12296796 (P.T.A.B. Jun. 3, 2014)

Ex Parte Imhof

Patent Trial and Appeal BoardJun 3, 2014

12296796 (P.T.A.B. Jun. 3, 2014)

UNITED STATES PATENT AND TRADEMARK OFFICE UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www.uspto.gov APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 12/296,796 05/18/2009 Martin Imhof PT-3507-US-PCT (27214-17) 1652 18007 7590 06/03/2014 SMITH & NEPHEW, INC. Sabrina Chambers 1450 Brooks Road Memphis, TN 38116 EXAMINER HOFFMAN, MARCIA ART UNIT PAPER NUMBER 3774 MAIL DATE DELIVERY MODE 06/03/2014 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE __________ BEFORE THE PATENT TRIAL AND APPEAL BOARD __________ Ex parte MARTIN IMHOF __________ Appeal 2012-001789 Application 12/296,796 Technology Center 3700 __________ Before LORA M. GREEN, JEFFREY N. FREDMAN, and ULRIKE W. JENKS, Administrative Patent Judges. PER CURIAM. DECISION ON APPEAL This is a decision on appeal1 under 35 U.S.C. § 134 from the Examiner’s rejection of claims 9-36. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. 1 The Real Party in Interest is Smith And Nephew Orthopaedics AG (App. Br. 1). Appeal 2012-001789 Application 12/296,796 2 STATEMENT OF THE CASE The Specification discloses “a joint socket, especially for a hip endoprosthesis, having a socket shell and having a socket insert for mounting a joint head” (Spec. 1:1-3). Claim 9 is representative of the claims on appeal and reads as follows: 9. A joint socket for a hip joint endoprosthesis, comprising: a socket shell configured for implantation in a bone and comprising a receiving space comprising an inner face; and a socket insert coupleable to the socket shell and configured to accommodate a joint head of a hip prosthesis stem therein, the socket insert comprising a spherical portion comprising a spherical outer face, the spherical portion configured to be received by the receiving space so that the spherical outer face and inner face contact each other concentrically with a rotational axis of the socket shell, a radius of curvature of the inner face being greater than a radius of curvature of the spherical portion in a region of concentric contact, such that the spherical portion self-lockingly clamps in the receiving space, wherein a resistance to deformation of one or more of the inner face and outer spherical face is less than that of a core region of the corresponding socket shell or socket insert. Issue The Examiner has rejected claims 9-36 under 35 U.S.C. § 103(a) as obvious in view of Imhof ’3902 and Kälberer ’936,3 with citations to the English language equivalents of Imhof ’4644 and Kälberer ’647,5 2 Imhof, DE 103 60 390 A1, published Jul. 28, 2005. 3 Kälberer, DE 43 37 936 A1, published May 11, 1995. 4 Imhof, US 2009/0171464 A1, published Jul. 2, 2009. 5 Kälberer et al., US 5,609,647, issued Mar. 11, 1997. Appeal 2012-001789 Application 12/296,796 3 respectively (Ans. 4-8).6 We focus our initial analysis on independent claim 9. The issue presented is: Has the Examiner established by a preponderance of the evidence that the cited references would have made obvious the use of Kälberer’s surface structure in the Imhof joint socket to thereby arrive at the joint socket with “a resistance to deformation of one or more of the inner face [of the socket shell] and outer spherical face [of the socket insert] is less than that of a core region of the corresponding socket shell or socket insert” as required by claim 9? Findings of Fact FF1. The Examiner finds that Imhof discloses a hip joint endoprosthesis comprising “a socket shell (18) configured for implantation in a pelvic bone (10) and comprising a receiving space (24) comprising an inner face (30); and a socket insert (20) coupleable to the socket shell (18) and configured to accommodate the joint head (16)” (Ans. 5 (citing Imhof, Figure 1)). FF2. The Examiner finds that the Imhof socket insert comprises “a spherical portion comprising an outer face (figure 2), the spherical portion configured to be received by the receiving space (24) so that the outer face and inner face [of the socket shell] contact each other concentrically about a rotational axis (26) of the socket shell” (id.). FF3. The Examiner finds that, in Imhof, the radius of curvature of the inner face of the socket shell is “greater than the radius of curvature of the 6 All of our citations to Imhof and Kälberer in this Decision are to the English translations of record, i.e., Imhof ’464 and Kälberer ’647. Appeal 2012-001789 Application 12/296,796 4 spherical portion in a region of concentric contact (figure 2), such that the spherical portion can self-lockingly clamp in the receiving space” (id. (citing Imhof, ¶ 21)). FF4. The Examiner finds that “the inner face [of the socket shell] is conical in a region of concentric contact between the socket shell and socket insert” (id. (citing Imhof, Figure 2)). FF5. Imhof discloses that the socket insert for its joint socket for a hip endoprosthesis is [L]oosely inserted in the accommodating space 24 of the socket shell 18 . . . [to] contact with the conical inner surface 28 of the accommodating space 24 along the line of contact 34 . . . [and] can then be rotated at will about its axis of rotation 38 and . . . tilted at will with respect to the axis of rotation 26 of the socket shell 18. (Imhof 2, ¶ 0020.) FF6. Imhof discloses that “[a]s soon as the socket insert 20 has been optimally oriented, the socket insert 20 is pressed axially into the accommodating space 24 so that it is clamped in self-retaining manner in that orientation position” (id. at 2, ¶ 0021). FF7. The Examiner finds that Imhof is silent as to whether “a resistance to deformation of one or more of the inner face and outer face is less than that of a core region of the corresponding socket shell or socket insert due to a surface structure on one or more of the inner face and spherical outer face” (id.). FF8. The Examiner finds that Kälberer discloses that “a resistance to deformation of one or more of the inner face and outer face is less than that of a core region of the corresponding socket shell or socket insert . . . due to Appeal 2012-001789 Application 12/296,796 5 a surface structure on one or more of the inner face and spherical outer face” (id. at 6 (citing Kälberer, col. 2, ll. 31-33 and 47-50; col. 3, ll. 18-22, 33-36, 40-41)). FF9. The Examiner finds that Kälberer’s surface structure “is configured to reduce the resistance to deformation and the pressure between contact surfaces of one or more of the faces in the socket shell and socket insert” (id.). FF10. The Examiner finds that Kälberer’s surface structure “comprises ribs or protuberances with breaks or grooves . . . extending around a periphery of the receiving space and/or the socket insert” (id. (citing Kälberer, Figure 3; col. 3, ll. 40-41)). FF10. Kälberer discloses “a hip joint socket for insertion into bone tissue and which has an outside metal shell and a ceramic shell anchored in the metal shell” (Kälberer, col. 1, ll. 6- 8). FF11. Kälberer discloses that “the inside of the metal shell and the outside of the ceramic shell have a spherical shape precisely fitted to one another, and means are provided for spreading out the transfer of force between the ceramic shell and the metal shell” (id. at col. 2, ll. 19-23). FF12. Kälberer discloses that the “ceramic shell is anchored in the metal shell by a retaining ring which is fastened on the margin of the metal shell” (id. at col. 2, ll. 62-64). FF13. Kälberer discloses that “the means for equalizing the transmission of force is a surface roughening applied to the inside of the metal shell, making the surface plastically deformable. The surface Appeal 2012-001789 Application 12/296,796 6 roughening enables the roughened surface of the metal shell to yield and compensate for dimensional inaccuracies” (id. at col. 2, ll. 47-52). FF14. Kälberer discloses that it “is state of the art to fix the inner ceramic shell in the metal shell by means of a taper lock . . . [but a] disadvantage of this taper lock is that once inserted, a ceramic shell can no longer be removed from the metal shell because the seizing forces are too great” (id. at col. 1, ll. 21-26). FF15. The Examiner concludes that it would have been obvious to one of ordinary skill in the art to include the Kälberer surface structure “around a periphery of the receiving space and/or the socket insert . . . of Imhof in order to equalize the transmission of force and compensate for peak stresses which occur due to technically caused and unavoidable dimensional variations” (id.). Principles of Law In determining whether obviousness is established by combining the teachings of the prior art, “the test is what the combined teachings of the references would have suggested to those of ordinary skill in the art.” In re Keller, 642 F.2d 413, 425 (CCPA 1981). In addition, a reference disclosure is not limited only to its preferred embodiments, but is available for all that it discloses and suggests to one of ordinary skill in the art. In re Lamberti, 545 F.2d 747, 750 (CCPA 1976). Moreover, A reference may be said to teach away when a person of ordinary skill, upon reading the reference, would be discouraged from following the path set out in the reference, or Appeal 2012-001789 Application 12/296,796 7 would be led in a direction divergent from the path that was taken by the applicant. The degree of teaching away will of course depend on the particular facts; in general, a reference will teach away if it suggests that the line of development flowing from the reference’s disclosure is unlikely to be productive of the result sought by the applicant. In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994). Analysis Appellant argues that the claim 9 recitation of “a radius of curvature of the inner face being greater than a radius of curvature of the spherical portion . . . such that the spherical portion self-lockingly clamps in the receiving space” is directed to a taper lock arrangement (App. Br. 12). Appellant argues that the Examiner relies on Imhof as disclosing a joint socket arranged as a taper lock, and relies on Kälberer for teaching the claim 9 limitation of “a resistance to deformation of one or more of the inner face and outer spherical face is less than that of a core region of the corresponding socket shell or socket insert” (id. at 12-13). Appellant argues that it would not have been obvious to one of skill in the art to apply the Kälberer resistance to deformation feature to the Imhof taper lock because Kälberer teaches away from the use of a taper lock and teaches that the “roughened surface and precise fit . . . are used as an alternative to a taper lock to avoid the perceived problems caused by a self-locking clamp” (id. at 13). That argument is not persuasive. Kälberer discloses that taper locks for hip joint sockets are well known in the art, i.e., that they are state of the art (FF 14). Kälberer teaches an alternative type of joint socket in which the Appeal 2012-001789 Application 12/296,796 8 shell and insert are precisely fitted to one another, and that uses a separate retaining ring or fastener to fasten the insert to the shell (FFs 10-13). Kälberer discloses that a surface roughening can be applied to the inner surface of the shell to make the surface plastically deformable and thereby equalize the transmission of force, such that the resulting deformability of the shell compensates for dimensional inaccuracies in the fit that would result in peak stresses (FF 13). Although the teaching of Kälberer is directed to a joint socket with a non-taper lock configuration, we agree with the Examiner that one of skill in the art would appreciate that the concept of a roughened surface to equalize force could be applied to joint sockets that are in a taper lock configuration to serve the same purpose of equalizing the transmission of force between two surfaces (see FF15). Appellant argues that the Examiner erred in concluding that one of ordinary skill would have been motivated to apply the resistance to deformation feature of Kälberer to the taper lock of Imhof in order to equalize the transmission of force and compensate for peak stresses because “one of ordinary skill [in the art] would expect that equalizing the transmission of force in DE ‘390 would reduce the seizing forces between the shell and the insert” (App. Br. 14). Appellant argues that the instant Specification discloses that, as a result of the resistance to deformation feature, the pressure between the two faces can be decreased while the seizing force is increased (id.). That argument is not persuasive. Appellant has not provided any evidence or scientific reasoning to support the argument that one of ordinary skill in the art would expect that the use of a resistance to deformation Appeal 2012-001789 Application 12/296,796 9 feature for equalizing the transmission of force between two faces in a taper lock of a joint socket would reduce the seizing force between the shell and the insert. See In re Pearson, 494 F.2d 1399, 1405 (CCPA 1974) (“Attorney’s argument in a brief cannot take the place of evidence.”). Appellant argues that the Kälberer teaching of “equalizing and spreading out the transmission of force between the matching spherical surfaces of the shells 10, 12 is directly contrary to the self-locking taper feature of Imhof which concentrates locking forces along a line of contact 34 to provide the taper lock between the socket components 18, 20” (Reply Br. 6). Appellant argues that “the self-locking taper lock feature between the socket insert 10 and the socket shell 19 of Imhof . . . concentrates locking forces along a line of contact 34 (i.e., to facilitate increased locking forces along the line of contact 34) to provide the taper lock feature” (id., citing Imhof at ¶¶ 18 and 20). That argument is not persuasive. Imhof discloses that a line of contact is formed when the socket insert is loosely fitted into the socket shell such that the socket insert can be rotated and tilted in the socket shell to obtain optimal positioning (FF 5). Imhof discloses that, when optimal positioning has been achieved, the socket insert is pressed axially into the accommodating space of the socket insert so that it is clamped in a self- retaining manner (FF 6). Thus, the locking forces are not concentrated along a line of contact after the socket insert is pressed into the accommodating space. Appeal 2012-001789 Application 12/296,796 10 Thus, we affirm the rejection claim 9 as being obvious in view of Imhof and Kälberer. Claims 10-21 have not been argued separately and therefore fall with claim 9. 37 C.F.R. § 41.37(c)(1)(vii). Appellant also argues the rejection of independent claim 22 (App. Br. 16-17). Claim 227 is directed to a hip joint prosthesis and, like claim 9, requires a socket shell and a socket insert such that “a resistance to deformation of one or more of the inner face and outer spherical face is less than that of a core region of the corresponding socket shell or socket insert.” Claim 22 further requires “a surface structure on one or more of the inner face and spherical outer face configured to reduce the resistance to deformation of one or more of the faces in the socket shell and socket insert.” Appellant argues that claim 22 is directed to a taper lock (App. Br. 16). Appellant argues that Kälberer teaches away from a self-locking taper lock and argue that the “roughened surface and precise fit that Kälberer discloses are used as an alternative to a taper lock to avoid the perceived problems caused by a self-locking taper” (id.). Appellant’s argument is not persuasive for the reasons discussed above. Thus, we affirm the rejection of claim 22 as being obvious in view of Imhof and Kälberer. Claims 23-28 have not been argued separately and therefore fall with claim 22. 37 C.F.R. § 41.37(c)(1)(vii). 7 The full text of claim 22 can be found in the Claims Appendix to the Appeal Brief (App. Br. 22-23). Appeal 2012-001789 Application 12/296,796 11 Appellant also argues the rejection of independent claim 29 (App. Br. 17-18). Claim 298 is directed to a method for implanting a hip joint endoprosthesis comprising, among other steps, the step of [I]nserting a socket shell in a pelvic bone, the socket shell having an inner surface that defines an accommodating space . . . wherein a surface structure on the inner face reduces a resistance to deformation of a portion of the inner surface relative to a core region of the socket shell . . . Appellant argues that it would not have been obvious to one of skill in the art to apply the Kälberer resistance to deformation feature to the Imhof taper lock because “Kalberer teaches away from the self-locking arrangement and . . . [discloses] an alternative to a taper lock to avoid the perceived problems caused by a self-locking taper” (App. Br. 17). This argument is not persuasive for the reasons discussed above. Thus, we affirm the rejection of claim 29 as being obvious in view of Imhof and Kälberer. Claims 30-36 have not been argued separately and therefore fall with claim 29. 37 C.F.R. § 41.37(c)(1)(vii). Conclusion of Law The preponderance of the evidence supports the Examiner’s conclusion that the cited references would have made obvious the use of Kälberer’s surface structure in the Imhof joint socket to thereby arrive at the joint socket of claim 9 with “a resistance to deformation of one or more of the inner face [of the socket shell] and outer spherical face [of the socket 8 The full text of claim 29 can be found in the Claims Appendix to the Appeal Brief (App. Br. 24). Appeal 2012-001789 Application 12/296,796 12 insert] is less than that of a core region of the corresponding socket shell or socket insert. SUMMARY We affirm the rejection claims 9-36 under 35 U.S.C. § 103(a). TIME PERIOD FOR RESPONSE No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). AFFIRMED cdc