Ex Parte Houser et alDownload PDFPatent Trial and Appeal BoardSep 25, 201211386399 (P.T.A.B. Sep. 25, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE __________ BEFORE THE PATENT TRIAL AND APPEAL BOARD __________ Ex parte KEVIN L. HOUSER and FOSTER B. STULEN __________ Appeal 2011-009569 Application 11/386,399 Technology Center 3700 __________ Before DONALD E. ADAMS, DEMETRA J. MILLS, and MELANIE L. McCOLLUM, Administrative Patent Judges. McCOLLUM, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134 involving claims to a composite end effector and to an assembly including a composite end effector. The Examiner has rejected the claims as obvious. We have jurisdiction under 35 U.S.C. § 6(b). We reverse. STATEMENT OF THE CASE Claims 1, 4-6, 9, 10, and 22-30 are pending and on appeal (App. Br. 1 & 3). We will focus on claims 1, 26, and 29, the only independent claims on appeal, which read as follows: Appeal 2011-009569 Application 11/386,399 2 1. A composite end effector for an ultrasonic surgical instrument comprising: a first portion formed from a first material selected from the group consisting of aluminum, aluminum alloy, titanium and titanium alloy, wherein said first material exhibits a first ultrasonic propagation wavelength when excited by an ultrasonic energy input; and a second portion formed from a second material selected from the group consisting of ceramic, alumina, sapphire, ruby, alumina nitride, zirconia, silicon carbide and silicon nitride, wherein said second material exhibits a second ultrasonic propagation wavelength when excited by said ultrasonic energy input; wherein said composite end effector exhibits a composite ultrasonic propagation wavelength that is between said first and second ultrasonic propagation wavelengths when excited by said ultrasonic energy input. 26. An ultrasonic transmission assembly comprising: a waveguide; and a composite end effector connected to said waveguide, said composite end effector including: a first portion formed from a metal or metal alloy that exhibits a first ultrasonic propagation wavelength when excited by an ultrasonic energy input; and a second portion formed from a second, non-metal material that exhibits a second ultrasonic propagation wavelength when excited by said ultrasonic energy input, said second ultrasonic propagation wavelength being at least about 1.25 times said first ultrasonic propagation wavelength, wherein said composite end effector exhibits a composite ultrasonic propagation wavelength that is between said first and said second ultrasonic propagation wavelengths when excited by said ultrasonic energy input, and wherein a length of said composite end effector is approximately equal to one fourth of said composite ultrasonic propagation wavelength. 29. A composite end effector for an ultrasonic surgical instrument comprising: a first portion formed from a metal or metal alloy, said first portion defining a cavity; and a second portion formed from a ceramic, sapphire or ruby, said second portion being received within said cavity, Appeal 2011-009569 Application 11/386,399 3 wherein said second portion is connected to said first portion such that said first and said second portions form a discontinuous interface therebetween, and wherein cracks formed in said second portion do not propagate into said first portion. Claims 1, 4-6, 9, 10, and 22-30 stand rejected under 35 U.S.C. § 103(a) as obvious over Hare et al. (US 2004/0176686 A1, Sep. 9, 2004) in view of Poole et al. (US 2004/0167496 A1, Aug. 26, 2004) (Ans. 3). The Examiner relies on Hare for disclosing an ultrasonic medical device end effector (24) having an outer member or “first portion” (64) of circular cross section formed of a first material and an inner member or “second portion” (63) of a different material coaxially received within the first portion, thus resulting in a characteristic value of the combination of the both materials when ultrasonic energy is utilized. (Ans. 3.) The Examiner finds that Hare “further discloses titanium as a material for the end effector,” but “fails to disclose a second material selected from a group including ceramic, alumina, sapphire, ruby, alumina nitride, zirconia, silicon carbide and silicon nitride” (id. at 3-4). The Examiner relies on Poole for teaching “a catheter having a radiopaque segment formed of radiopaque material including ceramic, zirconia, alumina and zirconium nitrate” (id. at 4). The Examiner concludes that it would have been obvious “to have constructed the end effector of Hare et al. with the ceramic radiopaque material, as taught by Poole et al., since it was well known to use ceramic materials as a radiopaque material” (id.). Appeal 2011-009569 Application 11/386,399 4 PRINCIPLES OF LAW “In rejecting claims under 35 U.S.C. § 103, the examiner bears the initial burden of presenting a prima facie case of obviousness. Only if that burden is met, does the burden of coming forward with evidence or argument shift to the applicant.” In re Rijckaert, 9 F.3d 1531, 1532 (Fed. Cir. 1993) (citation omitted). ANALYSIS Hare discloses that “ultrasonic probes are typically comprised of a high capacitance material,” which often has low radiopacity (Hare, ¶ [0008]). Thus, in order to increase their visibility in imaging procedures, Hare discloses additionally including a high radiopacity material (id. at ¶ [0018]). Hare discloses using titanium or titanium alloy as a low radiopacity material (id. at ¶ [0071]; see also ¶ [0062]). Thus, we agree with Appellants that one of ordinary skill in the art would not have used a material having a radiopacity lower than titanium as the material of high radiopacity (App. Br. 11-12). However, the Examiner responds that the “modification of Hare et al. with Poole is directed toward the second portion of the end effector of Hare et al. that was formed of low radiopaque material” (Ans. 9). We conclude that the Examiner has not set forth a prima facie case of obviousness. First, with regard to claim 1, we agree with Appellants’ argument that, if Hare’s low radiopaque material, e.g., titanium, is replaced with Poole’s ceramic (Poole, ¶ [0043]), the Examiner has not explained how the combination would result in a first portion formed from one of the recited first materials, e.g., titanium (Reply Br. 2). Appeal 2011-009569 Application 11/386,399 5 In addition, the purpose of Hare’s low radiopaque material is to provide high capacitance (Hare, ¶ [0018]). We agree with Appellants that the Examiner has not adequately explained why one of ordinary skill in the art would have replaced Hare’s high capacitance material with Poole’s radiopaque ceramic material (Reply Br. 2). We additionally note that the Examiner has not provided evidence indicating whether Poole’s ceramic materials have high or low radiopacity, as these terms are used in Hare. 1 If any of them has high radiopacity, this highly radiopaque ceramic could be considered the ceramic of claims 1 and 29 and the non-metal material of claim 26 and titanium or titanium alloy, as taught in Hare, could be considered the first material of claim 1 and the metal or metal alloy of claims 26 and 29. However, the Examiner does not even allege that any of Poole’s ceramic radiopaque materials have high radiopacity and instead appears to acknowledge that “ceramic materials have a lower radiopacity than metallic materials” (Ans. 9). Thus, we agree with Appellants that the Examiner has not set forth a prima facie case that it would have been obvious to incorporate a ceramic in Hare’s device as a material with high radiopacity (App. Br. 10-11). As a result, we need not reach the issue raised by Appellants as to whether it would have been 1 Appellants’ argue that, “following the teaching of Hare,” many of the second materials of claim 1 “are all expected to have substantially lower radiopacities than . . . titanium” (App. Br. 11). However, Appellants do not appear to address all of the ceramics disclosed in Poole, all of which would be encompassed by the term “ceramic” in claims 1 and 29 and by the term “non-metal material” in claim 26. Appeal 2011-009569 Application 11/386,399 6 obvious to use a ceramic, if it has high radiopacity, as Hare’s high radiopacity material (id. at 6-10). CONCLUSION The Examiner has not set forth a prima facie case of obviousness. We therefore reverse the rejection. REVERSED alw Copy with citationCopy as parenthetical citation
