Cement-free surface replacement prosthesis for the natural femur head

专利摘要:
The invention relates to a ceramic surface replacement prosthesis (1) for the natural femur head (3), comprising an outer spherical surface (5) and an inner receiving space (7) with an inner lateral surface (4). The aim of the invention is to prevent necrosis of the bone tissue as a result of the implantation process, thus also preventing a loss of inner bone tissue. According to the invention, this is achieved in that the inner lateral surface (4) is provided with an osseointegrative coating (6) or is designed in an osseointegrative manner at least in some areas, and/or the lateral surface (4) is designed as a self-forming thread (8).
公开号:AU2013225244A1
申请号:U2013225244
申请日:2013-02-12
公开日:2014-10-02
发明作者:Michael Kuntz
申请人:Ceramtec GmbH；
IPC主号:A61F2-36

专利说明:
1 CEMENT-FREE SURFACE REPLACEMENT PROSTHESIS FOR THE NATURAL FEMUR HEAD The invention relates to a cement-free ceramic surface replacement prosthesis 5 for the natural femoral head comprising an outer spherical surface and an inner receiving space having an inner lateral surface. Surface replacement prostheses are also named resurfacing head, hip cup or cap prosthesis. 10 In cases of deterioration of the natural femur head or hip joint head, it is known in the state of the art to place a surface replacement prosthesis made from metal or ceramics on the femur head and anchor it down with bone cement. The surface replacement prosthesis replaces only the articular cartilage of the femoral head 15 and is used when the femur bone under the articular cartilage is not substantially damaged in form or structure. The outer surface of the surface replacement prosthesis has a spherical shape and is inserted either directly into the natural pelvis or into a synthetic socket, 20 which in turn is anchored in the natural pelvis. Up to now ceramic surface replacement prostheses have been based mainly on known metallic designs and are generally cemented in. The inner lateral surface of the internal receiving space is provided with cement pockets and a centering 25 pin.
2 In view of the exothermic reaction during the hardening of the applied cement, there is danger of thermal damage and necrosis of the osseous tissue. A cement-free version of a surface replacement prosthesis would be very 5 advantageous for reason of the resulting heat generation of the cement. Another advantage would be an implementation with no centering pin, as the loss of osseous tissue due to the consequent pin boring is diminished. 10 The object of the invention is to improve a ceramic surface replacement prosthesis according to the preamble of claim 1 in such a way that no necrosis of the osseous tissue is caused during implantation and at the same time no loss of internal osseous tissue occurs. Internal osseous tissue is that tissue which is not visible from the outside in contrast to outer osseous tissue, which is visible 15 exteriorly and is treated before placement of the surface replacement prosthesis. The object is achieved according to the invention, by providing the inner lateral surface at least in certain areas with an osseointegrative coating or by osseointegrative shaping and/or by forming the inner lateral surface as a self 20 forming thread. An osseointegrative surface coating is described in B. Theelke, Mi. Kuntz, M. Zipperle, S. Eichhorm, T. Boxleiter, T. Pandorf, R. Burgkart, "Development of osseointegrative ceramic coatings based on ZPTA - mechanical characterization 25 and influence on the substrate," Bioceramics 1, 2010, pages 1 - 4.
3 By use of an osseointegrative surface coating or configuration of the inner lateral surface, a strong and long-lasting anchoring of the surface replacement prosthesis on the femoral head is achieved. An osseointegrative configuration of the inner lateral surface is realized, for example, by forming the near-the-surface 5 area of the lateral surface in the incomplete state of the ceramic surface replacement prosthesis with the goal of obtaining a suitable open-pore structure. Also a coating of the inner surface in the sintered state of the ceramic surface replacement prosthesis, for example, with structured coatings made from titanium 10 alloys, is suitable. An extremely important aspect of the invention is that the surface replacement prosthesis is fastened onto the femoral head without cement. This applies for all inventive embodiments. Also in all embodiments, no axial centering pin is 15 disposed in the receiving space. Alternatively or in combination with osseointegrative coating or osseointegrative shaping, the lateral surface is created as self-forming thread. In this way, the anchorage is substantially improved, so that cementation or the centering pin can 20 be dispensed with. The thread is formed with a conical or cylindrical shape. If the thread is conical, the femoral head as a rule must at least be worked on.
4 Surprisingly, it has been shown that the pitch of the thread exercises a considerable influence on the anchoring of the surface replacement prosthesis onto the head of the femur. The pitch of the thread is necessary to ensure that no loosening of the surface replacement prosthesis on the head of the femur occurs. 5 The steeper the pitch is, the more forces are required to rotate the surface replacement prosthesis onto the head of the femur. Put in other words: for fixed surface replacement prostheses, if the torque acting via frictional forces on the surface replacement prosthesis is below the torque with which the surface replacement prosthesis is rotatable with its thread onto the femoral head, then 10 the surface replacement prosthesis remains firmly anchored on the femoral head. The pitch of the thread is therefore an important feature of the invention. It has been shown that the thread pitch is of essential importance for the primary fixation of the surface replacement prosthesis immediately after the operation, 15 particularly to guaranty against loosening of the fixation due to an unwanted counter-clockwise rotation of the prosthesis: After the insertion of the head of the femur with surface replacement prosthesis into the acetabulum at the end of the operation, as a result of the natural ligament tension and muscle tone, the interface of the prosthesis with the head of the femur is axially pretensioned. The 20 greater the steepness of the thread, the more torque is necessary for unwanted loosening of the junction; such a loosening torque can occur around the symmetry axis of the surface replacement prosthesis due to rotary movements of the leg during motion exercises. With increasing ingrowth of osseous tissue into the osseointegratively formed boundary layer between femoral head and surface 25 replacement prosthesis, the positive connection between elements of osseous 5 tissue ("bone trabeculae") and the osseointegrative structure increases the stability of the interface. Therefore the thread should be designed with a pitch greater than 2 5 mm/revolution. Even better is a pitch greater than 4 mm/revolution. The best results were obtained with a pitch greater than 6 mm/revolution. The thread can also be multi-start. The number of thread turns, the tooth shape and the pitch can be optimized with respect to primary torsional reliability and axial stability within wide limits and are 10 to be fabricated during the green machining of the ceramic surface replacement prosthesis on commercial CNC machines. Also very steep angles up to 90 are feasible, and these can be installed with an impact instrument. The invention is further explained hereafter by means of several figures. Cement 15 free surface replacement prostheses are depicted in all figures. Figure 1 schematically depicts a section through a natural femoral neck 9 and femoral head 3 with mounted surface replacement prosthesis 1 according to the invention made from a ceramic. The outer surface of the prosthesis 1 is 20 spherically formed and is either directly inserted into the natural pelvis or into a synthetic socket, which in turn is anchored directly or indirectly in the natural pelvis. The surface replacement prosthesis 1 comprises an inner receiving space having 25 an inner lateral surface 4, with which the surface replacement prosthesis 1 is 6 fitted on the femoral head 3. The inner lateral surface 4 of the receiving space is preferably conically shaped. But the receiving space can also be ball-shaped, as shown in Figure 1. 5 According to the invention, the surface replacement prosthesis 1 is fastened without cement onto the femoral head 3. This applies for all embodiments of the invention. Also, it is arranged with no axial centering pin in the receiving space. To anchor the surface replacement prosthesis 1, the inner lateral surface 4 is 10 provided with an osseointegrative coating 6 or is formed osseointegratively. In another embodiment of the invention the inner lateral surface of the receiving space 4 is created as self-forming thread. These embodiments are explained in more detail by means of Figures 2 - 6. In addition, in these embodiments the 15 inner lateral surface can also be provided with an osseointegrative coating or be created osseointegratively. Figure 2 illustrates a surface replacement prosthesis 1 according to the invention, in which the lateral surface 4 of the inner receiving space is formed in truncated 20 cone shape and is provided with a multi-start high-pitch thread. A 2-start self forming thread is depicted in Figure 2 as an example. The inner lateral surface 4 is additionally provided with an osseointegrative coating 6 on the thread. An osseointegrative coating 6 is also designated as Direct-To-Bone-Coating. Preparation of the site during the operation takes place with an appropriately 25 designed surgical milling instrument. After placement of the surface replacement 7 prosthesis 1, this is fixed firmly by a right turn. To correct the height, the surface replacement prosthesis 1 can be loosened again by left rotation and if necessary the site can be re-milled. 5 Due to the centering effect of the cone-shaped site, a centering pin can be dispensed with the advantage of tissue retention. In Figure 2 the pitch(es) of the conical 2-start thread is constant, e.g. the axial path per total revolution is constant. The separation (t), e.g. the distance here 10 between two thread tips is s/2. Figure 3 depicts a surface replacement prosthesis 1 with a conical self-forming 4 start thread with a separation s/4. 15 Figure 4 depicts a section through a surface replacement prosthesis 1 with a 2 start thread 8 and Figure 5 depicts a surface replacement prosthesis 1 with a 4 start thread. Figure 6 depicts a surface replacement prosthesis 1 according to the invention 20 with a cyndrical self-forming 6-start thread. Here only the spherical section 2 of the receiving space above the thread has an osseointegrative coating 6. The pitch of all threads is 1 to 20 mm/revolution; preferred is 2 to 10 mm/revolution, and especially preferred is 3 to 6 mm/revolution. The choice of the 25 start of the thread depends on the pitch and the thread form. Thus for a 1 -start 8 thread the pitch is preferably 1-2 mm/revolution, 2-4 mm/ revolution for a 2-start thread and 3-6 mm/revolution for a 3-start thread. Explanations for the reference numerals: 5 1 surface replacement prosthesis 2 spherical section of the receiving space above the thread 3 femoral head 4 lateral surface 5 spherical surface 10 6 osseointegrative coating 7 receiving space 8 thread 9 femoral neck

权利要求:
Claims (6)
[1] 1. A ceramic surface replacement prosthesis (1) for the natural femoral head (3) comprising an outer spherical surface (5) and an inner receiving space (7) having an inner lateral surface (4), characterized in that the inner lateral 5 surface (4) is provided at least in sectors with an osseointegrative coating (6) or is osseointegratively formed and/or the lateral surface (4) is formed as self-forming thread (8).
[2] 2. A surface replacement prosthesis according to claim 1, characterized in that the thread (8) is conical or cylindrical in shape. 10
[3] 3. A surface replacement prosthesis according to claim 1 or 2, characterized in that the thread (8) is formed with a pitch greater than 2 mm/revolution.
[4] 4. A surface replacement prosthesis according to claim 3, characterized in that the thread (8) is formed with a pitch greater than 4 mm/revolution.
[5] 5. A surface replacement prosthesis according to claim 4, characterized in that 15 the thread (8) is formed with a pitch greater than 6 mm/revolution.
[6] 6. A surface replacement prosthesis according to claim 1 or 2, characterized in that the thread (8) is formed multi-start.

类似技术:

---

公开号 | 公开日 | 专利标题

---

EP1968496B1|2011-04-20|Hip resurfacing implant

---

US9241802B2|2016-01-26|Humeral head resurfacing implant

---

US4944759A|1990-07-31|Porous-coated artificial joints

---

CA2598027C|2013-10-01|Long sleeves for use with stems

---

US5201767A|1993-04-13|Fluted-wedge osteal prosthetic component

---

US8409295B2|2013-04-02|Method and apparatus for replacing a femoral component of a hip joint

---

US20100121458A1|2010-05-13|Femoral head resurfacing

---

EP2108338A2|2009-10-14|Resurfacing femoral head component

---

EP3053547B1|2017-07-19|Improved hip prosthesis

---

US20150039094A1|2015-02-05|Cement-free surface replacement prosthesis for the natural femur head

---

KR20160145111A|2016-12-19|Surface replacement prosthesis for natural femur head

---

Leung et al.2013|Notching of the femoral stem neck in metal-on-metal total hip replacement: a case report

---

Günther et al.2009|How to do a cementless hip arthroplasty

---

EP3718511A1|2020-10-07|Resurfacing cup for acetabulum hemiarthroplasty of the hip joint

---

Bose et al.2015|Uncemented Total Hip Arthroplasty

---

Triantafyllopoulos et al.2015|Choosing Implant for Total Hip Arthroplasty

同族专利:

---

公开号 | 公开日

---

KR20140133879A|2014-11-20|

---

EP2816975A1|2014-12-31|

---

DE102013202243A1|2013-08-29|

---

CN104185457A|2014-12-03|

---

WO2013127623A1|2013-09-06|

---

JP2015507985A|2015-03-16|

---

US20150039094A1|2015-02-05|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

DE2356464A1|1973-11-12|1975-05-22|Rosenthal Technik Ag|SIMPLE FEMORAL HEAD DROSTHESIS AND DRILLING DEVICE FOR ITS FIXING|

---

DE2512407A1|1975-03-21|1976-09-23|Heinz Prof Dr Med Wagner|HIP HEAD CAP FOR A HIP PROSTHESIS|

---

DE2535649C3|1975-08-09|1981-07-02|Rosenthal Technik Ag, 8672 Selb|Ceramic spherical hip joint cap prosthesis for cementless implantation|

---

CH642251A5|1979-12-22|1984-04-13|Straumann Inst Ag|BALL JOINT PROSTHESIS WITH A CAP.|

---

US5133769A|1990-11-09|1992-07-28|Sulzer Brothers|Cap for a femur head|

---

IT1273952B|1995-02-22|1997-07-11|Francesco Caracciolo|TOTAL ANATOMICAL PROSTHESIS OF THE HIP|

---

DE19537676A1|1995-10-10|1997-04-17|Cerasiv Gmbh|Femoral head cap for a hip joint prosthesis|

---

US6336941B1|1998-08-14|2002-01-08|G. V. Subba Rao|Modular hip implant with shock absorption system|

---

CN2850560Y|2005-07-12|2006-12-27|北京蒙太因医疗器械有限公司|Snail type metal cup of acetabulum prosthesis|

---

US20080004710A1|2006-06-30|2008-01-03|Howmedica Osteonics Corp.|Femoral head resurfacing|

---

GB0618930D0|2006-09-26|2006-11-08|Smith & Nephew|Medical implant|

---

CN201168073Y|2008-03-24|2008-12-24|曼德卡姆有限公司|Artificial femoral head nested on femur neck|

---

FR2929104B1|2008-03-28|2012-09-07|T O|COTYLOID ELEMENT OF HIP PROSTHESIS, AND TOTAL HIP PROSTHESIS COMPRISING IT.|

---

DE102009034746A1|2009-07-25|2011-01-27|Bernhard Hildebrandt|Endoprostheses whose bone contact area is divided into 2 levels with different surface structures|EP2900179A4|2012-09-27|2016-12-21|The General Hospital Corp D/B/A Massachusetts General Hospital|Femoral heads, mobile inserts, acetabular components, and modular junctions for orthopedic implants and methods of using femoral heads, mobile inserts, acetabular components, and modular junctions for orthopedic implants|

---

WO2016005236A1|2014-07-09|2016-01-14|Ceramtec Gmbh|Entirely ceramic resurfacing prosthesis having a porous inner face|

---

EP3332746B1|2016-12-06|2019-12-04|WALDEMAR LINK GmbH & Co. KG|Revision prosthesis shaft for a revision joint endoprosthesis|

法律状态:
2017-09-07| MK4| Application lapsed section 142(2)(d) - no continuation fee paid for the application|

优先权:

---

申请号 | 申请日 | 专利标题

---

DE102012202833||2012-02-24||

---

DE102012202833.1||2012-02-24||

---

PCT/EP2013/052753|WO2013127623A1|2012-02-24|2013-02-12|Cement-free surface replacement prosthesis for the natural femur head|

---