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  • 专利说明
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    • 专利摘要:
    Hip or shoulder prostheses, and instruments for minimally invasive placement. The prosthesis comprises a hemispherical spherical component (1) supported by a straight metaphyseal component (2) with a transverse hole (21) for the passage of a diaphyseal nail (3), intended for insertion into the femoral or humeral canal. The metaphyseal component (2) is attached to the diaphyseal nail (3) by a longitudinal interlocker (24) that crosses the diaphyseal nail (3). The instrument comprises a Kirschner needle center (100) that allows Kirschner needles (102, 102') to be properly placed, a cannulated extractor (200) of the femoral or humeral head, and two introductors (300, 400, 500) for The elements of the prosthesis. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2735007A1
    申请号:ES201830565
    申请日:2018-06-11
    公开日:2019-12-13
    发明作者:Cubero Javier Cortés;Vicente Carlos M Atienza;Herráiz Andrés Peñuelas;Torres Fernando García
    申请人:Desarrollos Biomecanicos Innovasan S L;
    IPC主号:
    专利说明:

    [0001]
    [0002] Hip or shoulder prosthesis and placement instruments.
    [0003]
    [0004] SECTOR OF THE TECHNIQUE
    [0005]
    [0006] The present invention relates to a prosthesis (or arthroplasty) of the hip or shoulder, to replace the head of the femur or humerus, in any necessary case, and which can be installed with a little aggressive procedure for the patient.
    [0007]
    [0008] It also refers to the instruments used in the placement of the prosthesis, all in a minimally invasive way.
    [0009]
    [0010] STATE OF THE TECHNIQUE
    [0011]
    [0012] Sometimes, in the usual medical practice it is necessary to perform a hip or shoulder joint replacement, that is, remove the head of the femur or humerus, and place a device restoring the function of the joint, what is called prosthesis or arthroplasty Hip or shoulder. This may be due to different reasons: fractures, osteoarthritis, neoplasms, etc.
    [0013]
    [0014] However, prosthetic placement procedures, whether hip or shoulder, are very aggressive and their surgical application carries very important risks.
    [0015]
    [0016] Any approach to replace the prosthesis (or arthroplasty) of the hip or shoulder in any necessary case, in order to minimize surgical aggression, has to solve two major problems:
    [0017]
    [0018] - 1. How to remove the femoral / humeral head minimally invasively, reducing damage to the patient
    [0019]
    [0020] - 2. What kind of device can we implant in a simple and non-aggressive way once the femoral / humeral head is removed
    [0021] For this second problem, in the case of the hip joint, the prostheses of patents US2003060889, US2016256281 and US2002095214 are known. These include both prosthetic replacements of the acetabulum or the head of the femur formed by smaller elements that join in situ.
    [0022]
    [0023] In the case of the shoulder joint, the removal of the head of the humerus offers similar problems, although somewhat different because of the size of the joint and its components.
    [0024]
    [0025] The applicant does not know any prostheses or tools that can be considered similar to the invention to solve these two initial questions.
    [0026]
    [0027] BRIEF EXPLANATION OF THE INVENTION
    [0028]
    [0029] The invention consists of:
    [0030]
    [0031] - A hip or shoulder prosthesis formed by several pieces that are assembled with each other inside the human body, according to the claims.
    [0032]
    [0033] - The instruments for applying this prosthesis. according to the corresponding claims.
    [0034]
    [0035] This hip or shoulder prosthesis and the described instruments, in their different embodiments, solve the problems of the prior art.
    [0036]
    [0037] Throughout the report it should be considered that the use of the adjectives "superior" and "inferior" are used in a non-limiting manner. Its use is intended to facilitate the understanding of the invention without requiring complex explanations. Specifically, it should be considered that “superior” refers to the area of the element that, at the specific moment of its use, is closer to the patient's head. By opposition, "lower" refers to the furthest part of the patient's head.
    [0038]
    [0039] The objective of this hip or shoulder prosthesis is to reduce the complications caused by prosthetic surgery in any case that its placement is necessary. For this reason, in the design of this prosthesis has prevailed that its placement requires a little aggressive surgical technique against the biomechanical requirements once implanted.
    [0040]
    [0041] The design of the prosthesis and its instruments allow its placement in a minimally invasive, percutaneous way, minimizing the aggressiveness of the surgery by comparing it with a standard prosthetic surgery.
    [0042]
    [0043] In the case of hip, the same incisions are made for placement as for a proximal interlocking of standard gamma-type femur (Stryker) or PFNa (Synthes) nail. On the shoulder it will also be possible to place it with two incisions.
    [0044]
    [0045] The hip or shoulder prosthesis, for the replacement of the femoral or humeral head, comprises several components:
    [0046]
    [0047] 1. A spherical component (in the case of the hip prosthesis is the substitute for the head of the femur, and in the case of the shoulder is the substitute for the head of the humerus) substantially hemispherical. It has a rear face with a drill and hooks that facilitate its introduction into the patient's body.
    [0048]
    [0049] 2. A metaphyseal component formed by a straight element with an approximately central transverse hole is fixed in the hole. The metaphyseal component has a stem that is fixed to the spherical component bore. It also has a longitudinal perforation that crosses the hole, and whose opening is on the opposite side of the stem.
    [0050]
    [0051] 3. Third, it comprises a diaphyseal nail, intended for insertion into the femoral or humeral canal. This nail has a first section where one or more fixing holes are located for one or several distal fixing screws to the femur or humerus, and that can pass through the hole of the metaphyseal component. It also has a second section partially arranged in the hole of the metaphyseal component.
    [0052]
    [0053] 4. Finally, it has an interlock arranged in the perforation and through the second section of the diaphyseal nail.
    [0054]
    [0055] In a first preferred embodiment, the metaphyseal component has a groove in its entire surface.
    [0056] Preferably, the interlock completely pierces the diaphyseal nail and is threaded into its tip.
    [0057]
    [0058] More preferably, the nail has a bracket in the second section, above the metaphyseal component and supported on it, on the side opposite the stem.
    [0059]
    [0060] In addition, the invention relates to several instruments that assist in the placement of the prosthesis.
    [0061]
    [0062] First, it refers to a cannulated femoral or humeral head extractor comprising a tubular piece with a fist at one end and a drill bit at the opposite. The drill, which can be conical or cylindrical, allows the passage, adjusted and by its tip or center, of a first Kirschner needle. In this way, the cannulated extractor can be guided to the femoral or humeral head without the tolerance in that step affecting the result. In order to pass the Kirschner needle, it is necessary that the fist has the corresponding hole.
    [0063]
    [0064] In a preferred embodiment, the drill can be formed by several convergent and somewhat flexible elements. In that embodiment, the internal diameter of the tubular piece is greater than that of the first Kirschner needle so that it is possible, if desired, to insert a broach spreader that separates the converging elements and helps the interlocking of the drill bit in the head Femoral or humeral.
    [0065]
    [0066] It also refers to a Kirschner needle centering in the diaphysis, neck and femoral or humeral head, which has a general inverted "U" shape. This inverted "U" consists of two elements: a centering nail at one end, and a guide handle on the opposite end.
    [0067]
    [0068] - The centering nail is intended to be inserted into the femoral or humeral canal, and has a vertical opening in its lower part.
    [0069]
    [0070] - The guide handle that is outside the body once the centering nail has been inserted inside the femur or humerus, also has a vertical opening in its lower part whose upper edge is aligned with the upper edge of the vertical opening of the centering nail This alignment can be through a sheath disposed in the vertical opening of the guide handle. That sheath has an overpass, for a first Kirschner needle, aligned with the upper edge of the vertical opening of the centering nail.
    [0071]
    [0072] Therefore, the vertical opening can be straight or comprise a shape complementary to that of the sheath. The sheath may have another step for a second Kirschner needle.
    [0073]
    [0074] The invention also relates to an introducer of the spherical component that also has an inverted "U" shape, with a handle with a slit open at the bottom edge, and with an upper edge oriented towards the spherical component bore that is mounted on the introducer For this assembly, the spherical component introducer has a support compatible with the spherical component hooks, and releasable by an actuator accessible from the outside (from the handle itself, for example).
    [0075]
    [0076] In addition, the invention comprises an introducer of the metaphyseal component, which consists of a straight hollow rod, with a releasable fastener of the metaphyseal component at one end and a handle at the opposite.
    [0077]
    [0078] Preferably, it comprises two coaxial tubular bodies, and the fastener is formed by turrets, in the outer tubular body, of a bayonet closure for the corresponding grips of the metaphyseal component: It also comprises a thread close to the relative movement blocking handle between the two. tubular bodies
    [0079]
    [0080] Finally, the invention also relates to a diaphyseal nail introducer, usable with the nail, which has an inverted "U" shape, with a handle with a groove open towards its bottom at a first end and a detachable coupling for the diaphyseal nail at the opposite end This groove is intended to embrace the introducer of the metaphyseal component.The handle can be the same element as the guide handle of the Kirschner needle center, changing only the centering nail for the detachable coupling. , it may also be the spherical component introducer handle by placing the spherical component support.
    [0081]
    [0082] The centering guide handle, the spherical component introducer handle and the diaphyseal nail introducer handle can have two sets of marks with an X-ray transparency different from the rest of the center, with different development angles. That is, they have a transverse depth that is oriented at different angles.
    [0083]
    [0084] Other variants of the prosthesis and the different instruments will be shown later.
    [0085]
    [0086] DESCRIPTION OF THE DRAWINGS
    [0087]
    [0088] For a better understanding of the invention, the following figures of a non-limiting embodiment example are included.
    [0089]
    [0090] Figure 1 : Perspective view of an example of a spherical component located in an introducer of the appropriate spherical component.
    [0091]
    [0092] Figure 2: Perspective view of an embodiment of the metaphyseal component near the spherical component.
    [0093]
    [0094] Figure 3: Perspective view of the diaphyseal nail and the prosthesis mounted according to the embodiment examples of Figures 1 and 2.
    [0095]
    [0096] Figure 4: Perspective view of the anterior spherical component introducer.
    [0097]
    [0098] Figure 5: Perspective view of a centering of the Kirschner needles (handle-guide centering nail).
    [0099]
    [0100] Figure 6: Perspective view of a Kirschner needle centering with an example of a sheath placed on a patient's body (in this case on the hip), indicating the incisions to be made.
    [0101]
    [0102] Figure 7: Perspective view of the femoral or humeral head extractor.
    [0103]
    [0104] Figure 8: Perspective view of the introducer of the metaphyseal component.
    [0105]
    [0106] Figure 9: Details of the introducer of the metaphyseal component.
    [0107] Figure 10: Perspective view of the inserted spherical component and metaphyseal component introductors.
    [0108]
    [0109] Figure 11: Perspective view of the diaphyseal nail together with an example of the diaphyseal nail introducer
    [0110]
    [0111] Figure 12 : Detail view of the orientation marks.
    [0112]
    [0113] Figure 13 : Interlock view
    [0114]
    [0115] EMBODIMENTS OF THE INVENTION
    [0116]
    [0117] Next, an embodiment of the invention will be briefly described as an illustrative and non-limiting example thereof. It will be described applied to a hip prosthesis, although as indicated, it is applicable in a shoulder prosthesis.
    [0118]
    [0119] The prosthesis of the invention is formed by three independent bodies, which in the embodiment shown in the figures correspond to:
    [0120]
    [0121] - A spherical component (1), generally hemispherical. It can be bipolar / biarticular or monopolar.
    [0122]
    [0123] - A metaphyseal component (2), supporting the spherical component (1), to which it joins within the patient's body. It will be prepared in different lengths for femoral offset control.
    [0124]
    [0125] - A diaphyseal nail (3), which crosses a hole (21) of the metaphyseal component (2) to fix it in position. It will be prepared with different diameters and lengths.
    [0126]
    [0127] Figure 1 shows the spherical component (1), which has a spherical face (11), which is generally equivalent to half a sphere, although it may be somewhat larger or somewhat lower than the half sphere. It also has a rear face (12) for fixing to the metaphyseal component (2), for which it comprises a drill (13), which in the example shown is screwed. Ideally the thread is conical. The rear face (12) of the spherical component (1) has hooks (14) for a first instrument that is the introducer of the spherical component (300). The spherical component (1) will be manufactured in different dimensions so that the surgeon selects the most suitable one.
    [0128]
    [0129] The metaphyseal component (2) of Figure 2 is attached to the spherical component (1) by means of a rod (22) that can be threaded or include another type of fixation according to the hole (13). It also has the transverse hole (21) through which the diaphyseal nail (3) is inserted, which is placed inside the femoral canal, and which allows the immobilization of both components (1,2). It also comprises a longitudinal perforation (23), on the opposite side of the rod (22), where an interlock (24) is inserted to jointly join the metaphyseal component (2) to the diaphyseal nail (3). The interlocker (24) will normally be a threaded screw whose tip goes through, totally or partially, the diaphyseal nail (3). In the embodiments shown, the metaphyseal component (2) has a groove in its entire surface to improve the support in the femur. Other types of finishing are also possible.
    [0130]
    [0131] Finally, the diaphyseal nail (3) is intended for insertion into the femoral canal and has a first section (31) of increasing section, where one or more fixing holes (32) for one or more fixing screws to the femur is located . The second section (33) of the diaphyseal nail (3) is the one that is partially inserted into the metaphyseal component (2) and protrudes from its upper part. Therefore, you are ready to receive the nailer (24). In figure 3 it has been represented with a support bracket (34) on the edge of the hole (21) of the metaphyseal component (2), which helps to stop the introduction of the diaphyseal nail (3) and transmit the created moments with the movements of the joint and the load when walking when the patient rests on the operated leg.
    [0132]
    [0133] The angle that is formed between the metaphyseal component (2) and the diaphyseal nail (3) (cervical-diaphyseal angle) will be of the order of 125 ° (may be greater or lesser, for example between 120 ° and 130 °).
    [0134]
    [0135] Next, the preferred procedure of placement of the hip prosthesis will be described, taking advantage to describe the necessary instruments. This instrument is part of the invention, as it is the most suitable way to place the elements of the prosthesis of the invention or other similar prostheses.
    [0136] The prosthesis placement procedure requires two or three incisions (Figure 6):
    [0137]
    [0138] - Upper incision (IS) slightly proximal to the greater trochanter
    [0139] - Medium incision (IM) that will be determined by the place where the Kirschner needles enter according to the Kirschner needle center
    [0140] - Lower incision (not shown) that will be determined by the placement of the distal screws. The lower incision may be unnecessary as it may coincide with the middle incision (IM).
    [0141]
    [0142] First, the femoral head resection is performed. It is performed using a cannulated extractor (200) of the femoral or humeral head, which is inserted into the middle incision (IM). To remove the femoral head, the cannulated femoral head extractor (200) should penetrate as perpendicular and as centered as possible on the spongy bone of the femoral head.
    [0143]
    [0144] For this, a first Kirschner needle (102) is used as a guide, which is inserted through the middle incision (IM). A second Kirschner needle (102 ’) can also be applied through the middle incision (IM), as indicated below.
    [0145]
    [0146] This Kirschner needle that guides the cannulated femoral head extractor (200) should be centered on the diaphysis, neck and femoral head. The interlocking of the Kirschner needles (102, 102 ’) in the correct position is done by means of a Kirschner needle centering (100) with a general inverted" U "shape.
    [0147]
    [0148] The Kirschner needle centering (100) has a Kirschner needle centering nail (101) at one end and a guide handle (104) that forms the rest of the Kirschner needle centering (100). The centering nail (101) is intended to be inserted into the femoral canal through the upper incision (IS), while the guide handle (104) is disposed outside the patient's body.
    [0149]
    [0150] Through this upper incision (IS), an entry into the tip of the greater trochanter with a drill of suitable diameter will have been made prior to the introduction of the centering nail (101), and an opening will also have been made in the upper area of the articular hip capsule that allows femoral head removal subsequently through this opening using the cannulated extractor (200) of the femoral head.
    [0151]
    [0152] Both the centering nail (101) and the guide handle (104) have vertical openings (105, 105 ') in their lower part that allow the Kirschner needle center (100) to be removed once the Kirschner needles (102) , 102 '). The upper edges of both openings will be aligned.
    [0153]
    [0154] The centered placement of the first Kirschner needle (102) is essential, so the surgeon should check its position using the image intensifier generally arranged in operating rooms or another similar method.
    [0155]
    [0156] Figures 5 and 6 show the Kirschner needle center (100) arranged in its use position, with the Kirschner needles (102, 102 ’) placed. A sheath (103) can be used to help align the two Kirschner needles (102, 102 ’), and which will be removable from the guide handle (104). When the sheath (103) is used, it will have an overpass for the first Kirschner needle (102), which will be the one that is actually aligned with the upper edge of the vertical opening (105) of the centering nail (101). The sheath (103) may have more steps for more Kirschner needles (102, 102 ’).
    [0157]
    [0158] After placement of the used Kirschner needles (102, 102 ’), the centering (100) and the sheath (103) are removed if used.
    [0159]
    [0160] The preferred model of cannulated extractor is shown in Figure 7. It comprises a tubular part (201), that is, cannulated, with a fist (202) at one end and a drill (203), which can be conical or cylindrical opposite. The drill bit (203) allows the passage, adjusted, through its center of the first Kirschner needle (102). In this way, the cannulated extractor (200) can be guided to the femoral head without the tolerance in that step affecting the result.
    [0161]
    [0162] In one embodiment, the drill bit (203) can be formed by several internally convergent and somewhat flexible elements. In that embodiment, the internal diameter of the tubular part (201) is greater than that of the first Kirschner needle (102) so that it is possible, if desired, to insert a stretcher (not shown) of the drill bit (203) that separates the convergent elements and help the interlocking of the drill bit (203) in the femoral head.
    [0163] The second Kirschner needle (102 ’) will serve as an anchor for the femoral head to prevent rotation of the latter when the cannulated femoral head extractor (200) is being introduced into the femoral head. Therefore, it is optional. In Figure 6 it has been shown below the first Kirschner needle (102), but the exact position may vary.
    [0164]
    [0165] Before inserting the cannulated femoral head extractor (200) through the middle incision (IM), it is necessary to have the lateral cortex of the femur broached from the same middle incision with a drill of sufficient diameter to allow the passage of the cannulated extractor (200) through the hole made. For this brocade a cannulated drill bit will be used that will use the same Kirschner needle as a guide.
    [0166]
    [0167] The next step is to introduce the cannulated femoral head extractor (200) from the middle incision (IM) to the femoral head. Upon reaching the spongy bone of the femoral head, as the bone hardens as we approach the subchondral bone, greater grip is achieved with the rotations of the cannulated extractor (200). The second needle prevents rotation of the head inside the acetabulum by introducing the cannulated extractor (200).
    [0168]
    [0169] Once the femoral head is secured to the extractor, the Kirschner needles (102, 102 ') are removed and adduction of the affected limb is performed, and with the help of the cannulated femoral head extractor (200) the femoral head is dislocated from the top of the joint (For the opening already made in the upper area of the joint capsule) for its extraction by the upper incision (IS). Once removed, the cannulated extractor (200) can be removed through the middle incision (IM).
    [0170]
    [0171] With this technique of resection of the femoral head, the joint capsule and the acetabular labrum remain intact. This implies that the hip retains its own stabilizing elements, providing the device with correct stability avoiding dislocations. You also need a smaller incision and less dissection of soft tissues with respect to any approach to prostheses (hip arthroplasty), so that bleeding decreases during surgery.
    [0172]
    [0173] Next, the spherical component introducer (300) is used, on which the spherical component (1) will be mounted. It can be seen that, in the realization of Figures 1 and 4, is quite similar to the Kirschner needle center (100), in that it has an arched handle (301) and a support (302) of the spherical component (1). This support (302) can be connected to the hooks (14) of the spherical component (1), sufficiently rigid, and in turn release the hooks (14) when desired by means of an external actuator (303), which in The case represented is a screw that separates the arms from the support (302).
    [0174]
    [0175] It can be seen that the handle (301) of the spherical component introducer (300) has a groove (304) that is oriented towards the borehole (13) of the spherical component (1). That is, any straight material that is introduced through the slit (304) will contact the hole (13) without the need for further operations. The slit (304) will be open at the bottom to allow the handle (301) to be removed regardless of the presence of an element in the slit (304).
    [0176]
    [0177] Therefore, an introducer of the metaphyseal component (400) can be used, consisting of two elongated and coaxial hollow rods (401,402). The tubular outer rod (401) comprises a fastener (403) of the metaphyseal component (2) at one end and the inner rod (402) a handle (404) at the opposite end. The outer rod (401) will have the appropriate outer diameter so that the alignment with the hole (13) is perfect when placed in the slit (304) (figure 10). The surgeon will introduce the metaphyseal component (2) through the middle incision (IM) and fix it to the hole (13) in the appropriate way, usually threaded. An indication in the introducer of the metaphyseal component (400) will indicate when it is in the correct position so that the hole (21) is perfectly prepared to receive the diaphyseal nail (3).
    [0178]
    [0179] Figure 9 shows two details of the introducer of the preferred metaphyseal component (400). The relative movement between both rods (401,402) will allow the fastener (403) to be released or kept fixed. It is appreciated that the fastener (403) is formed by turrets (406) of a bayonet closure in the outer tubular body, for the corresponding grips of the metaphyseal component (2). On the other hand, on the inner rod (402) there are two projections (405) that must enter the corresponding notches (25) of the metaphyseal component (2). If both rods (401,402) rotate in solidarity, the projections (405) ensure that the metaphyseal component (2) is screwed into the hole (13). If they rotate independently, the projections (405) can cause the clamp (403) to be disconnected in a bayonet. A thread (407) close to the handle (404) supports the movement between both coaxial rods (401,402) when tightened, against the outer rod (401), a latch (408) that can slide with respect to the rods (401, 402), but which cannot rotate with respect to the inner rod (402). Teeth, or any other method will cause the proximity of the latch (408) to prevent the rotation of the outer rod (401).
    [0180]
    [0181] Once the spherical component (1) is fixed to the metaphyseal component (2), the spherical component introducer (300) can be removed, releasing the hooks (14) thanks to the actuator (303).
    [0182]
    [0183] At that time the diaphyseal nail (3) is placed by means of a diaphyseal nail introducer (500), as shown in Figure 11. This diaphyseal nail introducer (500) has a handle (501) that can be identical to the handle ( 301) of the spherical component introducer (300). Specifically, it will have a groove (503) in its lower part that can embrace the introducer of the metaphyseal component (400). At the other end of the diaphyseal nail introducer (500) the diaphyseal nail (3) is arranged in any removable manner. This diaphyseal nail introducer (500) will have a release (504) of the diaphyseal nail (3) accessible from the outside. For example, a screw that holds or releases the diaphyseal nail (3).
    [0184]
    [0185] The diaphyseal nail introducer (500) has been shown with an eyelet (506) of the distal screw or the corresponding tool. As can be seen in Figure 6, the middle incision (IM) is used to place it.
    [0186]
    [0187] The diaphyseal nail (3) is inserted through the upper incision (IS) until it crosses the hole (21) of the metaphyseal component (2). At that time the diaphyseal nail (3) is blocked because the size of its second section (33) is related to that of the hole (21). Even more so if the diaphyseal nail (3) has a bracket (34).
    [0188]
    [0189] Once the diaphyseal nail (3) is placed, the interlocker (24) is inserted through the inner recess to the inner rod (402) of the metaphyseal component introducer (400), and it is screwed or fixed properly. It is preferred that the interlocker (24) terminate in a threaded area. The interlocker (24) can be pre-installed in the metaphyseal component (2), or in the introducer of the metaphyseal component (400) so that the fixation only needs to introduce the fixing or screwing tool.
    [0190] Once the interlocker (24) is placed, the metaphyseal component of the metaphyseal component introducer is disengaged. At that time, the anteversion of the hip arthroplasty device with respect to the femur is chosen.
    [0191]
    [0192] In the figures, especially in figure 12, it can be seen that the handle (301), the handle (501) and the guide handle (104) have two series of orientation marks (505) that allow the surgeon to know the angular orientation (anteversion) of the spherical component introducer (300) or the Kirschner needle centering (100). They consist of objects (holes, inserts, ...) with an X-ray transparency different from the rest of the instrument. Each of them will have a different angle ("0o, 8 ° and 16 °"; "0o, 10 ° and 20 °"; "0 °, 5 °, 10 ° and 15 °"; ...)
    [0193]
    [0194] Thus, when the surgeon uses the image intensifier, the mark (505) that is not deformed will indicate the angle of anteversion applied to the femur. Figure 12 has been made with an angle corresponding to the first mark (505), so that it is not deformed but the others are.
    [0195]
    [0196] The handle (301), the guide handle (104) or the handle (501) can be identical or even be the same element.
    [0197]
    [0198] Once the anteversion has been chosen, the diaphyseal nail (3) is fixed to the femur by placing the distal screws. In the lower part of the diaphyseal nail (3) one or several distal screws are arranged in each fixing hole (32). This introduction can be by any method known in the art, either by the lower incision or by the middle incision (IM), depending on the position or orientation of the fixing holes (32).
    [0199]
    [0200] Once this is done, the diaphyseal nail introducer (500) is removed, leaving the hip replacement device already in its final position.
    [0201]
    [0202] Therefore, the invention comprises, in addition to the prosthesis, a whole series of preferred instruments that are designed to assist in its placement and to remove the femoral head:
    [0203]
    [0204] - A Kirschner Needle Centering (100)
    [0205]
    [0206] - A cannulated femoral or humeral head extractor (200)
    [0207] - An introducer of the spherical component (300)
    [0208]
    [0209] - An introducer of the metaphyseal component (400)
    [0210]
    [0211] - A diaphyseal nail introducer (500)
    [0212]
    [0213] It is appreciated that the first two introductors (300, 400) serve as a guide for the introduction of the next introducer. That is, the spherical component introducer (300) serves as a guide for introducing the metaphyseal component introducer (400), and this in turn serves as a guide for introducing the diaphyseal nail introducer (500) (figure 10), so that the error is minimized and manipulation by the surgeon is facilitated.
    [0214]
    [0215] However, it is possible to use some different instruments that would allow the prosthesis to be assembled in its place of use, but without facilitating the work of the surgeon. For example, always using straight introductors.
    [0216]
    [0217] On the other hand, the transmission of the load from the prosthesis to the femur is distributed in several points: the metaphyseal component (2) transmits its load to the calcar, while the diaphyseal nail (3) transmits it to the diaphysis and to each distal screw by the corresponding fixing hole (32). All this provides sufficient stability, so it is not mandatory to cement, avoiding all complications of cementation of hip replacement.
    [0218]
    [0219] However, it is preferred to cement. The metaphyseal component (2) and / or the diaphyseal nail (3) may have a path that will allow cement to be introduced from the outside, once placed, through a cannula, syringe, etc. in order to increase the contact between the different parts of the prosthesis and the femur.
    [0220]
    [0221] All materials must be biocompatible, especially those that remain within the patient's body.
    权利要求:
    Claims (1)
    [0001]
    1- Hip or shoulder prosthesis , for replacement of the femoral or humeral head, characterized in that it comprises:
    - a spherical component (1), substantially hemispherical with a rear face (12) with a bore (13) and hooks (14);
    - a metaphyseal component (2) formed by a straight element with a transverse hole (21), approximately central, and a rod (22) fixed to the bore (13) of the spherical component (1), and a longitudinal perforation (23) that it crosses the hole (21), whose opening is on the side opposite the stem (22);
    - a diaphyseal nail (3), intended for insertion into the femoral or humeral canal, with a first section (31), where one or more fixing holes (32) are located for two distal fixation screws to the femur and a second section (33) partially arranged in the hole (21) of the metaphyseal component (2); Y
    - an interlocking device (24) arranged in the perforation (23) and crossing the second section (33) of the diaphyseal nail (3).
    2- Prosthesis according to claim 1, whose metaphyseal component (2) has a groove in its entire surface.
    3- Prosthesis , according to claim 1, whose nailer (24) completely crosses the diaphyseal nail (3) and is threaded at its tip.
    4- Prosthesis , according to claim 1, whose diaphyseal nail (3) has a bracket (34) in the second section (33), above the metaphyseal component (2) and supported on it, on the side opposite the stem (22 ).
    5- Cannulated femoral or humeral head extractor , usable in the placement of the prosthesis of claim 1, characterized in that it comprises a tubular piece (201) with a fist (202) at one end and a conical drill bit (203) or cylindrical, in the opposite, the drill (203) having a passage in its tip configured to allow tightly pierce a Kirschner needle (102, 102 '), and the fist (202) a through hole aligned with the hole in the tubular part (201).
    6- Cannulated femoral or humeral head extractor , according to claim 5, whose drill (203) is formed by several internally convergent flexible elements, and the internal diameter of the tubular part (201) is greater than the passage made in the drill ( 203).
    7- Kirschner needle centering , usable in the placement of the prosthesis of claim 1, characterized in that it has a general inverted "U" shape, with:
    - a centering nail (101) at one end, intended to be inserted into the femoral or humeral canal, with a vertical opening (105) at its bottom; Y
    - a guide handle (104) in the opposite, with a vertical opening (105 ’) in its lower part whose upper edge is aligned with the upper edge of the vertical opening of the centering nail (101).
    8- Kirschner needle centering device (100), according to claim 7, which has a sheath (103) in the vertical opening (105 ') of the guide handle (104) with an upper passage for a first Kirschner needle (102) ), aligned with the upper edge of the vertical opening (105) of the centering nail (101).
    9- Kirschner needle center (100), according to claim 8, whose sheath (103) has another passage for a second Kirschner needle (102 ').
    10- Kirschner needle centering device (100), according to claim 7, whose handle (104) has marks (505) with an X-ray transparency different from the rest of the Kirschner needle centering machine (100), with different angles developmental.
    11- Introducer of the spherical component (300), usable with the spherical component (1) of claim 1, characterized in that it has an inverted "U" shape, with:
    - a handle (301) with a groove (304) open at the bottom edge, and with an upper edge facing the bore (13) of the spherical component (1); Y - a support (302) compatible with the hooks (14) of the spherical component (1), and releasable by means of an actuator (303).
    12- Introducer of the spherical component (300), according to claim 11, whose handle (301) has marks (505) with an X-ray transparency different from the rest of the Introducer of the spherical component (300), with different development angles .
    13- Introducer of the metaphyseal component (400), usable with the metaphyseal component (2) of claim 1, characterized in that it consists of a straight hollow rod, with a fastener (403) of the metaphyseal component (2) at one end and a handle (404) in the opposite.
    14- Introducer of the metaphyseal component according to claim 13, comprising two coaxial tubular bodies, and the fastener (403) is formed by turrets (406), in the outer tubular body, of a bayonet closure for the corresponding grips of the metaphyseal component (2), and also comprises a thread (407) close to the handle (404) for blocking the relative movement between both tubular bodies.
    15- Introducer of the diaphyseal nail (500), usable with the diaphyseal nail (3) of claim 1, characterized in that it has an inverted "U" shape, with a handle (501) with a groove (503) open towards its bottom at a first end and a detachable coupling for the nail (3) at the opposite end.
    16- Diaphyseal nail introducer (500), according to claim 15, whose handle (501) has marks (505) with an X-ray transparency different from the rest of the metaphyseal nail introducer (500), with different development angles .
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    ES2832583A1|2021-06-10|Total hip or shoulder prosthesis and instruments for their placement |
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    同族专利:
    公开号 | 公开日
    KR20210018853A|2021-02-18|
    ES2735007B2|2020-07-17|
    CN112165918A|2021-01-01|
    EP3804662A1|2021-04-14|
    CA3102694A1|2019-12-19|
    JP2021527477A|2021-10-14|
    AU2019286808A1|2021-01-07|
    WO2019238992A1|2019-12-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP1240879A2|2001-03-13|2002-09-18|Nicholas G. Sotereanos|Hip implant assembly|
    EP1344505A2|2002-03-11|2003-09-17|Nicholas G. Sotereanos|A modular hip implant|
    US20050125067A1|2003-12-08|2005-06-09|Sweeney Patrick J.|Modular cannulated total joint prosthesis|
    US20120130502A1|2006-12-07|2012-05-24|Ihip Surgical, Llc|Method and apparatus for hip replacement|
    WO2009052294A1|2007-10-16|2009-04-23|Ebi, Llc|Method and apparatus for orthopedic fixation|
    WO2011028520A2|2009-08-26|2011-03-10|Depuy Products, Inc.|Improved hip fracture nail system|
    US20180078291A1|2016-09-22|2018-03-22|Globus Medical, Inc.|Systems and methods for intramedullary nail implantation|ES2832583A1|2019-12-10|2021-06-10|Desarrollos Biomecanicos Innovasan S L|Total hip or shoulder prosthesis and instruments for their placement |US6589281B2|2001-01-16|2003-07-08|Edward R. Hyde, Jr.|Transosseous core approach and instrumentation for joint replacement and repair|
    US6755865B2|2001-09-24|2004-06-29|Imad Ed. Tarabishy|Joint prosthesis and method for placement|
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    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201830565A|ES2735007B2|2018-06-11|2018-06-11|Hip or shoulder prosthesis and placement instruments.|ES201830565A| ES2735007B2|2018-06-11|2018-06-11|Hip or shoulder prosthesis and placement instruments.|
    CN201980034741.2A| CN112165918A|2018-06-11|2019-06-10|Hip or shoulder prosthesis and placement device thereof|
    PCT/ES2019/070399| WO2019238992A1|2018-06-11|2019-06-10|Hip or shoulder prosthesis and positioning instrument|
    JP2020568783A| JP2021527477A|2018-06-11|2019-06-10|Hip or shoulder prosthesis, and positioning device|
    EP19820476.0A| EP3804662A1|2018-06-11|2019-06-10|Hip or shoulder prosthesis and positioning instrument|
    CA3102694A| CA3102694A1|2018-06-11|2019-06-10|Hip or shoulder prosthesis and positioning instrument|
    KR1020207037028A| KR20210018853A|2018-06-11|2019-06-10|Hip or shoulder prosthesis and placement instruments|
    AU2019286808A| AU2019286808A1|2018-06-11|2019-06-10|Hip or shoulder prosthesis and positioning instrument|
    US16/883,086| US20200323575A1|2018-06-11|2020-05-26|Hip or Shoulder Prosthesis and Placement Instruments|
    US16/766,863| US20210145591A1|2018-06-11|2020-05-26|Hip or Shoulder Prosthesis and Placement Instruments|
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