14657386 (P.T.A.B. Mar. 22, 2018)

Ex Parte Nygren

Patent Trial and Appeal BoardMar 22, 2018

14657386 (P.T.A.B. Mar. 22, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 14/657,386 03/13/2015 Lea A. Nygren 10723 7590 03/26/2018 Medtronic Inc. (CRDM/MRG) 710 Medtronic Parkway NE MS LC-340 Minneapolis, MN 55432-5604 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 ATTORNEY DOCKET NO. CONFIRMATION NO. P0020735.USC1/13403500102 5409 EXAMINER GRAND, JENNIFER LEIGH-STEW AR ART UNIT PAPER NUMBER 3766 NOTIFICATION DATE DELIVERY MODE 03/26/2018 ELECTRONIC 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. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address( es): ptodocketing@mrgs.com medtronic_crdm_docketing@cardinal-ip.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte LEA A. NYGREN 1 Appeal2017-005035 Application 14/657,386 Technology Center 3700 Before ERIC B. GRIMES, JOHN G. NEW, and JOHN E. SCHNEIDER, Administrative Patent Judges. GRIMES, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. Â§ 134 involving claims to a method of making an implantable electrode and an electrode made by that process, which have been rejected for obviousness and obviousness-type double patenting. We have jurisdiction under 35 U.S.C. Â§ 6(b ). We affirm. 1 Appellant identifies the real parties in interest as Medtronic, Inc. and Medtronic plc. (Appeal Br. 2.) Appeal2017-005035 Application 14/657,386 STATEMENT OF THE CASE Claims 29--51 are on appeal. Claims 29 and 38 are illustrative and read as follows: 29. A method for fabricating an implantable medical electrode, the method comprising: mechanically roughening a surface of a substrate; and applying a film of iridium oxide over the roughened surface using direct current magnetron sputtering in a sputtering atmosphere comprising oxygen and argon. 3 8. An implantable medical electrode comprising a substrate and an iridium oxide surface, the surface formed by applying a film of iridium oxide over a roughened surface of the substrate using direct current magnetron sputtering in which a sputtering atmosphere comprises oxygen and argon. The claims stand rejected as follows: Claims 29, 31, 35--41, and 44--51under35 U.S.C. Â§ 103(a) as obvious based on Zhou2 and Slavcheva3 (Ans. 2); Claim 30 under 35 U.S.C. Â§ 103(a) as obvious based on Zhou, Slavcheva, and Hossainy4 (Ans. 6); Claims 32, 33, 42, and 43 under 35 U.S.C. Â§ 103(a) as obvious based on Zhou, Slavcheva, and Moriya5 (Ans. 7); 2 US 2004/0220652 Al, published Nov. 4, 2004 3 E. Slavcheva, Sputtered Iridium Oxide Films as Charge Injection Material for Functional Electrostimulation, 151 J. ELECTROCHEM. Soc. E226-E237 (2004). 4 US 2005/0238686 Al, Oct. 27, 2005. 5 US 2005/0057136 Al, Mar. 17, 2005. 2 Appeal2017-005035 Application 14/657,386 Claim 34 under 35 U.S.C. Â§ 103(a) as obvious based on Zhou, Slavcheva, and Lessar6 (Ans. 7-8); and Claim 29-51 for nonstatutory double patenting based on claims 1-27 of U.S. Patent 8,996, 129 (Ans. 9). I The Examiner has rejected all of the claims on appeal for nonstatutory double patenting. (Ans. 9.) Appellant does not present any arguments in the Appeal Brief or Reply Brief disputing the merits of the double patenting rejection. We therefore summarily affirm the rejection of claims 29-51 for nonstatutory double patenting based on claims 1-27 of the '129 patent. II The Examiner has rejected claims 2 9, 3 1, 3 5--41, and 44--51 as obvious based on Zhou and Slavcheva. The Examiner finds that Zhou teaches a method of making an electrode that includes "mechanically roughening a surface of a substrate ... and applying a film of iridium oxide over the roughened surface ... but does not explicitly teach do [sic, de] magnetron sputtering in an oxygen and argon environment." Ans. 2. The Examiner finds that "Slavcheva teaches sputtered iridium oxide films which utilizes direct current magnetron sputtering in a sputtering atmosphere comprising oxygen and argon to apply an iridium oxide film onto an implantable electrode." Id. at 3. The Examiner concludes that it would have been obvious "to modify the method of Zhou with the teachings of Slavcheva to include using do [sic, de] magnetron sputtering in an 6 US 4,860,446, iss. Aug. 29, 1989 3 Appeal2017-005035 Application 14/657,386 argon/oxygen atmosphere to apply the iridium oxide in order to provide a thin film that has long term stability toward mechanical stress and corrosion and which exhibits excellent electrochemical behavior," as disclosed by Slavcheva. Id. We agree with the Examiner that the method of claim 29 would have been obvious based on the disclosures of Zhou and Slavcheva. Zhou discloses "an implantable, coated electrode." Zhou i-f 23. Zhou also discloses a "method for manufacturing the electrode wherein the electrode has a fractal surface coating of platinum, known as 'platinum gray,' ... [and] is coated with either a gradient or discrete coating of an inert material, such as iridium oxide." Id. i-f 24. Zhou discloses that "the electrode surface may, in an alternative embodiment, be a rough surface that is achieved on a surface such as platinum, which has been roughened by abrasion, such as by abrasion blasting or chemical etching." Id. i-f 35. Zhou discloses that the iridium oxide coating can be applied by electroplating or by sputtering. Id. i-fi-141, 57. In the sputtering embodiment, "[t]he platinum and the iridium oxide are deposited by sequential graded co- sputtering. . . . This method creates an electrode 24 or electrode array that has platinum metal adjacent to the base of the electrode substrate, and iridium oxide at the surface of the electrode 24." Id. i-f 57. To achieve this sequential graded co-sputtering, the electrodes are preferably placed on a rotating carousel 18 in a sputtering machine that is capable of very rapid rotation and can sputter from two targets simultaneously. One target is an RF target for the sputtering of the iridium oxide. 20 An RF target is necessary as opposed to a DC target, since iridium oxide is a poor conductor. Id.i-f59. 4 Appeal2017-005035 Application 14/657,386 Slavcheva discloses "the deposition of iridium oxide thin films by de reactive magnetron sputtering." Slavcheva, E226, Abstract. Slavcheva states that an "optimal combination of sputtering parameters has been established [ 40 standard cubic centimeters per minute (seem) argon/8-12 seem oxygen/40% effective pump power/100 W de power/'cold' sputtering] that yields stable microporous amorphous films with a highly extended surface." Id. (brackets in original). Slavcheva states that "[t]he demonstrated remarkable electrochemical characteristics combined with their established long-term mechanical stability and corrosion resistance allow one to recommend the use of sputtered iridium oxide films as an ideal electrode material for neural stimulation." Id. Slavcheva also states that "de magnetron sputtering of iridium in argon/oxygen plasma is a reliable method for production of SIROFs [sputtered iridium oxide films] for neural stimulating electrodes. It can yield reproducible thin iridium oxide layers with an extended microporous surface." Id. at E236, left col. "In addition, these films have shown long- term stability toward mechanical stresses and corrosion [and] constant low impedance in the frequency range 1 Hz-10 kHz used for stimulation and signal recording." Id. We agree with the Examiner that the method of claim 29 would have been obvious based on Zhou and Slavcheva. Zhou discloses implantable electrodes having a surface roughened either mechanically or by deposition of a layer of platinum gray, and coated with a layer of iridium oxide that is deposited either by electroplating or by sputtering. Zhou specifically discloses RF (radio frequency) sputtering of iridium oxide in order to create on the surface of the electrode a gradient in which the proportion of platinum 5 Appeal2017-005035 Application 14/657,386 gray decreases, and the proportion of iridium oxide increases, the closer one gets to the surface. However, Slavcheva discloses depositing iridium oxide thin films by direct current (de) magnetron sputtering in a sputtering atmosphere comprising oxygen and argon. Slavcheva discloses that the resulting films have "remarkable electrochemical characteristics combined with ... long- term mechanical stability and corrosion resistance" and, therefore, they are "an ideal electrode material for neural stimulation." Slavcheva, E226, Abstract. Thus, it would have been obvious to modify Zhou's method of making implantable electrodes by substituting de magnetron sputtering of iridium oxide in a sputtering atmosphere comprising oxygen and argon, as taught by Slavcheva, for Zhou's sputtering process, because Slavcheva teaches that the resulting iridium oxide films are an ideal electrode material for neural stimulation. Appellant argues that Zhou teaches away from using direct current sputtering of iridium oxide. Appeal Br. 6-10. Appellant cites Zhou's disclosure of a gradient coating embodiment, and its statement that "[a Jn RF target is necessary as opposed to a DC target, since iridium oxide is a poor conductor." Id. at 8, quoting Zhou i-f 59. Appellant argues that "Zhou et al. teach only one technique for sputtering of iridium oxide - an RF target - and Zhou et al. teach that an RF target is necessary for such sputtering." Id. at 9. Appellant concludes that "Zhou et al. teach away from using a direct current target when sputtering iridium oxide." Id. at 10. Appellant also argues that "including oxygen in the atmosphere during sputtering, as taught by Slavcheva et al., would have prevented the formation of the iridium oxide-platinum gradient intended by Zhou et al." 6 Appeal2017-005035 Application 14/657,386 Id. at 11. See also id. at 12 ("Zhou et al. use an iridium oxide RF target in an oxygen-free atmosphere. (Zhou et al. i-f 60 (describing an 'argon background pressure of 1 to 10 mTorr').)"). Appellant argues that "providing oxygen to react with an iridium target to form an oxide film in the system taught by Zhou et al. would also have caused reaction with platinum to form platinum oxide instead of pure platinum." Id. These arguments are not persuasive, because they only address what would have been suggested by Zhou when considered in isolation, and fail to address what would have been obvious to a skilled artisan based on Zhou and Slavcheva when considered together. "The test for obviousness is what the combined teachings of the references would have suggested to one of ordinary skill in the art." In re Young, 927 F.2d 588, 591 (Fed. Cir. 1991) (emphasis added). "Non-obviousness cannot be established by attacking references individually where the rejection is based upon the teachings of a combination of references. . . . [The reference] must be read, not in isolation, but for what it fairly teaches in combination with the prior art as a whole." In re Merck & Co., 800 F.2d 1091, 1097 (Fed. Cir. 1986). Here, although Zhou discloses that RF sputtering target is necessary for iridium oxide when making an electrode with a gradient of platinum and iridium oxide, and does not mention a sputtering atmosphere comprising oxygen, Slavcheva expressly discloses that direct current (DC or de) sputtering of iridium oxide in an atmosphere comprising argon and oxygen provides "an ideal electrode material for neural stimulation." Slavcheva, E226, Abstract. Thus, a skilled artisan who considered the disclosures of Zhou and Slavcheva together would have known that direct current sputtering of iridium oxide in an argon/oxygen atmosphere would provide an 7 Appeal2017-005035 Application 14/657,386 iridium oxide film having suitable properties for use as an implantable electrode. Appellant also argues that the rejection is based on hindsight. Appeal Br. 13-15. Appellant argues that "the Examiner failed to provide any reason that would have directed a skilled artisan to make the various modifications necessary to combine Zhou et al. and Slavcheva et al." Id. at 14. This argument is also unpersuasive. The Examiner reasoned that it would have been obvious to modify the method of Zhou with the teachings of Slavcheva to include using [de] magnetron sputtering in an argon/ oxygen atmosphere to apply the iridium oxide in order to provide a thin film that has long term stability toward mechanical stress and corrosion and which exhibits excellent electrochemical behavior (e.g. E236, 1st column, 3rd paragraph). Ans. 3, emphasis added. Slavcheva's disclosure fully supports the Examiner's rationale ("[T]hese films have shown long-term stability toward mechanical stresses and corrosion [and] constant low impedance in the frequency range 1 Hz-10 kHz used for stimulation and signal recording." Slavcheva, E236, left col.). The rationale relied on by the Examiner supports the rejection of claim 29 under 35 U.S.C. Â§ 103(a) based on Zhou and Slavcheva. See KSR Int 'l Co. v. Teleflex Inc., 550 U.S. 398, 417 (2007) ("[I]f a technique has been used to improve one device, and a person of ordinary skill in the art would recognize that it would improve similar devices in the same way, using the technique is obvious unless its actual application is beyond his or her skill."); id. at 421 ("A person of ordinary skill is also a person of ordinary creativity, not an automaton."). 8 Appeal2017-005035 Application 14/657,386 We affirm the rejection of claim 29 under 35 U.S.C. Â§ 103(a) based on Zhou and Slavcheva. Claims 31, 3 5--41, and 44--51 have not been argued separately and therefore fall with claim 29. 37 C.F.R. Â§ 41.37(c)(l)(iv). The Examiner has rejected claims 30, 32-34, 42, and 43 as obvious based on Zhou and Slavcheva, combined with one of Hossainy, Moriya, or Lessar. Ans. 6-8. Appellant has waived arguments directed to Hossainy, Moriya, or Lessar. See Appeal Br. 15-16. We therefore affirm the rejection of claims 30, 32-34, 42, and 43 under 35 U.S.C. Â§ 103(a) based on Zhou and Slavcheva, combined with one of Hossainy, Moriya, or Lessar. See 37 C.F.R. Â§ 41.37(c)(l)(iv) (Appeal Brief must contain "[t]he arguments of appellant with respect to each ground of rejection."); Hyatt v. Dudas, 551 F.3d 1307, 1314 (Fed. Cir. 2008) ("When the appellant fails to contest a ground of rejection to the Board, ... the Board may treat any argument with respect to that ground of rejection as waived."). SUMMARY We affirm all of the rejections on appeal. 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. Â§ 1.136(a). AFFIRMED 9