10576356 (P.T.A.B. Dec. 22, 2014)

Ex Parte Bott et al

Patent Trial and Appeal BoardDec 22, 2014

10576356 (P.T.A.B. Dec. 22, 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. 10/576,356 12/11/2006 Richard R. Bott DOG 0101 PA/35319.68 9374 23368 7590 12/22/2014 DINSMORE & SHOHL LLP FIFTH THIRD CENTER, ONE SOUTH MAIN STREET SUITE 1300 DAYTON, OH 45402-2023 EXAMINER PARK, HAEJIN S ART UNIT PAPER NUMBER 1615 MAIL DATE DELIVERY MODE 12/22/2014 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 RICHARD R. BOTT, KURT FRIEDRICH BRANDSTADT, CSILLA KOLLAR, THOMAS HOWARD LANE, DONALD TAYLOR LILES, MAE SALDJENO, and XAVIER JEAN-PAUL THOMAS __________ Appeal 2012-006143 Application 10/576,356 Technology Center 1600 __________ Before ERIC B. GRIMES, JEFFREY N. FREDMAN, and CHRISTOPHER G. PAULRAJ, Administrative Patent Judges. PAULRAJ, Administrative Patent Judge. DECISION ON APPEAL This is an appeal1 under 35 U.S.C. § 134 involving claims to a controlled-release composition. The Examiner rejected the claims on obviousness grounds. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. 1 Appellants identify the Real Parties in Interest as Danisco US, Inc., and Dow Corning Corporation (see App. Br. 1). Appeal 2012-006143 Application 10/576,356 2 STATEMENT OF THE CASE Background According to the Specification: The subject invention generally relates to a multi-layer dressing and a controlled-release composition for topical application to a substrate. The subject invention also generally relates to a method of delivering an active agent to the substrate. More specifically, the dressing, the controlled-release composition, and the method of this invention relate are used for topical application to skin and, more particularly, to controlled release dressings comprising emulsions of protein-containing active agents and silicone that, when applied to the skin for therapeutic purposes, provide controlled-release of the active agents from the dressing. (Spec. 1). The Claims Claims 72 and 74–91 are on appeal. Independent claim 72 is representative, and reads as follows: 72. A controlled-release composition for topical application to a substrate, said composition comprising: an oil-in-water emulsion substantially free of lipophilic solvent wherein the oil-in-water emulsion has a hydrophilic phase comprising a protein as an active agent, water, and a carrier, and a hydrophobic phase comprising a silicone component. The Rejection The Examiner rejected the claims under 35 U.S.C. § 103(a) as obvious over the combination of Kosal,2 Bott,3 and Woodard.4 2 Kosal, US 6,545,086 B1, issued Apr. 8, 2003. 3 Bott et al., US 2003/0180281 A1, issued Sep. 25, 2003. 4 Woodard et al., US 4,655,767, issued Apr. 7, 1987. Appeal 2012-006143 Application 10/576,356 3 FINDINGS OF FACT FF1. Kosal is directed to oil-in-water (O/W) emulsions for “medical applications such as transdermal drug delivery patches, ... or to hold an active material such as a fungicide to the skin surface” (Kosal, col. 5 ll. 24–26), wherein “[t]he O/W emulsions comprise an oil or silicone phase with pressure sensitive adhesives (PSAs), in a continuous water phase, and a surfactant (Title; abstract; claim 1)” (Ans. 5). FF2. Kosal teaches “the inclusion of a thickener in the aqueous phase prior to the mixing of the aqueous phase with the siloxane composition when using the dispersion process, produces a more uniform, stable emulsion than without the inclusion of the thickener” (Kosal, col. 5 ll. 4–8). FF3. Kosal teaches that “[t]he avoidance of hydrocarbon based solvents is generally desirable in medical and personal care applications” (id., col. 5 ll. 26–28). FF4. Kosal teaches A preferred process for the production of the pressure sensitive adhesive emulsion is an inversion process comprising mixing the silicone pressure sensitive adhesive and the volatile silicone fluid with the surfactant and adding water while shearing to form an emulsion. . . . We have found that the best way to make an inversion emulsion of the pressure sensitive adhesive is to have an oleophilic/more hydrophobic surfactant mixed into the oil phase blend of silicone pressure sensitive adhesive and volatile silicone fluid before adding the water, which has the more hydrophilic surfactant premixed into it, to the oil phase. (Id., col. 4 ll. 24–24). Appeal 2012-006143 Application 10/576,356 4 FF5. Example 5 of Kosal teaches the preparation of an O/W emulsion wherein “the emulsion was diluted with 1464 g water containing 6 g Kathon® CG biocide” (id., col. 7 ll. 15–18). FF6. Bott teaches “topical preparations for release of an active agent” wherein: “The preparations may have an internal phase dispersed within an external phase. The internal phase may be a hydrophilic carrier and an active agent. The external phase may be a silicone matrix.” (Bott, Abstract). “The active agents may be proteins, particularly enzymes such as hydrolases and glucose oxidase” (Bott, ¶ 6). The topical preparations of Bott “are effective in providing controlled release of active agents to the skin” (id., ¶ 9). ANALYSIS Claims 72, 74–86, 90, and 91 With regard to independent claim 72, the Examiner finds that “Kosal is directed to oil-in-water (O/W) emulsions for ‘medical applications such as transdermal drug delivery patches, ... , or to hold an active agent such as a fungicide to the skin surface’, or for formulating mascaras and sunscreens (col.1 ll.20-23; col.5 ll.23-24)” (Ans. 5), wherein “[t]he O/W emulsions comprise an oil or silicone phase with pressure sensitive adhesives (PSAs), in a continuous water phase, and a surfactant (Title; abstract; claim 1)” (FF1). The Examiner further finds that Kosal teaches the avoidance of lipophilic (i.e., hydrocarbon based) solvents in medical applications, and that the aqueous (hydrophilic) phase of the emulsion includes a “thickener,” i.e., a carrier (FF2–3). The Examiner acknowledges that “Kosal does not expressly teach incorporating a protein active agent in the hydrophilic phase of the O/W Appeal 2012-006143 Application 10/576,356 5 emulsion,” but relies upon Bott’s teaching of “water-in-oil (W/O) emulsions comprising a protein active agent in an aqueous phase and a carrier such as polyvinyl alcohol, wherein the external, i.e., hydrophobic phase may be a silicone PSA (title; abstract; paras.0002, 0008, 0041)” (Ans. 5). The Examiner concludes that “[i]t would have been obvious to one of ordinary skill in the art at the time the invention was made to combine the teachings of Kosal and Bott et al. and prepare O/W emulsions of Kosal comprising the protein active agent of Bott et al. in the hydrophilic phase and a silicone PSA in the hydrophobic phase as taught by Kosal and Bott et al.” (id. at 6). Based on the cited teachings of the prior art (FF1–6) and the rationale supplied by the Examiner (Ans. 6), we determine that a prima facie showing of obviousness has been made. We have considered Appellants’ arguments but do not find them persuasive. We are not convinced by Appellants’ argument that Kosal does not “describe a controlled release composition containing a protein active agent,” but rather “[i]n those embodiments [of Kosal] in which there is an active agent, the agent is either separate from the PSA and held to the substrate in a conventional manner with the pressure sensitive adhesive, or the active agent is physically mixed with the PSA and adhered to the substrate,” and “[a]s to the latter, Kosal is silent concerning whether the active agent resides in the oil phase or the aqueous phase of the PSA” (App. Br. 5). Appellants also argue that “[t]here is a material difference between locating an active agent in an oil-in-water emulsion to control the release of that agent (claimed invention) versus simply holding an active agent against a patient’s skin (Kosal)” (App. Br. at 9). We disagree as we find that Kosal’s teaching that the PSA emulsion may be used for “medical Appeal 2012-006143 Application 10/576,356 6 applications such as transdermal delivery patches, . . . or to hold an active material such as a fungicide to the skin surface” would be understood by the skilled artisan to refer to a controlled release composition (FF1). This is consistent with the statement in Appellants’ own Specification that “[t]ransdermal delivery systems allow controlled-release of active molecules with biologically appropriate kinetics to a targeted area” (Spec. 1 ll. 26–28). Moreover, contrary to Appellants’ assertion, we agree with the Examiner’s finding that Example 5 of Kosal teaches an active agent (biocide) dispersed in the hydrophilic/aqueous phase of the emulsion (FF5; Ans. 9). With regard to this teaching, Appellants argue that the “extremely minor amount of biocide” used in Example 5 “is intended for use as a preservative for the adhesive, not as a blended active agent for any health, medical, or personal care use” (Reply Br. 2). However, Appellants do not cite to any teaching in Kosal to support that assumption. See In re Geisler, 116 F.3d 1465, 1470 (Fed. Cir. 1997) (“An assertion of what seems to follow from common experience is just attorney argument and not the kind of factual evidence that is required to rebut a prima facie case of obviousness.”). In any event, Kosal’s example shows incorporation of a water-soluble biocide in the aqueous phase of its emulsion, which would have suggested the inclusion of other water-soluble biocides (e.g., fungicides) as active materials in the aqueous phase. Appellants further argue that “[u]nlike Kosal, Bott teaches the use of a continuous silicone phase (‘silicone matrix’) and a discontinuous aqueous phase which would be understood by persons skilled in the art to be a water- in-oil composition in which the hydrophilic carrier containing the active Appeal 2012-006143 Application 10/576,356 7 agent is dispersed throughout a silicone matrix (see, e.g., para. [0008])” (App. Br. 6). Appellants assert that Bott suggests that several mechanisms could be involved in controlling the release of the active agent from the preparation including the addition of hydrophilic agents to the silicone phase or choosing a silicone having a low cross-link density such that the active agent can be released through cracks, pores, or fissures in the silicone phase. See, e.g., paras. [0035] and [0058]. (App. Br. 6). We are not convinced that any difference in the mechanism of controlling the release of an active agent in the W/O emulsion of Bott would have dissuaded a skilled artisan from utilizing the O/W emulsion taught by Kosal as a controlled release composition for the release of a protein from the hydrophilic phase. The claims do not require any particular mechanism of release of the active agent from the hydrophilic phase, nor does the Examiner’s obviousness rationale rely upon utilization of Bott’s mechanism of release in Kosal’s O/W emulsion. Moreover, Kosal teaches that the O/W emulsion disclosed therein is prepared by the phase inversion of a W/O emulsion (FF4). This is consistent with the teaching in Appellants’ own Specification that the O/W emulsion may be prepared by the mechanical inversion of a W/O emulsion (Spec. p. 6, ll. 7–12, p. 16 ll. 9–3). We therefore do not find that the skilled artisan would have looked away from Bott’s teachings merely because it involved a different mechanism of release. In re Merck & Co., Inc., 800 F.2d 1091, 1097 (Fed. Cir. 1986) (A reference must be “read, not in isolation, but for what it fairly teaches in combination with the prior art as a whole”). Appeal 2012-006143 Application 10/576,356 8 Appellants further argue that the Examiner has not established a motivation to combine the reference teachings as none of the advantageous properties of Kosal’s composition identified by the Examiner “relate to the controlled release of an active agent from the composition” (App. Br. 11). Appellants assert that “[t]he rejection is based on speculation and prohibited hindsight” (id. at 12). We are not persuaded by Appellants’ contentions. In particular, Appellants argue that the Examiner’s asserted motivation to utilize Kosal’s composition for purposes of “controlled tack and lubrication” only “relates to the use of Kosal’s pressure sensitive adhesive in paper coatings for adhesive labels and envelope sealing strips” and “[t]hese properties have nothing to do with the controlled release of any active agent” (App. Br. 11). We find nothing of record, however, to suggest that “controlled tack and lubrication” properties taught by Kosal would not be desirable for a controlled release composition, such as in the transdermal drug delivery patch application identified in the very same sentence (FF1). Indeed, that would be contrary to Appellant’s own Specification teaching that “[t]he controlled-release composition according to this invention is capable of delivering performance properties such as adhesion, controlled tack, controlled lubrication, [etc.]” (Spec. 18 ll. 7–9 (emphasis added)). Nor is there any support for Appellants’ assertion that the “greater durability” taught by Kosal for its composition would not be considered a desirable feature for a controlled release composition, such as that utilized in a transdermal drug delivery patch (App. Br. 11). As such, we find sufficient motivation to use Kosal’s O/W emulsion as a controlled release composition for the release of a protein as the active agent. Appeal 2012-006143 Application 10/576,356 9 We accordingly affirm the obviousness rejection of claim 72. Appellants do not present separate arguments for dependent claims 74–86, 90, and 91, and therefore those claims fall with claim 72. 37 C.F.R. § 41.37(c)(1)(vii). Claims 87 and 88 With respect to claims 87 and 88, Appellants argue that “[i]t is apparent that Kosal’s adhesive could be used as adhesive layer 22 in Woodard, but that substitution does not meet the claims” (App. Br. 13). In particular, Appellants assert that modifying the prior art teachings to “include the active agent of Bott in the pressure sensitive adhesive of Kosal . . . would render layer 20 in Woodard superfluous” (id.). We are not persuaded. For the reasons discussed above, we find that a skilled artisan would understand that the O/W emulsion of Kosal could be used as the controlled release composition for the drug layer 20 in the transdermal drug delivery device taught by Woodard. Claim 89 With respect to claim 89, Appellants argue that “Kosal does not teach or suggest a controlled release layer free of water,” and that “while Bott teaches an embodiment using a dry patch, again, Bott teaches a water-in-oil emulsion, not an oil-in-water emulsion” (App. Br. 13). For the reasons discussed above, we disagree with Appellants’ assertion that Kosal fails to suggest an O/W composition that can control the release of an active agent. In addition, as the Examiner found (Ans. 8), Bott provides examples in which an enzyme-containing emulsion is spread on a substrate and dried. Appeal 2012-006143 Application 10/576,356 10 Bott states that the enzyme remained stable during storage (see, e.g., Bott, ¶ 85). SUMMARY We affirm the claim rejection under 35 U.S.C. §103(a). 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 tc