open at one of its ends, acting as a displacement guide and stop in the angular displacement in rotation of the upper section (5') of the bone on the cutting plane (10) with respect to a Kirschner wire (3''') that is previously implanted in the lower section (5) of the bone. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2802450A1
    申请号:ES201930636
    申请日:2019-07-09
    公开日:2021-01-19
    发明作者:Alvarez Jose Miguel Sanchez;Arizmendiarrieta Xabier Sanchez;Sanchez Juan Nicolas Fiz
    申请人:Santxarizmendi Grupo de Investigacion SL;
    IPC主号:
    专利说明:

    [0002] Surgical guide for desrotatory osteotomy interventions with rotation of bone sections on the cutting plane
    [0004] TECHNICAL SECTOR
    [0006] The present invention refers to a surgical guide that determines an additional means to a kit, in which a surgical guide that adapts to the bone in the areas of interest essentially participates, provided with a plurality of protrusions with axial holes in which respective pairs of two by two parallel Kirschner wires are capable of being inserted, wires that serve as means of support for the guide, as well as guides and retaining stop in the bone cut.
    [0008] The object of the invention is to provide a second guide, which can be easily and precisely implanted through two of the Kirschner wires mentioned above, so that this guide allows the bone to rotate with respect to the plane of cut previously made. , to the exact point that has been previously calculated, without risk of error in said angular displacement, additionally allowing both sections of the bone to be immobilized in their final turning position in order to facilitate the maneuvers for the implantation of the corresponding osteosynthesis plate.
    [0010] Consequently, the object of the invention is to provide a device that allows an intervention that is as precise as possible, fast, as well as safe for the surgeon, reducing the dependence on the surgeon's skill, that is, minimizing possible human errors.
    [0012] BACKGROUND OF THE INVENTION
    [0014] Torsional alterations in the extremities are a frequent affectation in the general population. It is common that they go unnoticed or are masked in the diagnostic process; alterations in the frontal or sagittal plane, which are more obvious and therefore easier to diagnose, frequently associate a rotational component in the deformity. If this component is not diagnosed, it will be difficult to correct it. On the other hand, the relationship between these deformities and the development of osteoarthritis has been proven.
    [0016] The correct analysis of these deformities requires a more extensive radiological study than simple radiology, being the computerized tomography (CT) of choice. This technique allows reconstructions in the 3 planes of space, so that alterations can be measured at the torsional level.
    [0018] Advances in computer software for imaging allow a complete analysis of the rotational component in each bone. This is especially useful in long bones (such as the femur and tibia at the level of the IE; and the humerus, ulna, and radius at the level of the ES). In this way, the rotation in each of the studied bones can be calculated exactly. The methods of measuring torsion angles are difficult, and the precision in the measurement of these deformities increases considerably if we use 3D reconstruction techniques.
    [0020] On the other hand, it allows virtual corrections of torsional alterations, giving information on the final result of a possible surgical intervention.
    [0022] Likewise, it allows to generate surgical guides for intraoperative use. The guides are precisely adapted to the bone surface and guide the correction of the torsion angle at all times. Until now, this correction had to be carried out by taking intraoperative visual references, being techniques very dependent on the observer and therefore being the results of the correction not very precise. Currently, custom-made surgical guide systems using 3D printing avoid any observer-dependent variability and allow exact reproduction of the planning carried out in the virtual model.
    [0024] Thus, it is a matter of sectioning the affected bone and modifying the relative position between the two sections of the bone obtained, so that they rotate with respect to the sectioning plane, and it may be necessary to vary the angle they form with respect to the frontal plane or sagittal.
    [0026] In this way the symptoms of osteoarthritis are alleviated, causing the forces to be distributed correctly by realigning the leg.
    [0027] Thus, osteotomy techniques are more suitable than arthroplasty techniques, as they are less invasive and provide a good recovery with less chance of failure.
    [0029] In this sense, the applicant himself is co-owner of the invention patent P201830153, in which a kind of kit is described, in which a surgical guide that adapts to the bone in the areas of interest, materialized in a single piece of elongated configuration that defines a plurality of protrusions with axial holes in which respective Kirschner wires are capable of being inserted, which will be inserted in said guides, of different inclinations, in a determined order, position and depth, in a manner that both the order and depth of placement is previously defined in the Kirschner wires and in the surgical guide itself, so that once the needles are placed on the bone, the surgical guide is removed, after which the procedure is carried out. cutting the osteotomy, using a surgical cutting saw, so that the intermediate needles act as a guide element for the tool d e cut, while the lower Kirschner wires act as a stop in the movement of said cutting tool, the cut can be made in a single plane, or in a bisector plane, the one formed by both intermediate and lower pairs of Kirschner wires. , as required by the specific case in question.
    [0031] In any case, this system only allows modifying the angulation of the two bone sections in a single working plane, so that it does not allow to carry out precisely and unequivocally the rotation of one bone section with respect to the other on the cutting plane itself in the cases in which a rotational alteration of the bone is associated that requires a derotatory osteotomy.
    [0033] EXPLANATION OF THE INVENTION
    [0035] The surgical guide for the implantation of osteosynthesis plates in osteotomy operations with rotation of the bone on the cutting plane that the invention proposes comes to fill the technical void previously exposed, so that combined with a system of guides of the type described in the invention patent P201830153, or independently, allows to increase the possibilities of correction of deviations in osteotomy interventions, up to the three Cartesian planes.
    [0036] For this, and more specifically, it has been foreseen that starting from the structure of the guide described in the patent of invention P201830153, it is complemented with an additional protuberance destined to the passage of a seventh Kirschner wire whose interlocking point has been previously pre-calculated, in order to determine a stop element in the displacement between bone sections from the new guide of the invention, as will be seen below.
    [0038] Thus, once the different Kirschner wires have been implanted with the guide described in the patent of invention P201830153 as well as the aforementioned seventh Kirschner wire, said guide removed and the bone cut from the corresponding Kirschner wires, it has been It is foreseen that the two intermediate needles and the two lower needles are removed, serving the two upper needles as means of inserting the new guide of the invention, which is materialized in a personalized element for each patient obtained through an additive manufacturing process to from a 3D model, which is generated from a computerized axial tomography (CT) or magnetic resonance imaging process, carried out in the preoperative process on the extremity of the bone to be treated, mainly the tibia, presenting a vertically elongated configuration , with a bearing surface on the bone identical to its physiognomy by virtue of the aforementioned process.
    [0040] This guide is finished in correspondence with its lower extremity with a lateral groove, elongated and open at one of its ends, which in the initial implantation position of the guide is arranged facing the seventh Kirschner wire, so that when it is carried As the lower section of the bone rotates about the cutting plane, the seventh Kirschner wire will travel together with said lower section through the throat of the guide, to a point where the said seventh Kirschner wire abuts with the bottom of the lateral groove of the guide, a point that will correspond to the exact pre-calculated point of expected deviation.
    [0042] Depending on the cutting plane that you foresee, whether it is simply horizontal, determined by the pair of intermediate needles, using two cutting planes in order to eliminate a wedge or bisector plane of the osteotomy, by means of the pairs of intermediate needles and lower, or by using a single oblique cutting plane, deviations in the three Cartesian planes can be corrected.
    [0043] According to a preferred embodiment variant of the invention, the new guide may be provided in its upper area with a pair of protrusions, affected by respective axial and through holes, in guiding functions of a pair of Kirschner wires parallel to each other. , needles whose function is to pass through both sections of the bone, in order to immobilize them temporarily, while the ostoeosing plate is secured, staples are applied or endomedullary nails are applied, so that once any of these solutions are implanted, said needles are they will be removed, having previously removed both the guide and the needles acting as guides for the latter.
    [0045] Therefore, based on this structuring, it is not necessary to think or have to debate the exact location of the guide, the angle to be cut or the angle to displace one section of bone with respect to the other, since the Kirschner wires used determine it, almost completely reducing the risk of human error in the placement of the guide and its calibration, since this guide does not require calibration during the intervention. This implies that with the help of the 3D models obtained in the preoperative period and the preoperative calculations supported by computer tools, through additive manufacturing we are able to obtain a personalized osteotomy guide for each patient that considerably improves the degree of accuracy in the intervention and significantly reduces the time of the surgical intervention, with all that that entails: less probability of infection, less time of anesthesia, less time of ischemia and more exact surgery.
    [0047] Finally, it is worth highlighting the fact that with the guidance system of the invention, since all the parameters are pre-calculated by computer, it is not necessary to continuously monitor the work being carried out by means of x-ray equipment. Radiating the surgeon's hands unnecessarily.
    [0049] DESCRIPTION OF THE DRAWINGS
    [0051] To complement the description that is going to be made below and in order to help a better understanding of the characteristics of the invention, according to a preferred example of a practical embodiment thereof, a set of drawings is attached as an integral part of said description. where, for illustrative and non-limiting purposes, the following has been represented:
    [0052] Figures 1A and 1B.- They show different perspective views of a surgical guide for osteotomy interventions, specifically a variant of the guide described in the patent of invention P201830153, being able to observe how the guide includes a seventh protuberance with its corresponding axial hole for the exact implantation of a seventh Kirschner wire, acting as a rotation stop for the guide object of the invention.
    [0054] Figure 2.- Shows a front perspective view of the bone once it has been cut using the Kirschner wires implanted through the guide of figure 1, the pairs of intermediate and lower needles removed, serving the needles superiors as a means of guiding and implanting the new guide, whose lower lateral groove in said initial position faces the seventh Kirschner wire implanted by means of the guide of figure 1.
    [0056] Figures 3 and 4.- They show views in different perspectives of the assembly of Figure 2.
    [0058] Figures 5 and 6.- They show views similar to those of figures 4 and 2, but in which the lower bone section has been rotated with respect to the upper section, until reaching the exact correction point determined by the stop that makes the bottom of the throat of the guide on the mentioned seventh needle.
    [0060] Figure 7a.- Shows, finally, a perspective view in which the properly implanted osteosynthesis plate finally appears once the final relative position of rotation between the bone sections has been reached.
    [0062] PREFERRED EMBODIMENT OF THE INVENTION
    [0064] In view of the figures outlined, and especially of figure 1, it can be seen how the invention represents an improvement with respect to the set described in the patent of invention P201830153, in which a guide (1) participates, which is structured in a single piece of elongated configuration that defines a plurality of protrusions (2-2'-2 '') with axial holes to each house a Kirschner wire (3-3'-3 ''), and weakened areas (19) where the surgical chisel will break in the corresponding phase of the procedure; bumps (2) that are distributed in three pairs of alignments, two upper, two intermediate and two lower.
    [0066] The guide (1) is obtained through an additive manufacturing process from a 3D model, which is generated from computerized axial tomography (CT) or magnetic resonance imaging carried out in the preoperative process on the bone extremity (5 ) to be treated, presenting a vertically elongated configuration, with a supporting surface on the bone complementary to its physiognomy by virtue of said preoperative process.
    [0068] The upper protrusions (2) allow guiding a pair of parallel upper Kirschner wires (3) whose function is to keep the osteotomy guide (1) in the appropriate and pre-calculated position during the intervention.
    [0070] The intermediate protrusions (2 ') allow a second pair of intermediate parallel Kirschner wires (3') to be guided, acting as guiding means for the cutting tool in the superior plane of the bisector plane of the osteotomy.
    [0072] For their part, the lower protrusions (2 '') allow guiding a pair of parallel lower needles (3 ''), destined to stop the cutting tool when the upper cutting plane is being obtained.
    [0074] The guide is optionally finished at the bottom in a bend or lateral arm (6) that acts as a means of positioning and stabilizing the entire guide assembly.
    [0076] Well, in accordance with the invention, it has been foreseen that the guide (1) includes on its lower sector (7) a protuberance (8) with its corresponding axial hole for the passage of a seventh Kirschner wire (3 '' ' ), whose interlocking point has been previously pre-calculated, in order to determine a stop element in the displacement between bone sections (5-5 ') from the new guide (9) of the invention, the one shown in the Figures 2 to 6.
    [0078] Thus, once the different needles have been implanted with the guide described in the patent of the invention P201830153 as well as the aforementioned seventh needle, said guide removed and the cutting (10) of the bone from the corresponding needles (3 'and 3''), it has been foreseen that the two intermediate needles (3') and the two lower needles (3 '') are removed, serving the two needles upper (3) as means of insertion of the new guide (9) of the invention through a pair of upper protrusions (14), provided with through holes for said needles.
    [0080] This new guide (9) is materialized in a personalized element for each patient obtained through an additive manufacturing process from a 3D model, which is generated from computerized axial tomography (CT) or magnetic resonance imaging, so that in its lower extremity establishes a lateral groove (11), elongated and open at one of its ends, which in the initial implantation position of the guide is arranged facing the seventh Kirschner wire (3 '' '), so that when If the rotation of the lower section (5) of the bone is carried out on the cutting plane (10), the seventh needle (3 '' ') will move together with said lower section (5), to a point where the bottom (12) of said lateral throat (11) abuts against the seventh Kirschner wire (3 '' '), said position corresponding to the exact precalculated correction position.
    [0082] The guide (9) may have superiorly a pair of additional protrusions (13) with axial through holes, for guiding a fourth pair of Kirschner wires (3iv) parallel to each other, needles whose function is to pass through both sections of the bone ( 5'-5) as shown in Figures 5 and 6, once both sections of the bone (5'-5) are in their correction position, so that once implanted, the rest of the needles will be removed, as well as the guide itself, immobilizing both sections temporarily, while the ostoeosynthesis plate (20) is secured, staples are applied or endomedullary nails are applied, after which said Kirschner wires (3iv) will be finally withdrawn, closing the wound made, with the approach used in routine surgical procedures.
    [0084] It only remains to point out that, although the present example of practical embodiment, as well as the section on the description of the invention, has been described by virtue of the solution with which maximum precision is achieved for the purpose of the invention, The applicant does not rule out the possibility of a simpler solution in which the device only includes an upper protrusion (13), for the passage of a Kirschner wire, a solution that, although it is less stable, is less intrusive, and may be interesting in certain interventions.
    权利要求:
    Claims (5)
    [1]
    1st.- Surgical guide for desrotatory osteotomy interventions with rotation of the bone on the cutting plane, characterized in that it consists of a body obtained from a personalized 3D model generated by means of computerized axial tomography (CT) or magnetic resonance imaging of the bone to intervene, a body that has an elongated configuration, with a supporting surface on the bone complementary to its physiognomy, with the particularity that said guide body (9) has at least two upper protrusions (14), equipped with through holes, for a pair of upper and parallel Kirschner wires (3) to stabilize the guide on the upper section (5 ') of the bone, a body that presents, in correspondence with its lower end, a lateral groove (11), elongated and open at one of its ends, as a displacement guide and stop in the angular displacement in rotation of the lower section (5) of the bone on the cutting plane (10) for an implantable Kirschner wire (3 '' ') in the lower section (5) of the bone.
    [2]
    2.- Surgical guide for desrotatory osteotomy interventions with rotation of the bone on the cutting plane, according to claim 1, characterized in that it includes at least one additional protuberance (13), preferably two, with axial through holes, to guide a couple of Kirschner wires (3iv) parallel to each other, destined to pass through both sections of the bone (5'-5), once both sections of the bone (5'-5) are in their correction position, determining the immobilization means of both sections during the implantation process of a bone-bearing plate (20), staples or endomedullary nails between both sections of bone.
    [3]
    3 a.- Surgical guide for desrotatory osteotomy interventions with rotation of the bone on the cutting plane, according to claim 1, characterized in that it is complemented with an additional guide (1), obtained in a single piece, with an elongated configuration in which define three pairs of protuberances (2-2'-2 '') with axial holes to each house a pair of Kirschner wires (3-3'-3 '') parallel two by two, for implantation / stabilization of the guide, guiding the cutting tool in the intervention and stop for said cutting tool, and some weakened areas (19), a guide obtained through an additive manufacturing process from a 3D model, which is generated from of computerized axial tomography (CT) or magnetic resonance imaging, with the particularity of the guide (1) it includes on its lower sector (7) a protuberance (8) with its corresponding axial hole for passage of a seventh Kirschner wire (3 '''), whose interlocking point has been previously pre-calculated, in order to determine a stop element in the displacement between bone sections (5-5 ') from guide (9).
    [4]
    4.- Surgical guide for desrotatory osteotomy interventions with rotation of the bone on the cutting plane, according to claims ia and 3 a, characterized in that the protrusions (13-14-2-2'-2 '' - 8) both of the body guide (9) and the additional guide (1), include markings with the order of insertion of the Kirschner wires (3-3'-3 '' - 3 '' - 3iv).
    [5]
    5.- Surgical guide for desrotatory osteotomy interventions with rotation of the bone on the cutting plane, according to claims ia and 4 a, characterized in that the Kirschner wires (3-3'-3 '' - 3 '' - 3iv) include markings of the protrusion in which they must be inserted and the depth to which it must be inserted.
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    同族专利:
    公开号 | 公开日
    ES2802450B2|2021-11-26|
    EP3763304A1|2021-01-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4335715A|1980-06-20|1982-06-22|Kirkley William H|Osteotomy guide|
    US20050273112A1|2004-05-26|2005-12-08|Mcnamara Michael G|Three-dimensional osteotomy device and method for treating bone deformities|
    ES2588231T3|2009-09-10|2016-10-31|Exactech Inc.|Alignment guides for use in computer-assisted orthopedic surgery to prepare a bone element for an implant|
    ES2459953T3|2011-06-30|2014-05-13|Depuy Products, Inc.|Guides for specific orthopedic pins of a personalized patient|
    WO2013060842A1|2011-10-28|2013-05-02|Materialise N.V.|Guides with pressure points|
    GB2551533A|2016-06-21|2017-12-27|3D Metal Printing Ltd|A surgical assembly, stabilisation plate and methods|
    US8372078B2|2006-06-30|2013-02-12|Howmedica Osteonics Corp.|Method for performing a high tibial osteotomy|
    JP6894892B2|2015-10-22|2021-06-30|マテリアライズ・ナムローゼ・フエンノートシャップMaterialise Nv|Two-part surgery guide|
    FR3070249A1|2017-08-22|2019-03-01|Newclip International|GUIDANCE SURGICAL DEVICE FOR ASSISTING OPENING OSTEOTOMY TECHNIQUE|CN112932606B|2021-01-29|2021-10-22|北京市春立正达医疗器械股份有限公司|Adjustable tibia osteotomy guider|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201930636A|ES2802450B2|2019-07-09|2019-07-09|SURGICAL GUIDE FOR DESROTATORY OSTEOTOMY INTERVENTIONS WITH ROTATION OF THE BONE SECTIONS ON THE CUTTING PLANE.|ES201930636A| ES2802450B2|2019-07-09|2019-07-09|SURGICAL GUIDE FOR DESROTATORY OSTEOTOMY INTERVENTIONS WITH ROTATION OF THE BONE SECTIONS ON THE CUTTING PLANE.|
    EP20181574.3A| EP3763304A1|2019-07-09|2020-06-23|Surgical guide for desrotational osteotomy operations with rotation of the sections of the bone on the cutting plane|
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