Ex Parte Akiyama et alDownload PDFPatent Trial and Appeal BoardDec 18, 201211508732 (P.T.A.B. Dec. 18, 2012) Copy Citation 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. 11/508,732 08/22/2006 Hidero Akiyama 912162.447 2703 500 7590 12/19/2012 SEED INTELLECTUAL PROPERTY LAW GROUP PLLC 701 FIFTH AVE SUITE 5400 SEATTLE, WA 98104 EXAMINER PATEL, SHEFALI DILIP ART UNIT PAPER NUMBER 3767 MAIL DATE DELIVERY MODE 12/19/2012 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 HIDERO AKIYAMA, MIZUO NAKAYAMA, TAKEHIKO MATSUMURA, and AKIHIKO MATSUMURA __________ Appeal 2010-012154 Application 11/508,732 Technology Center 3700 __________ Before FRANCISCO C. PRATS, MELANIE L. McCOLLUM, and JACQUELINE WRIGHT BONILLA, Administrative Patent Judges. McCOLLUM, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134 involving claims to an iontophoresis device. 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 1-36 are pending and on appeal (App. Br. 1-2). We will focus on claims 1, 3, and 21, the only independent claims on appeal, which are set Appeal 2010-012154 Application 11/508,732 2 forth in the Claims Appendix to the Appeal Brief (id. at 43-50). Claim 1 is illustrative and reads as follows: 1. An iontophoresis device used for administering an ionic active agent by iontophoresis comprising: an active electrode assembly comprising: an active electrode; an electrolyte solution reservoir that holds an electrolyte solution, the electrolyte solution reservoir placed on an outer surface of the active electrode; a second ion exchange membrane that selectively passes ions having a polarity opposite that of the ionic active agent, the second ion exchange membrane placed on an outer surface of the electrolyte solution reservoir; an active agent reservoir that holds the ionic active agent, the active agent reservoir placed on an outer surface of the second ion exchange membrane; and a first ion exchange membrane that selectively passes ions having the same polarity as the ionic active agent, the first ion exchange membrane placed on an outer surface of the active agent reservoir, a counter electrode assembly comprising a counter electrode; a DC electric power source connected to the active electrode of the active electrode assembly and to the counter electrode of the counter electrode assembly; and a liquefying device selectively operable to excite at least one of the electrolyte solution reservoir and the active agent reservoir, wherein at least one of the electrolyte solution reservoir and the active agent reservoir consists of a gel matrix that transforms to a liquid upon excitation by the liquefying device. Claims 1-4, 6, 8-13, 15, 17-24, 28, 30, 31, 33, 34, and 36 stand rejected under 35 U.S.C. § 103(a) as obvious over Haak et al. (US 5,647,844, Jul. 15, 1997) in view of Gould et al. (US 5,000,955, Mar. 19, 1991) (Ans. 4). Appeal 2010-012154 Application 11/508,732 3 Claims 5, 7, 14, 16, 26, 29, 32, and 35 stand rejected under 35 U.S.C. § 103(a) as obvious over Haak in view of Gould and Tengler et al. (US 2006/0193877 A1, Aug. 31, 2006) (Ans. 14). Claim 25 stands rejected under 35 U.S.C. § 103(a) as obvious over Haak in view of Gould and Zhang et al. (US 2003/0093057 A1, May 15, 2003) (Ans. 17). Claim 27 stands rejected under 35 U.S.C. § 103(a) as obvious over Haak in view of Gould and Lipkovker (US 5,421,816, Jun. 6, 1995) (Ans. 17). I The Examiner relies on Haak for teaching “an iontophoresis device (Figure 2, device [20]) comprising . . . an active electrode assembly (donor electrode assembly [8])” and “a counter electrode assembly (counter electrode assembly [29])” substantially as claimed (Ans. 4-5). However, the Examiner finds that Haak “does not teach that the gel matrix transforms into a liquid upon excitation by a liquefying device that is selectively operable to excite at least one of the electrolyte solution reservoir [13] and the active agent reservoir [15]” (id. at 5). The Examiner relies on Gould for teaching “a gel matrix, which is suitable for medical uses, and which liquefies upon thermal excitation by a liquefying device („diathermy machine‟), in order to release an entrapped drug within the gel matrix” (id.). The Examiner concludes that it would have been obvious “to implement a liquefying device that transforms a gel Appeal 2010-012154 Application 11/508,732 4 matrix into a liquid, as taught by Gould et al, with the iontophoresis device, of Haak” (id.). Analysis Appellants argue that the Examiner has not provided an adequate rationale to combine Haak and Gould (App. Br. 19). We agree. The Examiner concludes that it would have been obvious to implement a liquefying device that transforms a gel matrix into a liquid, as taught by Gould et al, with the iontophoresis device, of Haak et al, as the liquefying device will raise the temperature of the gel matrix, such that the gel matrix releases an entrapped drug to the patient‟s body. (Ans. 5.) In support of this position, the Examiner finds that an “unexpected and beneficial result is that the combined action of the drug and the heat developed by the liquefying device will exert a synergistic effect, thereby enhancing the therapy” (id.). (See also Ans. 7-8 & 11-12, which relate to the rejections of claims 3 and 21.) However, the synergistic effect described in Gould is a synergistic therapeutic effect between the drug and the heat on a tumor (Gould, col. 5, ll. 31-44), not a synergistic effect impacting the release of the drug per se. We agree with Appellants that the Examiner has not adequately explained how this synergistic effect is applicable to Haak‟s transdermal delivery of drugs (App. Br. 18). Thus, given that Haak discloses an active means of drug delivery, that is, iontophoresis, we conclude that the Examiner has not adequately explained why it would have been obvious to raise the temperature of the gel matrix to release the drug. Appeal 2010-012154 Application 11/508,732 5 Appellants also argue that the Examiner has not shown that Haak teaches that the “permeability of layer 17 to ions is in any way selective, much less selective on the basis of charge or polarity” (id. at 20). We agree. Claim 1 recites an ion exchange membrane, placed on an outer surface of the active agent reservoir, “that selectively passes ions having the same polarity as the ionic active agent.” The Examiner finds that Haak‟s ion- conducting layer 17 is such an ion exchange membrane (Ans. 5). However, we agree with Appellants that the Examiner has not set forth a prima facie case that Haak‟s ion-conducting layer 17 “selectively” passes ions. As noted by the Examiner (id. at 20), the Specification defines the term “ion exchange membrane” as “a membrane that substantially passes and/or substantially blocks ions based primarily on the polarity or charge carried by the ion” (Spec. 6: 1-5 (emphasis added)). However, the fact that the membrane may pass or block ions based on factors other than polarity or charge does not negate the requirement that the membrane passes or blocks ions based on polarity or charge, particularly in view of the recitation in claim 1 that the ion exchange membrane is selective. The Examiner has not shown where or how the disclosure in Haak meets this requirement. Conclusion The Examiner has not set forth a prima facie case that it would have been obvious to combine Haak with Gould. Thus, we conclude that the Examiner has not set forth a prima facie case of obviousness with regard to Appeal 2010-012154 Application 11/508,732 6 claim 1, as well as claims 3 1 and 21, which are also rejected over this combination (Ans. 7-8 & 11-12). In addition, the Examiner has not set forth a prima facie case that Haak and/or Gould teach or suggest an ion exchange membrane, placed on an outer surface of the active agent reservoir, that selectively passes ions having the same polarity as the ionic active agent. Thus, with regard to claim 1 (but not claims 3 and 21, which do not recite this feature), we conclude that the Examiner has not set forth a prima facie case of obviousness for this additional reason. For the forgoing reason(s), we reverse the obviousness rejection of claims 1, 3, and 21 and of claims 2, 4, 6, 8-13, 15, 17-20, 22-24, 28, 30, 31, 33, 34, and 36, which depend from claims 1, 3, or 21. 1 In rejecting claim 3, the Examiner finds that Haak “does not teach that the gel matrix transforms into a liquid upon excitation” (Ans. 8). Instead, the Examiner relies on Gould to teach this feature (id.). However, as discussed above, the Examiner has not set forth a prima facie case that it would have been obvious to combine Haak with Gould. That being said, claim 3 does not require a liquefying device. In addition, as noted by the Examiner, Haak discloses that the matrix of reservoirs 13 and 15, which the Examiner relies on for being the electrolyte solution and active agent reservoirs, respectively (Ans. 7), can “be formed of a hydrophilic polymer which is swellable or soluble in water, e.g., hydrogels,” and lists “[e]xamples of suitable hydrophilic polymers” (Haak, col. 15, ll. 42-52). On remand, the Examiner should consider whether Haak teaches or suggests a gel matrix that would inherently have the ability to transform to a liquid upon excitation, regardless of whether it would have been obvious to liquefy it. Appeal 2010-012154 Application 11/508,732 7 II With regard to claims 5, 7, 14, 16, 25-27, 29, 32, and 35, the Examiner relies on Haak and Gould as discussed above (Ans. 14 & 17-18). In addition, the Examiner relies on Tengler, Zhang, or Lipkovker for teaching various features of these dependent claims (id.). However, the Examiner does not adequately explain how Tengler, Zhang, or Lipkovker make up for the deficiencies in Haak and Gould discussed above. Therefore, we also reverse the obviousness rejections of claims 5, 7, 14, 16, 25-27, 29, 32, and 35. REVERSED cdc Copy with citationCopy as parenthetical citation
