US20060116680A1 - Extractor for a bone connection element - Google Patents
Extractor for a bone connection element Download PDFInfo
- Publication number
- US20060116680A1 US20060116680A1 US10/999,668 US99966804A US2006116680A1 US 20060116680 A1 US20060116680 A1 US 20060116680A1 US 99966804 A US99966804 A US 99966804A US 2006116680 A1 US2006116680 A1 US 2006116680A1
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- United States
- Prior art keywords
- insert
- bar
- sleeve
- threaded
- opening
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/56—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor
- A61B17/58—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
- A61B17/88—Osteosynthesis instruments; Methods or means for implanting or extracting internal or external fixation devices
- A61B17/92—Impactors or extractors, e.g. for removing intramedullary devices
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B17/00—Surgical instruments, devices or methods, e.g. tourniquets
- A61B17/56—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor
- A61B17/58—Surgical instruments or methods for treatment of bones or joints; Devices specially adapted therefor for osteosynthesis, e.g. bone plates, screws, setting implements or the like
- A61B17/68—Internal fixation devices, including fasteners and spinal fixators, even if a part thereof projects from the skin
- A61B17/80—Cortical plates, i.e. bone plates; Instruments for holding or positioning cortical plates, or for compressing bones attached to cortical plates
- A61B17/8033—Cortical plates, i.e. bone plates; Instruments for holding or positioning cortical plates, or for compressing bones attached to cortical plates having indirect contact with screw heads, or having contact with screw heads maintained with the aid of additional components, e.g. nuts, wedges or head covers
- A61B17/8047—Cortical plates, i.e. bone plates; Instruments for holding or positioning cortical plates, or for compressing bones attached to cortical plates having indirect contact with screw heads, or having contact with screw heads maintained with the aid of additional components, e.g. nuts, wedges or head covers wherein the additional element surrounds the screw head in the plate hole
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/53—Means to assemble or disassemble
- Y10T29/53909—Means comprising hand manipulatable tool
- Y10T29/5393—Means comprising impact receiving tool
Definitions
- the invention concerns an extractor device for an insert to be used with a bone connection element usable within an implantable orthopedic device having a load-bearing element such as a bone plate with at least one opening for a fixation element such as a bone screw.
- a screw can be used such as shown in the application entitled “Self-Guiding Threaded Fastener” with inventor Yves Crozet filed on Nov. 30, 2004 the entire disclosure of which is incorporated herein by reference.
- the invention is furthermore related to the insert itself and to an insertion device for such an insert.
- the inserts may be used in bone plating systems such as described in the application entitled “Bone Plating Implants, Instruments and Methods” filed Nov. 30, 2004 listing Yves Crozet, Christian Lutz and Renee Wirth as inventors the disclosure of which is hereby incorporated by reference.
- Such an insert is provided that can be inserted into the opening in a receptacle in which the external shape of the insert is at least partially complementary to the internal shape of the receptacle.
- the insert has a central through-bore for mounting a body of the fixation element.
- the implantable orthopedic device has a structure for holding the insert in the receptacle.
- a series of implantable orthopedic devices with load-bearing elements, such as bone plates, with openings for the insertion of fixation elements in such load-bearers are known from the prior art. Among them are proposals for the mono-axial as well as poly-axial attachment of fixation elements, particularly screws.
- FIG. 1 OF WO 2004/082493 shows a perspective view of an insert to be used with a load-bearing element such as a bone plate.
- FIG. 2 is a sectional side view of a load-bearing element with another insert inserted.
- the load-bearing elements can be equipped in advance with standard inserts. This enables an easier more cost efficient production of bone plates giving the surgeon the possibility to adapt the bone plate according to his needs.
- a surgeon thus may turn an opening in a bone plate adapted to receive a non-locking screw to an aperture in which a locking screw having a threaded portion adapted to threadably engage the plate via the insert can be used. Then it may sometimes be necessary to extract one or the other insert and to replace it by another different insert or to leave the bore or opening empty.
- the prior art exhibits the disadvantage that there are no extracting tools provided to help the surgeon team to extract inserts.
- an extractor device which can engage the insert in a manner that enables the extraction of the said insert from the load-bearing element in a simple and swift movement.
- the extraction can be accomplished for quite a number of different inserts, with different angled positions.
- Of particular advantage is that the secure extraction of the insert can be assured directly and automatically with the use of the extractor device.
- One single extractor device is sufficient to provide the necessary help to extract various inserts with inclined axes as long as the inner bore has a predefined thread.
- the surgeon can therefore use a bone plate with inserts with predefined angles for the insertion of poly- or monoaxial screws and change one or more of the inserts to orient bone screws at a number of different defined angles in a simple manner.
- FIG. 1 is a top view of a load-bearing element in the form of a bone plate with a row of attachment bores;
- FIG. 2 is a perspective view of a first insert to be used with a load-bearing element
- FIG. 3 is a sectional side view of a load-bearing element with a second insert inserted
- FIG. 4 is a perspective view of an extractor device according to one embodiment of the invention.
- FIG. 5 is a side view of the device according to FIG. 4 ;
- FIG. 6 is a sectional side view of the external sleeve of the extractor device according to FIG. 4 ;
- FIG. 7 is a perspective view of the inner bar of the extractor device according to FIG. 4 ;
- FIG. 8 is a sectional side view of the inner bar of FIG. 7 ;
- FIG. 9 is an enlarged view of the tip of the inner bar of FIG. 7 ;
- FIG. 10 is a sectional side view of an extractor device according to a second embodiment of the invention in vicinity of an load-bearing element
- FIG. 11 is a side view of an insertion device according to an embodiment of the invention.
- FIG. 12 is an detail of the tip of the insertion device according to FIG. 11 ;
- FIG. 13 is a perspective view of a second insert to be used with a load-bearing element
- FIG. 14 is a sectional side view of the insert according to FIG. 13 ;
- FIG. 15 is an enlarged side view showing a detail of the insert according to FIG. 13 .
- FIG. 1 there is shown a top view of a load-bearing element in the form of a plate 1 with a row of attachment bores 2 arranged along the longitudinal direction of plate 1 .
- FIG. 2 shows a perspective view of a first insert 10 to be used with a load-bearing element 1 .
- Bores 2 of plate 1 are through-bores that exhibit an oval central opening 3 .
- At opening 3 there are two sidewalls 5 on opposite sides of axis 4 , which extend parallel to the direction of longitudinal axis 4 of plate 1 and extend at right angles to the surfaces of the plate. These parallel sidewalls 5 are connected on both ends by semicircular walls 6 , each forming a semi-cylindrical boundary so that together the aforementioned oval opening 3 results.
- oval bores 2 can also be provided. Bores 2 can also be elliptical or of a common elongated form. What is essential is the multiplicity of functions for the selection of attachment elements or fasteners made possible by insert 10 shown in FIG. 2 . Through the mostly elongated form of plate 1 , elongated bores 2 are preferred over circular bores in order to maintain flexibility with the insertion of screws with larger diameters. The bore may also be essentially cylindrical with the disadvantage that the insert 10 has less material for providing inclined holes in the insert 10 .
- opening 3 Arranged around the cylindrical, not necessarily circular walls 5 , 6 forming opening 3 is chamfered surface area 7 , extending and tapering inwardly from the upper surface 8 of plate 1 that faces away from the bone during implantation.
- the form of this area 7 is preferably part-spherical.
- top surface 8 of load-bearing element 1 is formed somewhat deeper in the side area 18 near bores 2 .
- upper edge 15 of sidewall 5 which are shown to be lower (closer to the plate bottom surface) in a direction opposite the bore ends in longitudinal direction 4 .
- Bottom surface 9 which is closest to the bone in insertion during surgery is here locally flat.
- plates 1 can exhibit continuous surfaces 8 and undersurfaces 9 which at each point, for the function of positioning on the bone can always be considered to be flat. But here too, positioning on curved or bent surfaces can be provided.
- FIG. 2 shows a perspective view of an insert 10 to be used with a load-bearing element 1 according to FIG. 1 . Similar characteristics appear in all figures with the same reference numerals.
- Each insert 10 is designed to be shaped complementary to bore 2 for locking therein with respect to areas 7 and sidewalls 5 .
- Insert 10 has a central bore 11 with an internal threading 12 .
- Internal threading 12 can be cylindrical or slightly conical.
- Insert 10 can have an area that extends beyond lower surface 9 of plate 1 that is adjacent the bone.
- insert 10 has locking mechanisms along its edges.
- the locking mechanism can be two projecting rims that engage the underside 9 of plate 1 after the insertion of insert 10 .
- the insert 10 when it is inserted into plate 1 , with its extension area, can form a distance spacer with regard to the bone material into which a screw that has been inserted into bore 11 is turned.
- a recess 33 is provided on the bottom surface 9 around opening 2 of the plate 1 .
- This recess can also be provided on the narrow side.
- insert 10 is provided with a projecting rim 27 that is arranged in such a way that the bottom of insert 10 does not project beyond lower surface 9 . The underside of insert 10 is thus at least flush with the aforementioned surface 9 of the load-bearing element 1 .
- the reference numeral 21 refers to the surface of insert 10 having a circumference 22 that meets with the edge of area 8 of plate 1 .
- a spherical surface 23 extends downwardly from surface 21 and is shaped so as to have complementary surface contact with surface 7 .
- Semicircular extension 24 extends downwardly from surface 23 and is in conforming contact, without any significant play, with area 6 of bore 2 .
- each extension 25 has, on its lower edge, a projecting rim 27 facing outward from the point of view of the insert with an upward-facing shoulder 28 with an outer edge 29 .
- the surface of rim 27 that is facing toward the bone can be inclined.
- Extension 25 is also to a certain extent, flexible. In inserting insert 10 , extension 25 then slides into bore 2 and is deflected inwardly by the projecting rim 27 . Once insert 10 is completely inserted, shoulder 28 slides against underside 9 of plate 1 and locks insert 10 in plate 1 . This locking is additionally ensured by the subsequent insertion of a bone screw (not shown).
- FIGS. 13 thru 15 show a slightly modified insert having tapered side elements or sidewalls 25 a which taper inwardly from their free edges 127 to surface 23 a . The insert will be described in more detail below.
- Pressure has to be exerted in such a way that an inward deflection of extension 25 , 25 a is obtained so that projecting rim 27 , 127 is no longer secured under plate 1 or in a recess provided at the bottom of the plate 1 .
- the extractor device has to also function if extension 25 , and with it projecting rim 27 , are not arranged as two extensions 25 on the opposing longer sides of insert 10 .
- the design can also include resilient extensions on the narrow sides of an insert, i.e. corresponding to the location of the semicircular cylindrical extensions 24 . Extensions 25 can also be arranged in an alternating manner. There can also be only one or two more extensions.
- Extractor device 50 comprises two different parts, an outer sleeve 60 and an inner bar 70 extending on both sides beyond the through going bore or cannulation inside the sleeve 60 .
- the outer sleeve 60 is shown in greater detail in FIG. 6
- the inner bar 70 is shown in greater detail in FIG. 7 to 9 .
- FIG. 5 shows a side view of the device 50 according to FIG. 4 .
- the outer sleeve 60 comprises a hollow sleeve part 61 having a first handle part 62 being an integral part of the sleeve 60 .
- the first handle part 62 comprises a circumferential depression 65 to provide a grip portion for the hand of a user of the device 50 .
- a thickened abutment sleeve 63 is provided on the opposite end of the hollow sleeve part 61 ending in a round abutment ring 64 having a larger diameter than the diameter of the proximal bar section 73 of the inner bar 70 .
- the function of the abutment ring 64 will be explained below.
- the length of the external sleeve 60 can be between 150 and 200 millimeter with a first handle part 62 diameter of 30 to 50 millimeter and a outer sleeve diameter of e.g. 14 millimeter.
- the preferred inner bar 70 extends beyond both ends of outer sleeve 60 .
- the inner bar 70 comprises a second handle part 72 having a circumferential gripping depression 75 .
- the radius of the second handle part 72 is greater than the inner diameter of the hollow sleeve 60 .
- An engagement thread 71 is provided at the end of the proximal bar section 73 extending beyond the hollow sleeve 60 .
- FIG. 6 shows a sectional side view of the preferred external sleeve 60 of extractor device 50 according to FIG. 4 .
- the hollow sleeve comprises a through-bore extending along axis 82 a with a middle section 66 having a first diameter and extending from the opening 67 at the distal end near the first handle part 62 towards an internal thread 68 .
- the through-bore comprises on its proximal end 69 a second diameter being smaller than the above-mentioned first inner diameter.
- the internal thread 68 can have a length of e.g. 10 millimeter with 5 to 10 full threads.
- the internal thread 68 is positioned near the proximal end of the sleeve 60 , e.g. between 20 and 40 millimeter from the abutment ring 64 . It would also be possible to locate the internal thread 68 near or under the first handle part 62 .
- the first inner diameter being the inner diameter of a part of the sleeve 60
- said second diameter of the end portion 69 can be chosen to be 11 millimeter.
- the enlarged section 63 can have a diameter of 14 millimeter.
- FIG. 7 shows a perspective view of the preferred inner bar 70 of the extractor device 50 according to FIG. 4 .
- FIG. 8 shows a sectional side view of the inner bar 70 of FIG. 7 .
- the inner bar 70 comprises a first distal bar portion 74 having an outer diameter similar to the first inner diameter of the hollow sleeve 60 so that the bar 70 can be inserted with little play into the hollow sleeve 60 from the side of the opening 67 .
- the distal bar portion 74 ends in an abutment flange 76 of the gripping depression 75 .
- On the opposite end of the distal bar portion 74 a middle bar portion 77 has a thinner cylindrical portion.
- the middle bar portion 77 is followed, by a threaded portion 78 having a longitudinal length which is preferably identical to the inner threaded portion 68 of the outer sleeve 60 .
- the location of thread 78 also depends on the location of the inner threaded portion 68 . If portion 68 is located near or under the first handle part 62 then the threaded portion 78 of the inner bar 70 is located near or in the area of the distal bar portion 74 .
- the threaded portion 78 is proximally followed by the proximal inner bar section 73 .
- Inner bar section 73 is followed by a tip portion 71 of the inner bar 70 , which is shown in FIG. 9 in an enlarged view.
- the tip portion 71 preferably comprises four full threads of a thread 80 ending in a flat surface 81 .
- the thread 80 is conical and is connected with the inner bar section 73 via a chamfered flange 79 .
- the direction of the threading 80 is identical to the direction of the thread 78 .
- the main axis 82 of the bar 70 coincides with the axis 82 of the thread 80 and with the longitudinal main axis 82 a of the sleeve 60 .
- the advantage of a conical thread 80 is the easier fixation of the bar onto inserts 10 with damaged threads 12 .
- the function of the device 50 is as follows.
- the device is assembled through insertion of the bar 70 into the hollow sleeve 60 through the distal opening 67 within the sleeve 60 such that axis 82 , 82 a and coaxial.
- the thread 78 of the bar 70 engages the inner thread 68 of the hollow sleeve 60 and is rotated until the tip 71 is extending beyond the end of the hollow shaft 60 or until the threads 68 and 78 come free one from the other.
- Both threads 68 and 79 are right-handed, i.e. the thread 78 advances when turned clockwise with respect to its mating part 68 .
- the flange 76 of the second handle part 72 can ultimately abut against the first handle part 62 of the hollow sleeve 60 .
- the thread 78 may then no longer be in engagement with thread 68 .
- the bar 70 is then screwed into the insert 10 by turning the handle 72 , i.e. the conical thread 80 is engaging the internal threading 12 of the insert 10 .
- the abutment flange 79 of the tip is coming into contact with the upper surface 21 of the insert 10 .
- the abutment ring 64 is advanced to come into contact with the surface 8 of the plate 1 beside the insert 10 , i.e. the abutment ring 64 does not contact surface 21 but touches the plate 1 outside the circumference 21 of the insert 10 . This contact is possible independent from the angle and direction of the insert bore 11 as discussed above.
- the relative advancement of sleeve 60 in relation to the bar 70 can be a longitudinal movement or comprising a rotation when the threads 68 and 78 come into engagement.
- the handle part 62 is rotated against the handle part 72 of the inner bar, which is maintained in its position.
- the internal thread 12 of the insert 10 is also right-handed.
- the threads 68 and 78 may be left-handed. Then the surgeon has the usual anti-clockwise movement to extract the insert; however, it is then possible that the thread 12 of the insert 10 becomes no longer fastened to the conical thread 80 of the inner bar 70 .
- the abutment ring 64 can be of a different form than having a circular shape. It may have a polygonal abutment surface or the plane of the abutment surface can comprise an angle with the plane perpendicular to the longitudinal direction of axis 82 of the bar 70 .
- FIG. 10 shows a sectional side view of an extractor device 90 according to a second embodiment of the invention in vicinity of an load-bearing element 1 .
- Extractor device 90 comprises three different parts, an outer sleeve 60 and an inner bar 70 extending on both sides beyond the through going bore inside the sleeve 60 . Additionally there is an intermediate element 91 essential to the function of the device.
- the outer sleeve 60 comprises a hollow sleeve part 61 having a first handle part 62 being an integral part of the sleeve 60 .
- the first handle part 62 comprises a circumferential depression 65 to provide a grip portion for the hand of a user of the device 50 .
- a thickened abutment sleeve 63 is provided on the opposite end of the hollow sleeve part 61 ending in a round abutment ring 64 having a larger diameter than the diameter of the proximal bar section 73 of the inner bar 70 .
- the function of the abutment ring 64 is identical as explained above.
- the inner bar 70 extends on both sides of outer sleeve 60 .
- the inner bar 70 comprises a second handle part 72 having a circumferential gripping depression 75 .
- the intermediate element 91 is introduced between the two handle parts 62 and 72.
- the intermediate element 91 has a through bore 93 for the inner bar 70 .
- the intermediate element 91 comprises a grip portion 92 being able to be in abutment against the handle part 72 of inner bar 70 on one side and with the handle part 62 of the sleeve 60 on the other side.
- On the side of the handle part 72 the intermediate element 91 comprises an opening 97 in the flat upper surface to receive the inner bar 70 .
- On the side of the handle part 62 the intermediate element 91 comprises a smaller central projection 94 with an external thread 98 .
- Sleeve 60 incorporates in the handle part 62 a recess 95 to accommodate the projection 94 , wherein the recess 95 comprises an internal thread 108 .
- an engagement thread 71 is provided at the leading end of the proximal bar section 73 extending beyond the hollow sleeve 60 .
- Inner bar 70 of the extractor device 90 comprises a bar portion 74 having an outer diameter similar to the inner diameter of the hollow sleeve 60 and similar to the inner diameter of the intermediate element 91 so that the bar 70 can be inserted with little play into the intermediate element 91 and into the hollow sleeve 60 from the side of the openings 67 and 97 .
- the bar portion 74 ends in an abutment flange 76 of the gripping depression 75 .
- the tip portion 71 of extractor device 90 can be the same as the tip portion 71 of extractor device 50 .
- the function of the device 90 is as follows.
- the device is assembled through insertion of the intermediate element 91 into the hollow sleeve 60 through the opening 67 within the sleeve 60 .
- the thread 98 of the intermediate element 91 engages the inner thread 108 of the hollow sleeve 60 and is rotated until the handle part 92 abuts against the handle part 62 or the projection 94 reaches the depth of the recess 95 . Both threads 98 and 108 are right-handed.
- the bar 70 is then entered into intermediate element 91 and hollow sleeve 60 and screwed into the insert 10 by turning the handle 72 , i.e. the conical thread 80 is engaging the internal threading 12 of the insert 10 .
- the abutment ring 64 is advanced to come into contact with the surface 8 of the plate 1 beside the insert 10 , i.e. the abutment ring 64 does not contact surface 21 but touches the plate 1 outside the circumference 21 of the insert 10 .
- the handle part 92 of the intermediate element 91 is rotated against the handle part 62 of the hollow sleeve 60 , which is maintained in its position. As rotation occurs, the intermediate element 91 and the hollow sleeve 60 move apart, while the inner bar 70 just follows, because the handle part 72 is in abutment with the intermediate element 91 .
- the rotation of intermediate element 91 indirectly retracts the rod 73 further into the sleeve 60 and therefore exerts a force in the longitudinal direction of said axis 82 of the extractor device 90 on the insert 10 against the plate 1 . This leads to the situation that engagement means 25 of the insert 10 are overcome and the insert 10 will be extracted.
- the insert 10 Upon extraction of an insert 10 , the insert 10 either completely or nearly disappears within the hollow thickened abutment sleeve 63 .
- FIG. 11 shows a side view of an insertion device 100 according to an embodiment of the invention and FIG. 12 is an detail of the tip of the insertion device 100 according to FIG. 11 .
- Insertion device 100 is very similar to inner bar 70 , having a bar 101 with a handle part 102 at one end, whereas the other free end of the bar 101 comprises a cylindrical tip 103 with a smaller diameter than the bar 102 .
- Said tip 103 comprises one single thread 105 and ends with a flat bottom surface 104 , which can be chamfered for easier insertion.
- Tip 103 is positioned within the opening of an insert 10 and the thread 105 engages the complementary thread 12 of the insert 10 .
- the insert 10 , 20 to be inserted into a plate 1 is affixed to the insertion device 100 as mentioned above. Then the device 100 with the insert 10 , 20 at its tip is pushed against and into the plate 1 until the locking extensions 25 of the insert 10 , 20 are pushed beyond the smallest waist part, i.e. the smallest diameter in the hole 2 of a plate 1 . Then the insertion device 100 can be rotated in the opposite direction to free the insert 10 , 20 from its tip. This can be done directly, because the inserts 10 , 20 are oblong.
- FIG. 13 shows a perspective view of a second insert 110 to be used with a load-bearing element 1 .
- FIG. 14 is a sectional side view of the insert 110 according to FIG. 13 and
- FIG. 15 is an enlarged side view showing a detail of the resilient extension 25 a of the insert according to FIG. 13 .
- Insert 110 comprises a flat upper surface 121 at its circumference wherein on the inside of surface 121 a step-like recess 122 is provided.
- the resilient extension 25 a on each side is separated as within the embodiment according to FIG. 1 from the semicircular extensions 24 a by two slots 26 a .
- the resilient extension 25 a comprises a special triangular form when seen from the side or in a cross section.
- the resilient extension 25 a On the inside the resilient extension 25 a comprises the inner thread 12 which can be oriented in different ways and angles.
- the insert 110 On the outside the insert 110 has a waist 129 , i.e. an area with minimum exterior diameter.
- the thickened region 127 has a thickest part near the lower end of the extension 25 a , i.e. the cross section through the extension 25 a always shows a triangle form.
- the form of the plate 1 is complementary, i.e.
- the plate has at least on its sides a recess to accommodate the thickened region 127 .
- the chamfered lower end 128 facilitates the introduction of the insert 110 into a plate 1 .
- the angle of the surface 128 in relation to the bottom surface is 120 degree (reference numeral 124 ).
- the triangle form 127 also facilitates the extraction of the insert 110 because the inclined surface 126 , e.g. with an angle of 30 degree to the vertical axis of the insert 110 , can slide on the complementary inclined surface of the plate 1 or on the smallest internal diameter of hole 2 thereof.
- the advantage of the invention is that it offers the surgeon using a plate 1 with conventional standard bores 2 and inserted inserts 10 , 110 the possibility of adapting the plurality of angularly-stable mono-axial bores by replacement of inserts, and furthermore, that this is made possible intra-operatively.
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Abstract
An extractor device is provided to extract an insert to be used with a bone connection element such as a bone plate having at least one opening for a bone screw used with said insert. The extractor device has an outer hollow sleeve having proximal abutment surface being able to engage a surface portion of the bone connection element, and an inner bar having a diameter enabling the insertion of the bar into the hollow sleeve. The bar has a threaded leading end to engage the thread of the insert to be extracted. The hollow sleeve has an inner thread and the inner bar has an outer threaded element for engaging the inner thread of the hollow sleeve. The outer threaded element is positioned with respect to the bar in a longitudinal position to enable the thread at its leading end to extend beyond the proximal abutment surface of the sleeve to be threaded into the insert.
Description
- The invention concerns an extractor device for an insert to be used with a bone connection element usable within an implantable orthopedic device having a load-bearing element such as a bone plate with at least one opening for a fixation element such as a bone screw. A screw can be used such as shown in the application entitled “Self-Guiding Threaded Fastener” with inventor Yves Crozet filed on Nov. 30, 2004 the entire disclosure of which is incorporated herein by reference. The invention is furthermore related to the insert itself and to an insertion device for such an insert. The inserts may be used in bone plating systems such as described in the application entitled “Bone Plating Implants, Instruments and Methods” filed Nov. 30, 2004 listing Yves Crozet, Christian Lutz and Renee Wirth as inventors the disclosure of which is hereby incorporated by reference.
- Such an insert is provided that can be inserted into the opening in a receptacle in which the external shape of the insert is at least partially complementary to the internal shape of the receptacle. The insert has a central through-bore for mounting a body of the fixation element. The implantable orthopedic device has a structure for holding the insert in the receptacle.
- A series of implantable orthopedic devices with load-bearing elements, such as bone plates, with openings for the insertion of fixation elements in such load-bearers are known from the prior art. Among them are proposals for the mono-axial as well as poly-axial attachment of fixation elements, particularly screws.
- As an example for a device of this type having poly-axial attachment of screws in load-bearing elements is shown in U.S. Pat. No. 5,954,722. Other bone plates with inserts are shown in U.S. Pat. Nos. 5,269,784, 5,976,141 and 5,607,428. One advantageous insert is shown in WO 2004/082493, which is hereby incorporated by reference.
- FIG. 1 OF WO 2004/082493 shows a perspective view of an insert to be used with a load-bearing element such as a bone plate. FIG. 2 is a sectional side view of a load-bearing element with another insert inserted. The load-bearing elements can be equipped in advance with standard inserts. This enables an easier more cost efficient production of bone plates giving the surgeon the possibility to adapt the bone plate according to his needs. A surgeon thus may turn an opening in a bone plate adapted to receive a non-locking screw to an aperture in which a locking screw having a threaded portion adapted to threadably engage the plate via the insert can be used. Then it may sometimes be necessary to extract one or the other insert and to replace it by another different insert or to leave the bore or opening empty. The prior art exhibits the disadvantage that there are no extracting tools provided to help the surgeon team to extract inserts.
- It is therefore one aspect of the invention to provide an extractor device allowing to extract easily different inserts from different load-bearing elements.
- This aspect is fulfilled according to the invention for an extractor device of the aforementioned type which can easily remove an insert from a bone plate opening so that it may receive a non-locking screw.
- This object is achieved by an extractor device, which can engage the insert in a manner that enables the extraction of the said insert from the load-bearing element in a simple and swift movement. The extraction can be accomplished for quite a number of different inserts, with different angled positions. Of particular advantage is that the secure extraction of the insert can be assured directly and automatically with the use of the extractor device.
- One single extractor device is sufficient to provide the necessary help to extract various inserts with inclined axes as long as the inner bore has a predefined thread. The surgeon can therefore use a bone plate with inserts with predefined angles for the insertion of poly- or monoaxial screws and change one or more of the inserts to orient bone screws at a number of different defined angles in a simple manner.
- It is another aspect of the invention to provide an insert, which is easy to handle for the surgeon.
- It is furthermore an aspect of the invention to provide an insertion device allowing a simple insertion of different inserts into different load-bearing elements.
- The present invention will be better understood on reading the following detailed description of non-limiting embodiments thereof, and on examining the accompanying drawings, in which:
-
FIG. 1 is a top view of a load-bearing element in the form of a bone plate with a row of attachment bores; -
FIG. 2 is a perspective view of a first insert to be used with a load-bearing element; -
FIG. 3 is a sectional side view of a load-bearing element with a second insert inserted; -
FIG. 4 is a perspective view of an extractor device according to one embodiment of the invention; -
FIG. 5 is a side view of the device according toFIG. 4 ; -
FIG. 6 is a sectional side view of the external sleeve of the extractor device according toFIG. 4 ; -
FIG. 7 is a perspective view of the inner bar of the extractor device according toFIG. 4 ; -
FIG. 8 is a sectional side view of the inner bar ofFIG. 7 ; -
FIG. 9 is an enlarged view of the tip of the inner bar ofFIG. 7 ; -
FIG. 10 is a sectional side view of an extractor device according to a second embodiment of the invention in vicinity of an load-bearing element; -
FIG. 11 is a side view of an insertion device according to an embodiment of the invention; -
FIG. 12 is an detail of the tip of the insertion device according toFIG. 11 ; -
FIG. 13 is a perspective view of a second insert to be used with a load-bearing element; -
FIG. 14 is a sectional side view of the insert according toFIG. 13 ; and -
FIG. 15 is an enlarged side view showing a detail of the insert according toFIG. 13 . - Referring to
FIG. 1 there is shown a top view of a load-bearing element in the form of aplate 1 with a row ofattachment bores 2 arranged along the longitudinal direction ofplate 1.FIG. 2 shows a perspective view of afirst insert 10 to be used with a load-bearingelement 1.Bores 2 ofplate 1 are through-bores that exhibit an ovalcentral opening 3. At opening 3 there are twosidewalls 5 on opposite sides ofaxis 4, which extend parallel to the direction oflongitudinal axis 4 ofplate 1 and extend at right angles to the surfaces of the plate. Theseparallel sidewalls 5 are connected on both ends bysemicircular walls 6, each forming a semi-cylindrical boundary so that together the aforementionedoval opening 3 results. - In other forms of the plate,
oval bores 2 can also be provided.Bores 2 can also be elliptical or of a common elongated form. What is essential is the multiplicity of functions for the selection of attachment elements or fasteners made possible byinsert 10 shown inFIG. 2 . Through the mostly elongated form ofplate 1,elongated bores 2 are preferred over circular bores in order to maintain flexibility with the insertion of screws with larger diameters. The bore may also be essentially cylindrical with the disadvantage that theinsert 10 has less material for providing inclined holes in theinsert 10. - Arranged around the cylindrical, not necessarily
circular walls opening 3 is chamferedsurface area 7, extending and tapering inwardly from theupper surface 8 ofplate 1 that faces away from the bone during implantation. The form of thisarea 7 is preferably part-spherical. - The
top surface 8 of load-bearingelement 1 is formed somewhat deeper in the side area 18 nearbores 2. The same is true for upper edge 15 ofsidewall 5, which are shown to be lower (closer to the plate bottom surface) in a direction opposite the bore ends inlongitudinal direction 4. Bottom surface 9, which is closest to the bone in insertion during surgery is here locally flat. Normally,plates 1 can exhibitcontinuous surfaces 8 and undersurfaces 9 which at each point, for the function of positioning on the bone can always be considered to be flat. But here too, positioning on curved or bent surfaces can be provided. -
FIG. 2 shows a perspective view of aninsert 10 to be used with a load-bearing element 1 according toFIG. 1 . Similar characteristics appear in all figures with the same reference numerals. Eachinsert 10 is designed to be shaped complementary to bore 2 for locking therein with respect toareas 7 andsidewalls 5.Insert 10 has acentral bore 11 with aninternal threading 12. Internal threading 12 can be cylindrical or slightly conical.Insert 10 can have an area that extends beyond lower surface 9 ofplate 1 that is adjacent the bone. In particular, insert 10 has locking mechanisms along its edges. In particular, the locking mechanism can be two projecting rims that engage the underside 9 ofplate 1 after the insertion ofinsert 10. Theinsert 10, when it is inserted intoplate 1, with its extension area, can form a distance spacer with regard to the bone material into which a screw that has been inserted intobore 11 is turned. - It is also possible that, at least along the length of the
longitudinal axis 4 of the load-bearing element 1, arecess 33 is provided on the bottom surface 9 aroundopening 2 of theplate 1. This recess can also be provided on the narrow side. In addition, insert 10 is provided with a projectingrim 27 that is arranged in such a way that the bottom ofinsert 10 does not project beyond lower surface 9. The underside ofinsert 10 is thus at least flush with the aforementioned surface 9 of the load-bearing element 1. - The
reference numeral 21 refers to the surface ofinsert 10 having acircumference 22 that meets with the edge ofarea 8 ofplate 1. Aspherical surface 23 extends downwardly fromsurface 21 and is shaped so as to have complementary surface contact withsurface 7.Semicircular extension 24 extends downwardly fromsurface 23 and is in conforming contact, without any significant play, witharea 6 ofbore 2. - The area lying opposite the
longitudinal surface 5 consists of aresilient extension 25 on each side, in which, in the preferred embodiment shown, eachextension 25 is provided withslots 26. Eachextension 25 has, on its lower edge, a projectingrim 27 facing outward from the point of view of the insert with an upward-facingshoulder 28 with anouter edge 29. The surface ofrim 27 that is facing toward the bone can be inclined.Extension 25 is also to a certain extent, flexible. In insertinginsert 10,extension 25 then slides intobore 2 and is deflected inwardly by the projectingrim 27. Onceinsert 10 is completely inserted,shoulder 28 slides against underside 9 ofplate 1 and locks insert 10 inplate 1. This locking is additionally ensured by the subsequent insertion of a bone screw (not shown). FIGS. 13 thru 15 show a slightly modified insert having tapered side elements or sidewalls 25 a which taper inwardly from theirfree edges 127 to surface 23 a. The insert will be described in more detail below. - It is one aspect of the invention to provide an extractor device being able to extract such a fixed
insert 10 from theplate 1. Pressure has to be exerted in such a way that an inward deflection ofextension 25, 25 a is obtained so that projectingrim plate 1 or in a recess provided at the bottom of theplate 1. It should be noted that the extractor device has to also function ifextension 25, and with it projectingrim 27, are not arranged as twoextensions 25 on the opposing longer sides ofinsert 10. The design can also include resilient extensions on the narrow sides of an insert, i.e. corresponding to the location of the semicircularcylindrical extensions 24.Extensions 25 can also be arranged in an alternating manner. There can also be only one or two more extensions. - Referring to
FIG. 4 there is shown a perspective view of anextractor device 50 according to a preferred embodiment of the invention.Extractor device 50 comprises two different parts, anouter sleeve 60 and aninner bar 70 extending on both sides beyond the through going bore or cannulation inside thesleeve 60. Theouter sleeve 60 is shown in greater detail inFIG. 6 , theinner bar 70 is shown in greater detail inFIG. 7 to 9. -
FIG. 5 shows a side view of thedevice 50 according toFIG. 4 . Theouter sleeve 60 comprises ahollow sleeve part 61 having afirst handle part 62 being an integral part of thesleeve 60. Thefirst handle part 62 comprises acircumferential depression 65 to provide a grip portion for the hand of a user of thedevice 50. A thickenedabutment sleeve 63 is provided on the opposite end of thehollow sleeve part 61 ending in around abutment ring 64 having a larger diameter than the diameter of theproximal bar section 73 of theinner bar 70. The function of theabutment ring 64 will be explained below. The length of theexternal sleeve 60 can be between 150 and 200 millimeter with afirst handle part 62 diameter of 30 to 50 millimeter and a outer sleeve diameter of e.g. 14 millimeter. - It can be seen from both,
FIGS. 4 and 5 that the preferredinner bar 70 extends beyond both ends ofouter sleeve 60. On the side of thefirst handle part 62 theinner bar 70 comprises asecond handle part 72 having a circumferential grippingdepression 75. The radius of thesecond handle part 72 is greater than the inner diameter of thehollow sleeve 60. Anengagement thread 71 is provided at the end of theproximal bar section 73 extending beyond thehollow sleeve 60. -
FIG. 6 shows a sectional side view of the preferredexternal sleeve 60 ofextractor device 50 according toFIG. 4 . The hollow sleeve comprises a through-bore extending along axis 82 a with amiddle section 66 having a first diameter and extending from theopening 67 at the distal end near thefirst handle part 62 towards aninternal thread 68. The through-bore comprises on its proximal end 69 a second diameter being smaller than the above-mentioned first inner diameter. Theinternal thread 68 can have a length of e.g. 10 millimeter with 5 to 10 full threads. Theinternal thread 68 is positioned near the proximal end of thesleeve 60, e.g. between 20 and 40 millimeter from theabutment ring 64. It would also be possible to locate theinternal thread 68 near or under thefirst handle part 62. - The first inner diameter, being the inner diameter of a part of the
sleeve 60, can be chosen to be 12 Millimeter, said second diameter of theend portion 69 can be chosen to be 11 millimeter. Theenlarged section 63 can have a diameter of 14 millimeter. -
FIG. 7 shows a perspective view of the preferredinner bar 70 of theextractor device 50 according toFIG. 4 .FIG. 8 shows a sectional side view of theinner bar 70 ofFIG. 7 . Theinner bar 70 comprises a firstdistal bar portion 74 having an outer diameter similar to the first inner diameter of thehollow sleeve 60 so that thebar 70 can be inserted with little play into thehollow sleeve 60 from the side of theopening 67. Thedistal bar portion 74 ends in anabutment flange 76 of the grippingdepression 75. On the opposite end of the distal bar portion 74 amiddle bar portion 77 has a thinner cylindrical portion. Themiddle bar portion 77 is followed, by a threadedportion 78 having a longitudinal length which is preferably identical to the inner threadedportion 68 of theouter sleeve 60. The location ofthread 78 also depends on the location of the inner threadedportion 68. Ifportion 68 is located near or under thefirst handle part 62 then the threadedportion 78 of theinner bar 70 is located near or in the area of thedistal bar portion 74. - In the embodiment shown in the drawings, the threaded
portion 78 is proximally followed by the proximalinner bar section 73.Inner bar section 73 is followed by atip portion 71 of theinner bar 70, which is shown inFIG. 9 in an enlarged view. - The
tip portion 71 preferably comprises four full threads of athread 80 ending in aflat surface 81. In the preferred embodiment thethread 80 is conical and is connected with theinner bar section 73 via a chamferedflange 79. The direction of the threading 80 is identical to the direction of thethread 78. Themain axis 82 of thebar 70 coincides with theaxis 82 of thethread 80 and with the longitudinal main axis 82 a of thesleeve 60. The advantage of aconical thread 80 is the easier fixation of the bar ontoinserts 10 with damagedthreads 12. - The function of the
device 50 is as follows. The device is assembled through insertion of thebar 70 into thehollow sleeve 60 through thedistal opening 67 within thesleeve 60 such thataxis 82, 82 a and coaxial. Thethread 78 of thebar 70 engages theinner thread 68 of thehollow sleeve 60 and is rotated until thetip 71 is extending beyond the end of thehollow shaft 60 or until thethreads threads thread 78 advances when turned clockwise with respect to itsmating part 68. Theflange 76 of thesecond handle part 72 can ultimately abut against thefirst handle part 62 of thehollow sleeve 60. Thethread 78 may then no longer be in engagement withthread 68. - The
bar 70 is then screwed into theinsert 10 by turning thehandle 72, i.e. theconical thread 80 is engaging the internal threading 12 of theinsert 10. Preferably theabutment flange 79 of the tip is coming into contact with theupper surface 21 of theinsert 10. Then theabutment ring 64 is advanced to come into contact with thesurface 8 of theplate 1 beside theinsert 10, i.e. theabutment ring 64 does not contactsurface 21 but touches theplate 1 outside thecircumference 21 of theinsert 10. This contact is possible independent from the angle and direction of the insert bore 11 as discussed above. The relative advancement ofsleeve 60 in relation to thebar 70 can be a longitudinal movement or comprising a rotation when thethreads handle part 62 is rotated against thehandle part 72 of the inner bar, which is maintained in its position. Theinternal thread 12 of theinsert 10 is also right-handed. - When the
abutment ring 64 comes in contact with theupper surface 8 of the plate 1 (and not with the insert 10), then theextractor sleeve 60 is further rotated in the direction opposite to the above mentioned rotation of thebar 70. This rotation retracts therod 73 further into thesleeve 60 and therefore exerts a force in the longitudinal direction ofaxis 82 of theextractor device 50 on theinsert 10 against theplate 1. This leads to the situation that engagement means 25 of theinsert 10 are overcome and theinsert 10 will be extracted. The advantage of right-handedthreads insert 10 additionally blocks thethread 12 of theinsert 10 inthread 80 of thetip 71. - In another embodiment (not shown) the
threads thread 12 of theinsert 10 becomes no longer fastened to theconical thread 80 of theinner bar 70. - It is clear that the
abutment ring 64 can be of a different form than having a circular shape. It may have a polygonal abutment surface or the plane of the abutment surface can comprise an angle with the plane perpendicular to the longitudinal direction ofaxis 82 of thebar 70. -
FIG. 10 shows a sectional side view of anextractor device 90 according to a second embodiment of the invention in vicinity of an load-bearing element 1.Extractor device 90 comprises three different parts, anouter sleeve 60 and aninner bar 70 extending on both sides beyond the through going bore inside thesleeve 60. Additionally there is anintermediate element 91 essential to the function of the device. - The
outer sleeve 60 comprises ahollow sleeve part 61 having afirst handle part 62 being an integral part of thesleeve 60. Thefirst handle part 62 comprises acircumferential depression 65 to provide a grip portion for the hand of a user of thedevice 50. A thickenedabutment sleeve 63 is provided on the opposite end of thehollow sleeve part 61 ending in around abutment ring 64 having a larger diameter than the diameter of theproximal bar section 73 of theinner bar 70. The function of theabutment ring 64 is identical as explained above. - The
inner bar 70 extends on both sides ofouter sleeve 60. On the side of thefirst handle part 62 theinner bar 70 comprises asecond handle part 72 having a circumferential grippingdepression 75. Between the two handleparts intermediate element 91 is introduced. - The
intermediate element 91 has a throughbore 93 for theinner bar 70. Theintermediate element 91 comprises agrip portion 92 being able to be in abutment against thehandle part 72 ofinner bar 70 on one side and with thehandle part 62 of thesleeve 60 on the other side. On the side of thehandle part 72 theintermediate element 91 comprises anopening 97 in the flat upper surface to receive theinner bar 70. On the side of thehandle part 62 theintermediate element 91 comprises a smallercentral projection 94 with anexternal thread 98. -
Sleeve 60 incorporates in the handle part 62 arecess 95 to accommodate theprojection 94, wherein therecess 95 comprises aninternal thread 108. - As in the first embodiment of an
extractor device 50, anengagement thread 71 is provided at the leading end of theproximal bar section 73 extending beyond thehollow sleeve 60. -
Inner bar 70 of theextractor device 90 comprises abar portion 74 having an outer diameter similar to the inner diameter of thehollow sleeve 60 and similar to the inner diameter of theintermediate element 91 so that thebar 70 can be inserted with little play into theintermediate element 91 and into thehollow sleeve 60 from the side of theopenings bar portion 74 ends in anabutment flange 76 of the grippingdepression 75. - The
tip portion 71 ofextractor device 90 can be the same as thetip portion 71 ofextractor device 50. - The function of the
device 90 is as follows. The device is assembled through insertion of theintermediate element 91 into thehollow sleeve 60 through theopening 67 within thesleeve 60. Thethread 98 of theintermediate element 91 engages theinner thread 108 of thehollow sleeve 60 and is rotated until thehandle part 92 abuts against thehandle part 62 or theprojection 94 reaches the depth of therecess 95. Boththreads bar 70 is then entered intointermediate element 91 andhollow sleeve 60 and screwed into theinsert 10 by turning thehandle 72, i.e. theconical thread 80 is engaging the internal threading 12 of theinsert 10. Then theabutment ring 64 is advanced to come into contact with thesurface 8 of theplate 1 beside theinsert 10, i.e. theabutment ring 64 does not contactsurface 21 but touches theplate 1 outside thecircumference 21 of theinsert 10. - The
handle part 92 of theintermediate element 91 is rotated against thehandle part 62 of thehollow sleeve 60, which is maintained in its position. As rotation occurs, theintermediate element 91 and thehollow sleeve 60 move apart, while theinner bar 70 just follows, because thehandle part 72 is in abutment with theintermediate element 91. The rotation ofintermediate element 91 indirectly retracts therod 73 further into thesleeve 60 and therefore exerts a force in the longitudinal direction of saidaxis 82 of theextractor device 90 on theinsert 10 against theplate 1. This leads to the situation that engagement means 25 of theinsert 10 are overcome and theinsert 10 will be extracted. In the case of the second embodiment it is advantageous to use right-handedthreads threads insert 10 blocks theinsert 10 inthread 80 oftip 71. - However in all embodiments it is possible to switch the handedness of any pair of threads.
- Upon extraction of an
insert 10, theinsert 10 either completely or nearly disappears within the hollow thickenedabutment sleeve 63. -
FIG. 11 shows a side view of aninsertion device 100 according to an embodiment of the invention andFIG. 12 is an detail of the tip of theinsertion device 100 according toFIG. 11 .Insertion device 100 is very similar toinner bar 70, having abar 101 with ahandle part 102 at one end, whereas the other free end of thebar 101 comprises acylindrical tip 103 with a smaller diameter than thebar 102. Saidtip 103 comprises onesingle thread 105 and ends with aflat bottom surface 104, which can be chamfered for easier insertion.Tip 103 is positioned within the opening of aninsert 10 and thethread 105 engages thecomplementary thread 12 of theinsert 10. It is clear that due to the shortness of thetip 103 theresilient extensions 25 ofinsert 10 are not in the vicinity of thetip 103 but spaced apart in the longitudinal direction of axis 82 b of theinsertion tool 100. It is possible that the distance between thethread 12 and theupper surface 21 of theinsert 10 is such that saidsurface 21 can abut against theabutment flange 109 of thebar 101. - Initially the
insert 10, 20 to be inserted into aplate 1 is affixed to theinsertion device 100 as mentioned above. Then thedevice 100 with theinsert 10, 20 at its tip is pushed against and into theplate 1 until the lockingextensions 25 of theinsert 10, 20 are pushed beyond the smallest waist part, i.e. the smallest diameter in thehole 2 of aplate 1. Then theinsertion device 100 can be rotated in the opposite direction to free theinsert 10, 20 from its tip. This can be done directly, because theinserts 10, 20 are oblong. -
FIG. 13 shows a perspective view of asecond insert 110 to be used with a load-bearing element 1.FIG. 14 is a sectional side view of theinsert 110 according toFIG. 13 andFIG. 15 is an enlarged side view showing a detail of the resilient extension 25 a of the insert according toFIG. 13 .Insert 110 comprises a flatupper surface 121 at its circumference wherein on the inside of surface 121 a step-like recess 122 is provided. The resilient extension 25 a on each side is separated as within the embodiment according toFIG. 1 from the semicircular extensions 24 a by two slots 26 a. The resilient extension 25 a comprises a special triangular form when seen from the side or in a cross section. - On the inside the resilient extension 25 a comprises the
inner thread 12 which can be oriented in different ways and angles. On the outside theinsert 110 has awaist 129, i.e. an area with minimum exterior diameter. Towards theupper side 121 of theinsert 110 there is the larger spherical surface 23 a or another complementary surface for thebore 2 inplate 1. Towards the bottom side there is provided, on the resilient extensions 25 a, a thickenedregion 127. In the embodiment shown the thickenedregion 127 has a thickest part near the lower end of the extension 25 a, i.e. the cross section through the extension 25 a always shows a triangle form. Advantageously the form of theplate 1 is complementary, i.e. the plate has at least on its sides a recess to accommodate the thickenedregion 127. The chamferedlower end 128 facilitates the introduction of theinsert 110 into aplate 1. The angle of thesurface 128 in relation to the bottom surface is 120 degree (reference numeral 124). Thetriangle form 127 also facilitates the extraction of theinsert 110 because theinclined surface 126, e.g. with an angle of 30 degree to the vertical axis of theinsert 110, can slide on the complementary inclined surface of theplate 1 or on the smallest internal diameter ofhole 2 thereof. - Although the described drawings already show a whole series of possible configurations of the invention, the invention is and should be limited only by the parameters of the attached claims.
- The advantage of the invention is that it offers the surgeon using a
plate 1 with conventional standard bores 2 and insertedinserts
Claims (18)
1. An extractor device for an insert to be used with a bone connection element usable within an implantable orthopedic device having a load-bearing element with at least one opening for receiving a fixation element such as a bone screw with the insert thereon, the extractor device comprising:
an outer hollow sleeve, the hollow sleeve comprising a introduction opening at a first end and a proximal abutment surface at a second end engagable with a surface portion of the load-bearing element around the insert, the hollow sleeve further comprising an inner threaded portion between said introduction opening and said abutment surface,
an inner bar, the bar having a diameter enabling the insertion of the bar into said distal introduction opening of the hollow sleeve and comprising a threaded portion engaging the thread of the insert to be extracted,
wherein, alternatively, the inner bar further comprises an outer thread or an intermediate element is provided with a central bore to accommodate said inner bar and comprising an outer thread,
wherein the outer threaded portion is arranged to engage said inner threaded portion of the hollow sleeve,
said outer threaded portion of said inner bar being positioned on the bar or the intermediate element at a longitudinal distance from the insert engaging threaded portion to enable that threaded portion to extend beyond the proximal abutment surface to be threaded in the insert.
2. The extractor device as set forth in claim 1 , wherein the insert engaging threaded portion of the bar has a conical thread.
3. The extractor device as set forth in claim 1 , wherein an abutment flange connects insert engaging threaded portion with a larger bar section of said inner bar.
4. The extractor device as set forth in claim 1 , wherein the inner bar comprises at a first end a handle part having an abutment flange.
5. The extractor device as set forth in claim 1 , wherein the hollow sleeve comprises at its second end an enlarged abutment section to engage a surface of the load-bearing element.
6. The extractor device as set forth in claim 5 , wherein the hollow sleeve comprises at its first end a hollow handle part.
7. The extractor device as set forth in claim 1 , wherein the threads of sleeve and bar, respectively, are located in the first third of the device on moving from said first end of said outer sleeve to said second end.
8. The extractor device as set forth in claim 1 , wherein the threads of sleeve and bar or intermediate element have the same handedness than the thread of the tip of the inner bar.
9. The extractor device as set forth in claim 1 , wherein the abutment surface is a cylindrical ring, an elliptical ring or a polygonal strip.
10. A method for extracting an internally threaded insert from an opening in a bone connection element usable within an implantable orthopedic device, such as a bone plate:
inserting a bar with a threaded tip and an outer threading into a hollow sleeve having an internal threading for engaging the outer threading of the bar and an abutment tip for engaging the bone plate;
screwing the tip of the bar into the internal threading of the insert to be extracted, preferably until an abutment flange of the tip comes into contact with an upper surface of the insert,
advancing the abutment tip of the hollow sleeve into contact with a surface of the bone connection element, wherein the relative advancement of the hollow sleeve relative to the bar is a longitudinal movement resulting from rotating the engaged inner and outer threads of sleeve and bar;
extracting the insert through further rotation of sleeve or an intermediate element located between the sleeve and the bar, wherein the inner bar or the sleeve, respectively, are maintained in its rotational position, said rotation retracting the bar into the hollow sleeve and exerting a force in a longitudinal direction of the sleeve and bar on the insert against forces holding the insert within the opening in the bone connection element and extracting the insert.
11. The method as set forth in claim 10 , wherein the extractor device is assembled by inserting the inner bar into the hollow sleeve from an opening at a first end of the hollow sleeve and relative rotation of the hollow sleeve and bar to engage their inner and outer threads, respectively, until the tip of the bar is extends beyond a second end of the hollow sleeve.
12. An extraction tool for an internally threaded insert located within an opening in a bone plate comprising:
a tubular sleeve having an internal bore with a threaded portion intermediate first and second ends thereof;
a bar for insertion within the internal bore of said tubular sleeve, said bar having a threaded first end and a threaded element located intermediate said first end and a second end of said bar, said threaded element threadably engagable with said threaded outer sleeve portion, said threaded sleeve portion and said threaded element respectively located between the first and second ends of said sleeve and bar such that said threaded first end of said bar extends beyond said first sleeve end when at least a portion of said threaded portions are engaged.
13. The extraction tool of claim 12 wherein the first end of said tubular sleeve includes an abutment portion.
14. The extraction tool of claim 13 wherein said second end of said tubular sleeve has a drive portion for rotating said sleeve.
15. The extraction tool of claim 14 wherein said second end of said bar has a drive portion for rotating said bar.
16. An insertion device for use with an insert to be used with a bone connection element usable within an implantable orthopedic device, the insert having at least one threaded opening for a fixation element, the insert having inwardly deformable sidewalls for engaging walls of said opening, the insertion device comprising:
a bar having a threaded portion at one end thereof to engage the thread in the opening of the insert to be inserted,
wherein a length of the threaded end portion of said inner bar is shorter than a thickness of the insert to avoid engagement of the threaded bar portion with the deformable sidewalls of said insert.
17. An insert for use with an orthopaedic device such as a bone plate with at least one opening for receiving a fixation element engagable with said insert, the insert comprising an external surface that is at least partially complementary to an internal shape of the opening, wherein the insert has a central threaded through-bore for mounting a body of the fixation element, and in which the insert has resilient sidewalls for holding the insert in the opening which sidewalls have a thickened part which can be positioned adjacent an internal portion of said opening.
18. The insert as set forth in claim 17 wherein said thickened part tapers inwardly towards said through-bore.
Priority Applications (2)
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US11/975,846 US7766917B2 (en) | 2004-11-30 | 2007-10-22 | Extractor for a bone connection element |
Applications Claiming Priority (1)
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US11/975,846 Active 2026-03-02 US7766917B2 (en) | 2004-11-30 | 2007-10-22 | Extractor for a bone connection element |
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US7780706B2 (en) | 2005-04-27 | 2010-08-24 | Trinity Orthopedics, Llc | Mono-planar pedicle screw method, system and kit |
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US8709014B2 (en) * | 2006-07-14 | 2014-04-29 | Stryker Trauma Gmbh | Device, kit, and a method for handling a medical implant |
EP1878398A1 (en) * | 2006-07-14 | 2008-01-16 | Stryker Trauma GmbH | A medical device and kit for handling an implant |
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US10561505B2 (en) * | 2014-05-02 | 2020-02-18 | Peter Brehm | Device for attaching a positioning device to a bone of a patient, device for treating a bone of a patient, and hip implant system |
US20170219002A1 (en) * | 2014-09-30 | 2017-08-03 | Safran Aircraft Engines | Extraction sleeve |
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US11607323B2 (en) | 2018-10-15 | 2023-03-21 | Howmedica Osteonics Corp. | Patellofemoral trial extractor |
Also Published As
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US20080045969A1 (en) | 2008-02-21 |
US7766917B2 (en) | 2010-08-03 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
AS | Assignment |
Owner name: STRYKER TRAUMA SA, SWITZERLAND Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:KUGLER, STEFAN;GASSER, ANDRE;LUTZ, CHRISTIAN;REEL/FRAME:015582/0599 Effective date: 20041222 |
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |