Source: https://patents.google.com/patent/EP1467682B1/en
Timestamp: 2020-01-19 02:40:36
Document Index: 619452374

Matched Legal Cases: ['art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30', 'art 30']

EP1467682B1 - Shoulder prosthesis - Google Patents
EP1467682B1
EP1467682B1 EP02799068A EP02799068A EP1467682B1 EP 1467682 B1 EP1467682 B1 EP 1467682B1 EP 02799068 A EP02799068 A EP 02799068A EP 02799068 A EP02799068 A EP 02799068A EP 1467682 B1 EP1467682 B1 EP 1467682B1
EP02799068A
EP1467682A2 (en
Georges Blatter
Wolfgang SCHWÄGERL
2001-12-21 Priority to DE20120703U priority Critical patent/DE20120703U1/en
2001-12-21 Priority to DE20120703U priority
2002-12-20 Application filed by Mathys AG Bettlach filed Critical Mathys AG Bettlach
2002-12-20 Priority to PCT/EP2002/014634 priority patent/WO2003053280A2/en
2004-10-20 Publication of EP1467682A2 publication Critical patent/EP1467682A2/en
2005-05-25 Publication of EP1467682B1 publication Critical patent/EP1467682B1/en
238000002271 resection Methods 0 abstract claims 2
The invention relates to a shoulder prosthesis comprising a stem (10), a cap (20) and a spacer (30), which can be attached to the proximal end (12) of the stem (10) and to which the cap (50) can be attached. The spacer (30) can be clamped against a fastening element (20), which can be adjusted in a first direction at the proximal end (12) of the stem (10), whereby said first direction is situated in the resection plane or parallel thereto and substantially extends approximately in the medial-lateral plane. Said fastening element (20) can slide on the stem (10) by means of a dovetail guide (15) or within a guide hole in said stem (10). The spacer can be clamped against the fastening element (20), so that said fastening element (20) and said spacer (30) are fixed.
The invention relates to a shoulder prosthesis with a shaft, with a dome and with a middle part at the proximal End of the shaft along different positions a first linear direction is fastened and on which the Kopfkalotte is fastened.
Such a shoulder prosthesis is known from EP-A 0 953 321. The middle part has outwardly projecting ribs, by means which it has in a recess at the proximal end of the shaft in different lateral-medial staggered positions can be used. The connection of the middle part with the shaft done by a press fit and the dome has one Recess of constant cross-section, by means of which they is placed on the middle part. The middle part is angled, creating different inclinations and retroversion angles are adjustable.
From US-A 5 961 555 a shoulder prosthesis is known in which the middle part on a cone at the proximal end of the shaft can be placed and the dome by means of a conical Dovetail guide is tightened. Apart from this, that the head dome during tightening at the middle part in is moved in the anterior-posterior direction is the Head cap not adjustable with respect to the shaft.
From EP-A 0 549 480, EP-A 0 599 429, FR-A 2 721 200 and US-A 6 197 062 shoulder prostheses are known in which the Middle part is conically formed at both ends and thereby can be connected to the shaft and the head cap. The axes the two conical ends are angled to each other and / or offset from each other, whereby a lateral-medial and posterior-anterior adjustment of the dome and possibly the retroversion angle with respect to the shaft is possible. A similar shoulder prosthesis is also known from DE-A 198 41 612 known, wherein the central part is disc-shaped and on has axial, mutually offset pins on both sides.
From EP-A 0 679 375 a shoulder prosthesis is known in which the middle part has a cylindrical part whose axis parallel to the shaft axis and that at the proximal end of the shaft with adjustable rotational position is clamped. From this cylindrical part is a conical part, on the the head cap is placed.
From EP-A 0 712 617, US-A 6 228 120 and US-A 6 206 925 are Shoulder prostheses known in which the middle part means a ball joint is adjustable relative to the shaft, wherein the concave surface of the ball joint is formed in the shaft. In the shoulder prosthesis known from EP-A 0 715 836 is the concave surface of the ball joint formed in the head cap and the joint ball attached to the proximal shaft end.
DE-A-195 48 154 and DE-U-299 18 669 are shoulder prostheses in which the middle part at the proximal end of the Shank are adjustable in the direction of the shaft axis, whereby the prosthesis shaft in its effective length changeable is.
From DE-U-93 12 218 a shoulder prosthesis is known in which the distance between the head cap and the shaft thereby changeable is that the dome with an axial or axially parallel threaded portion is provided, the proximal End of the shaft can be screwed into a threaded hole is. By means of a safety screw which can be screwed in crosswise the head cap is fixable.
Prostheses according to the preamble of claim 1 are from the documents US-A-5 336 268 and US-A-5 800 560 are known.
The invention is based on the object, a shoulder prosthesis to create, which is particularly simple and in which the head dome practically infinitely compared to the Shank is adjustable.
According to the invention, this object is achieved in that the Fastener in a guide hole is slidably guided in the shank and that the middle part by a window in the wall of the guide bore against the fastener can be tensioned, whereby the fastening element and the middle part fixes become.
Preferably, the fastener is at the proximal end of the shaft in a guide linearly adjustable, preferably in the medial-lateral direction. In general the direction of adjustability lies in the resection plane or in a slightly parallel manner Level.
The resection plane is usually at an angle of 40 ° to 50 ° to the shaft axis, i. the normal of the resection level is at an angle of 130 ° to 140 ° to the shaft axis. Joint implants are usually performed in this way that the connection surface of the implant as possible exactly matches the resection surface. The interface in the present case is the area at the proximal end of the shaft on which the head dome ideally rests.
Preferably, the middle part by means of a threaded bolt tightened by a shoulder hole of the middle section goes and is screwed into the fastener, whereby at the same time the fastener in his leadership is fixed.
Through these measures, the head dome is stepless in the first direction opposite the shaft adjustable. To the Head calotte two-dimensionally adjustable with respect to the shaft is preferably the middle part opposite to the Fastener in a second direction stepless adjustable. The second direction is at an angle to the first direction and is preferably approximately at right angles to the first direction.
The adjustability of the middle part relative to the fastening element can be achieved by the shoulder hole in the middle part in an anterior-posterior direction showing slot-shoulder drilling.
The head cap is thus stepless in two directions adjustable with respect to the shaft, the adjustment done intraoperatively and is correctable. The reproduction of inclination and retrotorsion does not occur here an alignment of the head cap over the stem, but is achieved via resection instruments and is therefore in the Inventive shoulder prosthesis specified.
In a particularly preferred embodiment of the invention the shaft has a connecting surface at the proximal end which is at an angle of about 40 ° to the shaft axis and which generally coincides with the resection level or at a small distance parallel to it. The fastener is a bolt-shaped sliding block, which in a Guide hole is slidable, the short distance is provided below the connecting surface and a proximal Window in the interface has. The sliding block has a transverse threaded hole. The middle part is by means of a threaded bolt in the transverse bore of the Sliding block is screwed against the connecting surface tensioned. The interface and the adjacent to her Bottom of the midsection can be ribbed to one achieve positive engagement. Instead of corrugation can also a roughening be provided. Basically everyone is positive and / or non-positive connection possible.
The middle part has a slightly conical outside and the Kopfkalotte has a corresponding conical recess, which the head dome by simply putting on the middle part is connectable with this. The connection can also be through Positive fit, e.g. Snap elements, or by form force closure, e.g. a threaded connection, done.
These fasteners can be centered, single-eccentric or be double eccentric. With a centered education the shoulder hole of the midsection is centered to the outside the middle part and is also the recess or the other fasteners centered in the dome intended.
In a simple-eccentric training is the shoulder hole centered the center part and is the conical recess or the other connecting means eccentric in the Head dome trained. By changing the rotational position of the head cap on the middle part can be the center of the dome set against the shaft end on a circular path whose radius is equal to the eccentricity. In connection with the setting of the center piece along the first Direction results by a stepless adjustability the head cap opposite the stem end in two dimensions.
There is also the possibility of having the scalp centered form and the shoulder bore eccentric in the middle part provided. Generally being easy-eccentric Training, however, the previously mentioned option was chosen in which only the head cap is eccentric is.
In a double-eccentric training is both the Shoulder bore of center section eccentric to outside of Middle part arranged as well as the recess or the other means of connection provided eccentrically in the dome. The double eccentricity already allows for a stepless adjustment of the head cap compared to the Shank end within a circular area whose radius is the sum corresponds to the two eccentricities. In addition, the Head dome still steplessly adjusted in the first direction become.
Preferably, the shaft has a proximal end or several fins with holes for tendon attachment and bone fragments.
Depending on the anatomical conditions, the Dome a shape between a hemisphere and a very flat spherical section with a midpoint angle of eg. Have 90 °.
The individual parts of the shaft prosthesis can from the for Endoprostheses customary materials are produced, in particular made of ceramics, titanium alloys or cobalt-chromium alloys or unreinforced or fiber reinforced Plastic.
Embodiments of the invention are explained below with reference to the drawing. Show it:
an example of a shoulder prosthesis in a three-dimensional exploded view;
the shoulder prosthesis of Figure 1 from anterior or posterior in an exploded view;
a section to AB of Fig. 2,
the shoulder prosthesis of Fig. 1 in the assembled state in longitudinal section,
a spatial representation of a central central part and a head cap with eccentrically arranged recess,
An embodiment of the shoulder prosthesis according to the invention in a three-dimensional exploded view,
the shoulder prosthesis of Fig. 1 from anterior and posterior in an exploded view,
a section according to AA of Fig. 7,
the shoulder prosthesis of Fig. 6 in the assembled state in longitudinal section and
in a three-dimensional representation of a central center part and a head cap with eccentrically arranged recess of the embodiment of FIG. 6
The shoulder prosthesis of all embodiments consists of a shaft 10, a sliding block 20 as a fastener, a middle part 30, a threaded bolt 40 and a head cap 50. The shaft 10 widens to its proximal End 12 and ends there in a connection surface 14, the corresponding to the resection plane at an angle of about 40 ° or 45 ° to the longitudinal axis of the shaft 10 extends.
In an example according to the prior art, the sliding block 20 is in a dovetail guide 15 out, including in the connection surface 14 an inwardly flared groove 16 is formed is and two lateral guide surfaces 22 of the total approximately square sliding block 20 are inclined accordingly (Fig. 3), so that the sliding block 20 in the groove 16 in lateralmedialer Direction is slidably guided. In the interface stay on both sides of the groove 16 edges 18 stand.
The middle part 30 has a frustoconical outer side 32 and an axial slot shoulder bore 34, the longer Dimension of the shoulder bore 34 anterior-posterior directed is. In the shoulder bore 34 of the threaded bolt 40 is inserted and in a threaded bore 24 of the sliding block 20th screwed. The threaded bolt 40 has a head 42 with a hexagon socket and a threaded shaft 44 and the head of the threaded bolt 40 is completely in the shoulder bore 34 recorded. By tightening the threaded bolt 40 is the middle part 30 against the outer edges 18 of the dovetail guide 15 tense. The end of the threaded bolt 40 extends into a recess 19 in the bottom of the dovetail guide 15th
The head cap 15 corresponds in its outer shape about one Ball section with a center angle of about 90 °. she Accordingly, has a curved top 52 and a flat Bottom 54. In the bottom 54 is a conical narrowing recess 56 provided so that the head cap 50 are fitted with a press fit on the middle part 30 can. The recess 56 has such a depth that they the middle part 30 completely absorbs. As FIG. 4 shows, is the bottom 54 of the head cap 50 in the assembled Condition of the shoulder prosthesis practically on the interface 14 and thus on the resection level.
5 shows an example of a shoulder prosthesis, similar to that of Figs. 1 to 4, but wherein Shoulder bore 34 is circular. The middle part 30 can therefore not be adjusted anterior-posteriorly. Nevertheless a stepless adjustability in two dimensions too reach, the recess 56 in the bottom 54 of Head cap 50 arranged eccentrically. The center of the Head cap 50 may therefore be on a circular line about the longitudinal axis of the middle part 30 are positioned. In connection with the medial-lateral adjustability of the middle part 30 at the proximal end 12 of the shaft 10 is thereby obtained also a stepless adjustability within a sufficiently large area to the anatomical conditions to be able to correspond to the individual case.
The assembly of the endoprosthesis may be before or after insertion of the shaft 10 in the humeral canal, wherein the Threaded bolt 40 through the middle part 30 therethrough first is loosely screwed into the sliding block 20. The fastener 20 can already be in the groove 16 on proximal end 12 of the shaft 10 are located. On the other hand can the sliding block 20 also connected in loose with the central part 30 Condition are inserted into the groove 16. The shaft 10 is then positioned and the middle part 30 becomes so fixed that the dome 50 as accurately as possible the anatomical Situation corresponds.
In one embodiment of the inventive shoulder prosthesis (FIGS. 6 to 10) this is Fastening a bolt-shaped sliding block 20, wherein the threaded bore 24 extends transversely through the sliding block 20. The sliding block 20 is in a guide bore 65 in the shaft 10 guided, which is introduced by medial in the shaft 10 and its axis parallel to the proximal connection surface 14 of the shaft 10 extends. The sliding block 20 is in the Guide bore displaceable in the medial-lateral direction.
In the proximal connection surface 14 of the shaft 10 is a Window 66 introduced to the guide bore 65. Of the Threaded bolt 40 becomes as in the first embodiment inserted through the middle part 30. In the present third embodiment, it is then through the window 66th passed and into the threaded bore 24 of the fastener 20 screwed. By means of the threaded bolt 40 is thereby the middle part 30 against the sliding block 20 and thus clamped against the connecting surface 14 of the shaft 10. The Length of the window 66 defines the medial-lateral displacement the middle part 30 relative to the shaft 10th
The middle part 30 has a frustoconical outside and a concentric through-hole 34 with a blind hole, that from the proximal top or end surface emanates. In the blind hole of the threaded bolt 40, as mentioned, used and into the threaded bore 24 of the sliding block 20 screwed, the advance of medial in the guide hole 65 was introduced. The threaded bolt 40 has a Head with a hexagon socket and a threaded shaft and the Head of the screw is completely in the blind hole of the Middle part 30 was added.
A groove structure on the connection surface 14 of the shaft 10 and ensured at the bottom of the middle part 30 a form / adhesion as an additional safeguard of the composite against loosening and micro movements. The grooves 70 are in 1 mm grid arranged. Thus, a defined adjustment the head cap 50 in medial-lateral direction ensured. From the bottom of the middle part 30 are guide tabs 36, which in the window 66 of the shaft 10th intervention. Thus, the snapping and alignment of the Middle part 30 to the shaft 10 corresponding to the groove structure guaranteed.
The head cap 50 corresponds to that of the second embodiment. The axis of the conical recess 56 is an amount of 3 mm (eccentricity) offset to the centric axis of Kopfkalotte 50. The head cap 50 is thus on a defined Eccentric orbit rotatable about the axis of the central part 30.
At the bottom of the head cap marks 74 and Inscriptions provided for the Exzenterstellungen, preferably in the manner of a clock lettering in twelve Units. The inlet opening of the guide bore 65 can be closed by a closure.
By combining the head eccentricity with the shifting mechanism in the medial / lateral direction is thus each Any position of the head cap to the shaft on the resection plane adjustable (so-called mediodorsal offset). The Setting ranges are ± 3 mm each. This gives you a stepless adjustability within a sufficient large area to the anatomical conditions of the case to be able to correspond.
The bowing of the middle part and head corresponds to the Inclination of 1: 10 for implant cones.
At the proximal shaft end are a central threaded blind hole 76 for clamping with the setting instrument and two Blind holes for anti-rotation of the setting instrument arranged.
The shaft has a fin 80 for preventing rotation, proximally / laterally. In the cementless stem design can such fins also on the anterior / posterior proximal Side surfaces are provided. Also for rotational security in the cement mantle cement grooves 82 serve in the distal Shaft area. In this version they are 4 times around Shaft axis rotates.
The module of shaft 10, middle part 30, sliding block 20 and Screw 40 is pre-assembled and unstressed in a sterile package delivered. It is also possible at already in the Shank 10 befindlichem sliding block 20, the middle part 30 with Screw 40 to be installed after implantation of the shaft and in Revision case, the middle part 30 to change. To the sliding block 20 to align for screwing the screw 40 is cut in the end face of the sliding block 20 a transverse groove 84.
While in the example of Figures 1 to 4 of Access from proximal / lateral is a special one Advantage of the embodiment of Figures 6 to 10, that the access is medial. Furthermore, by the guide lugs 36 in conjunction with the screening a special achieved reliable fixation of the middle part. The attitude of the middle part is in the embodiment of Figures 6 to 10 not only interoperatively implanted on Shank possible, but also by means of a test rasp (rasp with adjustment mechanism) and external transmission of setting parameters on the implant possible.
Zementnuten
with a stem (10),
with a dome shaped head (50) and
with a middle section (30),
on which the dome shaped head (50) can be secured,
which can be secured at the proximal end (12) of the stem (10) in various positions in a first linear direction, whereby the first direction is in the resection plane or parallel to this, and
that can be tightened on a fastening element (20), that can be adjusted in the first direction at the proximal end (12) of the stem (10),
the fastening element (20) is guided in a guide bore hole (65) in the stem (10) in a displaceable manner and
in that the middle section can be tightened against the fastening element (20) through a window (66) in the wall of the guide bore hole (65), as a result of which the fastening element (20) and the middle section (30) are fixed.
Shoulder prosthesis according to Claim 1, in which the first direction is approximately medial-lateral.
Shoulder prosthesis according to Claim 1 or 2, in which the middle section (30) can be connected by means of a threaded bolt (40) with the fastening element (20) and tightened against the proximal end (12) of the stem (10).
Shoulder prosthesis according to Claim 1, 2 or 3, in which the middle section (30) can be adjusted in relation to the fastening element (20) in a second direction.
Shoulder prosthesis according to any one of Claims 1 to 4, in which the second direction is approximately at right-angles to the first direction, in particular approximately anterior-posterior.
Shoulder prosthesis according to any one of Claims 1 to 5 in which the threaded bolt (40) is guided through an elongated shouldered bore hole (34) in the middle section (30).
Shoulder prosthesis according to any one of Claims 1 to 6, in which the dome shaped head (50) can be secured eccentrically on the middle section (30).
Shoulder prosthesis according to any one of Claims 1 to 7, in which the dome shaped head (50) in the assembled state of the endoprosthesis rests with its under side (54) virtually on the proximal end (12) of the stem (10).
EP02799068A 2001-12-21 2002-12-20 Shoulder prosthesis Active EP1467682B1 (en)
DE20120703U DE20120703U1 (en) 2001-12-21 2001-12-21 Shoulder prosthesis
DE20120703U 2001-12-21
PCT/EP2002/014634 WO2003053280A2 (en) 2001-12-21 2002-12-20 Shoulder prosthesis
EP1467682A2 EP1467682A2 (en) 2004-10-20
EP1467682B1 true EP1467682B1 (en) 2005-05-25
ID=7965481
EP02799068A Active EP1467682B1 (en) 2001-12-21 2002-12-20 Shoulder prosthesis
US (1) US7238207B2 (en)
EP (1) EP1467682B1 (en)
JP (1) JP4199120B2 (en)
AT (1) AT296072T (en)
AU (1) AU2002364295B2 (en)
DE (1) DE20120703U1 (en)
WO (1) WO2003053280A2 (en)
FR2860425B1 (en) * 2003-10-01 2006-05-26 Biomet Merck France Humeral implant for prosthesis of the shoulder
EP2114311A2 (en) 2007-02-10 2009-11-11 Small Bone Innovations, Inc. Radial head implant and related instrument
FR2920963B1 (en) * 2007-09-19 2010-09-10 Tornier Sa Joint prosthesis component and articular prosthesis comprising such a component
FR2979535B1 (en) * 2011-09-06 2013-09-13 3S Ortho Shoulder joint prosthesis and range of modular elements for constituting such a prosthesis
FR2992165B1 (en) * 2012-06-26 2015-05-15 Fx Solutions Humeral implant of shoulder prosthesis
WO2018039493A1 (en) * 2016-08-24 2018-03-01 Greiwe Raymond Michael Humeral head implant system
AU7265000A (en) * 1999-09-24 2001-04-30 Andre Bahler Endoprosthesis for a shoulder joint
2001-12-21 DE DE20120703U patent/DE20120703U1/en not_active Expired - Lifetime
2002-12-20 JP JP2003554041A patent/JP4199120B2/en not_active Expired - Fee Related
2002-12-20 AT AT02799068T patent/AT296072T/en not_active IP Right Cessation
2002-12-20 AU AU2002364295A patent/AU2002364295B2/en active Active
2002-12-20 WO PCT/EP2002/014634 patent/WO2003053280A2/en active IP Right Grant
2002-12-20 EP EP02799068A patent/EP1467682B1/en active Active
2004-06-21 US US10/874,020 patent/US7238207B2/en active Active
EP1467682A2 (en) 2004-10-20
JP2005512673A (en) 2005-05-12
AT296072T (en) 2005-06-15
WO2003053280A3 (en) 2004-03-04
US7238207B2 (en) 2007-07-03
AU2002364295A1 (en) 2003-07-09
AU2002364295B2 (en) 2007-02-15
US20050033443A1 (en) 2005-02-10
JP4199120B2 (en) 2008-12-17
WO2003053280A2 (en) 2003-07-03
DE20120703U1 (en) 2002-03-07
Inventor name: IRLENBUSCH, ULRICH
Inventor name: GLIEN, WILFRIED
Inventor name: DALLMANN, FRANK
Inventor name: SALOMON, DIRK
Inventor name: ZENZ, PETER
Inventor name: SCHWAEGERL, WOLFGANG
Inventor name: BLATTER, GEORGES
2005-03-16 RAP1 Rights of an application transferred
Owner name: MATHYS AG BETTLACH
2005-05-18 RIN1 Information on inventor provided before grant (corrected)
Ref document number: 50203228
2005-08-25 PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]
Owner name: MATHYS A.G. BETTLACH