15363317 - (D) (P.T.A.B. May. 15, 2020)

Alfred E. Tiefenbacher GmbH & Co. KG et al.

Patent Trials and Appeals BoardMay 15, 2020

15363317 - (D) (P.T.A.B. May. 15, 2020)

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. 15/363,317 11/29/2016 Claudia Meyer HAMWIT 3.0F-002 3425 530 7590 05/15/2020 LERNER, DAVID, LITTENBERG, KRUMHOLZ & MENTLIK 20 Commerce Drive Cranford, NJ 07016 EXAMINER PALLAY, MICHAEL B ART UNIT PAPER NUMBER 1617 NOTIFICATION DATE DELIVERY MODE 05/15/2020 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): eOfficeAction@lernerdavid.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte CLAUDIA MEYER, ROBERT PRICE, and JAGDEEP SHUR1 ____________ Appeal 2019-005581 Application 15/363,317 Technology Center 1600 ____________ Before DEBORAH KATZ, JOHN G. NEW, and RYAN H. FLAX, Administrative Patent Judges. NEW, Administrative Patent Judge. DECISION ON APPEAL 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies Alfred E. Tiefenbacher GMBH & CO. KG and Nanopharm LTD. as the real parties-in-interest. App. Br. 1. Appeal 2019-005581 Application 15/363,317 2 SUMMARY Appellant files this appeal under 35 U.S.C. § 134(a) from the Examiner’s Final Rejection of claims 1–12 as unpatentable under 35 U.S.C. § 103 as being obvious over Walz et al. (US 2002/0106332 A1, August 8, 2002). We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. NATURE OF THE CLAIMED INVENTION Appellant’s invention is directed to a simple, robust and effective process for preparing a dry powder inhalation formulation containing at least one drug. Abstr. REPRESENTATIVE CLAIM Claim 1 is representative of the claims on appeal and recites: 1. A process for preparing a dry powder inhalation formulation containing tiotropium bromide and a lactose carrier, comprising the steps: a) splitting the lactose carrier into a first, a second and a third portion, b) mixing the first and the second portion of the lactose carrier and the tiotropium bromide by i) placing the first portion of the lactose carrier in a mixer to obtain a first layer, ii) placing the entire tiotropium bromide on top of the first lactose layer to obtain a second layer, Appeal 2019-005581 Application 15/363,317 3 iii) placing the second portion of the lactose carrier on top of the second layer to obtain a third layer, iv) blending the three-layered composition obtained in step (iii) to obtain a preblend, v) optionally sifting the preblend, c) mixing the preblend obtained in step (b) and the third portion of the lactose carrier to obtain the dry powder inhalation formulation, and d) optionally sifting the dry powder inhalation formulation. App. Br. 10. ISSUES AND ANALYSIS We agree with, and expressly adopt, the Examiner’s findings, reasoning, and conclusion that the claims are obvious over the cited prior art. We address below the arguments raised by Appellant. Issue 1 Appellant argues that the Examiner erred because Walz neither teaches nor suggests the limitation of claim 1 reciting: “mixing the preblend obtained in step (b) and the third portion of the lactose carrier to obtain the dry powder inhalation formulation.” App. Br. 5. Analysis The Examiner finds that Walz teaches a process for producing powdered preparations for inhalation, in which lactose monohydrate is the Appeal 2019-005581 Application 15/363,317 4 most particularly preferred excipient and tiotropium bromide is a particularly preferred active substance. Final Act. 4 (citing Walz Abstr., ¶¶ 24, 28). The Examiner finds that Walz teaches that the process for preparing the inhalable powder comprises N+m substantially equal layers of an excipient having a larger particle size distribution and N substantially equal layers of an active substance having a smaller particle size distribution, added in alternate layers into a suitable mixing vessel. Id. (citing Walz ¶ 8, claim 1). The Examiner finds that Walz teaches that N is an integer greater than 0 and that m is 0 or 1. Id. The Examiner also finds that Walz teaches that, after all the excipient and active components have been added, the 2N+m layers of the two components are mixed together using a suitable mixer. Id. The Examiner acknowledges that Walz does not teach mixing a third portion of active substance after obtaining the mixture discussed above, or mixing a third fraction of coarse excipient after obtaining the excipient mixture discussed above, as claimed. Final Act. 4. However, the Examiner reasons, changes in a sequence of adding ingredients, and selecting an order of mixing ingredients, is prima facie obvious. Id. (citing MPEP § 2144.04(1V)(C)). Therefore, the Examiner concludes, it would have been obvious to a person of ordinary skill in the art to mix therein any portion of the excipient after first obtaining the mixture discussed above, thereby requiring initially setting aside that portion of the excipient. Id. Appellant argues that the claimed third portion of excipient is added after the claimed three-layered composition is mixed to form a preblend. App. Br. 5. Therefore, Appellant contends, the third portion of excipient is not one of the layers of the layered composition because it is not present until the layered composition has already been converted into a preblend. Appeal 2019-005581 Application 15/363,317 5 Id. According to Appellant, Walz cannot disclose the third portion of excipient because Walz neither teaches nor suggests adding any component to its inhalation composition that is not a layer of the layered composition. Id. Appellant asserts that Walz teaches adding 91 alternating layers of tiotropium bromide monohydrate and excipient into a mixing container and then subsequently mixing all 91 layers together, and that Walz does not teach adding any additional excipient or other additives thereafter. App. Br. 5 (citing Walz ¶¶ 64–65). Furthermore, argues Appellant, even were the third portion of excipient considered to be a layer of the layered composition, it is still not within the scope of the teachings of Walz. Final Act. 5. Appellant points out that the Examiner acknowledges that Walz’s composition is based upon the relationship between the number of layers of active agent and the number of layers of excipient, with N equal to the number of layers of active, and N+m equaling the layers of excipient. Id. (citing Walz ¶¶ 8–10). Therefore, Appellant contends, Walz teaches that 2N+m equals the total layers of active plus layers of excipient, where N is an integer greater than 0, and m equals 0 or 1. Id. Appellant asserts that Walz therefore requires that the number of excipient layers be either equal to, or one greater than, the number of active material layers. Id. Therefore, Appellant asserts, even if the third portion of excipient can be considered a layer, the claimed method produces two more layers of excipient than of active, placing the claimed subject matter outside the scope of Walz’s teachings. Id. We are not persuaded by Appellant’s arguments. We acknowledge Appellant’s point that Walz does not expressly teach step (c), as recited in Appeal 2019-005581 Application 15/363,317 6 Appellant’s claim 1. Nevertheless, Walz teaches adding alternating layers of carrier and active agent prior to mixing – the steps of claim limitations (a) and (b). We are not persuaded that adding additional carrier after the initial mixing of ingredients would not have been obvious to a person of ordinary skill as an additional step to the order of steps recited by Walz. Our reviewing court has repeatedly held that the order of the steps recited in a claim is not limiting upon the claim unless the order of steps is critical to obtaining the desired result. In Gibson, the Federal Circuit held that: We think the proper sequence of adding the three ingredients to obtain the most satisfactory mixture of three constituents is within the expected skill and judgment of a mechanic and such choice of sequence does not involve invention in making a mix of the constituents named in [the prior art reference]. In re Gibson, 39 F.2d 975, 976 (C.C.P.A. 1930). And in Burhans, the court held that: Appellant contends that the references taken singly or together do not teach his characteristic four steps which are new in the art and which are necessary to obtain the desired result. There is no merit in the point here in the absence of any proof in the record that the order of performing the steps produces any new and unexpected results. In re Burhans, 154 F.2d 690, 692 (C.C.P.A. 1946). Appellant adduces no evidence of record to show that the claimed addition of a final layer of carrier, and mixing it with the preblend produces an effect not already demonstrated by Walz, let alone a new and unexpected result. We conclude that the addition of a repetitious step of adding a layer of withheld carrier to the preblend, and mixing, as recited in limitation (c) of claim 1 does not rise to the requisite level of inventiveness necessary to Appeal 2019-005581 Application 15/363,317 7 overcome the Examiner’s prima facie conclusion that the claims are obvious over Walz. Issue 2 Appellant argues that the Examiner erred because Walz fails to teach or suggest two mixing steps. App. Br. 6. Analysis Appellant argues that claim 1 recites a first mixing step (step (b)) to form a preblend, and then recites a second mixing step (step (c)) of adding a third portion of excipient, and mixing again to form an inhalation composition. App. Br. 6. Appellant contends that the active agent and first and second excipient portions are therefore subjected to two mixing processes, the third portion of excipient is only mixed once. Id. Appellant contends that Walz fails to teach the claimed two mixing steps but, rather, teaches adding 2N+m layers of active and excipient into a mixing container and then mixing only after all 2N+m layers have been added. App. Br. 6 (citing Walz ¶¶ 8, 64–65). Appellant acknowledges that Walz teaches that the mixed composition may optionally be subsequently sieved and mixed again. Id. (citing Walz ¶¶ 64–65). However, Appellant argues, because Walz does not teach adding any additional excipient or other material after the first mixing occurs (unlike in the claimed process), all of the ingredients of Walz are mixed the same number of times. Id. Therefore, Appellant argues, Walz does not teach forming a preblend, which lacks Appeal 2019-005581 Application 15/363,317 8 components of the finished product, as claimed, but merely discloses forming a complete inhalation composition. Id. Appellant argues that the Examiner’s reliance on MPEP § 2144.04(1V)(C) is misplaced, because the claimed steps are not simply a reordering or “reversal” of the steps of Walz, as they were in Ex parte Rubin 128 USPQ 440 (Bd. App. 1959). App. Br. 6. Rather, Appellant argues, the claimed process includes an entirely new step that is missing from those taught by Walz, viz., introducing additional excipient in a second mixing step such that some ingredients are subjected to more mixing processes than others. Put another way, Walz does not disclose forming an unfinished preblend, lacking components of the finished product, as is claimed. Id. at 6–7. Appellant argues further that the order of process steps in a claim may be controlling and may limit a claim when the order of claimed steps is necessary to practice the claimed invention. App. Br. 7 (citing Mformation Techs., Inc. v. Research in Motion, Ltd., 764 F.3d 1392, 1398–99 (Fed. Cir. 2014); TALtech Ltd. v. Esquel Apparel, Inc., 279 F. App’x 974, 978 (Fed. Cir. 2008)). Appellant contends that the claimed introduction of additional excipient in a second mixing step is necessary to practice the claimed invention because content uniformity “largely depends on the mixing process used” and is a “crucial factor in highly active drug formulations,” such as those containing tiotropium bromide, because these “formulations typically contain a very small portion of active ingredient.” Id. (citing Spec. ¶¶ 5, 6). We are not persuaded by Appellant’s arguments. As we have explained supra, we do not find that the addition of a repetitive step of Appeal 2019-005581 Application 15/363,317 9 adding a layer of carrier and mixing is sufficiently inventive to overcome the Examiner’s prima facie conclusion that the claims are obvious. Appellant argues that the order of process steps in a claim may be controlling and may limit a claim when the order of claimed steps is necessary to practice the claimed invention. App. Br. 7 (citing, e.g., Mformation Techs., 764 F.3d at 1398–99). But Appellant adduces no evidence of record to demonstrate that the additional layering of carrier and mixing steps are necessary to practice the claimed invention when compared to the method taught by Walz. Appellant’s Specification discloses that: “It was an objective of the present invention to provide a process for preparing a dry powder inhalation formulation showing excellent flow characteristics and content uniformity.” Spec ¶ 16. The Specification further discloses that: “It has been found that excellent content uniformity was achieved if the weight ratio first portion/second portion/third portion of the lactose carrier is 7/2/1, 5/1/4, 5/2/3, 4/1/5, or 2/1/7.” Id. at ¶ 26. However, Walz teaches that: “The inhalable powders which may be obtained by the preparation process according to the invention are characterized by an exceptional degree of homogeneity in terms of uniformity of content.” Walz ¶ 29. We cannot discern, nor does Appellant adduce, any significant difference in the results obtained by Walz and those obtained via the method claimed by Appellant. As such, we do not find that the order of steps recited in the claims are necessarily limiting upon the claim. Appeal 2019-005581 Application 15/363,317 10 Issue 3 Appellant argues that the Examiner erred in concluding that the claims are prima facie obvious over Walz because the range of layers taught by Walz overlaps the claimed number of layers. App. Br. 7. Analysis Appellant argues that, even if the claimed composition is within the range disclosed by Walz, no person of ordinary skill in the art would have been motivated to choose such a small number of layers in order to achieve a high content uniformity. App. Br. 7. Appellant argues that the prior art, considered as a whole, teaches using high numbers of alternating layers in order to achieve optimum content uniformity. App. Br. 8. Appellant asserts that the Specification discloses that the methods of the prior art achieved favorable content uniformity by mixing high numbers of alternating layers of active and carrier compounds. Id. (citing Spec. ¶¶ 12–15). In general, argues Appellant, the prior art teaches that to obtain high content uniformity, it is necessary to include, for example, 30 or more, or up to 152 layers. Id. Appellant contends that Walz similarly teaches that the number of layers is directly proportional to content uniformity; teaching that, as the former increases, so does the latter. App. Br. 8. Appellant points out that the Examiner acknowledges this teaching, finding that a skilled artisan “may appreciate from the disclosure of Walz et al. that the greater the N, the more homogeneous the powder mixture.” Id. (quoting Final Act. 7). Appellant argues that Walz specifically teaches that it is preferable to include more than 20 layers, more preferably more than 25 layers, and most preferably Appeal 2019-005581 Application 15/363,317 11 more than 30 layers. Id. (citing Walz ¶ 15). According to Appellant, Walz suggests using even higher numbers of layers to maximize content uniformity, stating that “the process can … be carried out with N>60 to achieve the desired effect of the maximum possible homogeneity of the powder mixture.” Id. (citing Walz ¶ 15). Appellant argues that Walz thus teaches a potentially infinite range of possible numbers of layers, extending from a lower limit of 2 layers (e.g., N = l, m = O, N+m = l, and 2N+m = 2) to an infinitely high number of layers (e.g., N > 60). App. Br. 8. Appellant contends that Walz provides several exemplary embodiments, in each of which is used, in conjunction triotropium bromide as the active agent, “46 or 45 layers” of the excipient and active, respectively, with a tolerance of plus or minus nine layers. Id. (citing Walz ¶ 64). Appellant calculates that Walz therefore teaches using 91 total layers in a tiotropium bromide inhalation powder, in contrast to the three layers recited in claim 1. Id. at 8–9. We are not persuaded. We agree with Appellant that Walz teaches that a larger number of alternating layers of agent and carrier are preferable, particularly in preparing large batches: In the process according to the invention, N is naturally dependent inter alia on the total quantity of powder mixture to be produced. When producing smaller batches, the desired effect of high homogeneity in the sense of uniformity of content can be achieved with a smaller N. In principle, it is preferable according to the invention if N is at least 10 or more, more preferably 20 or more, better still 30 or more. The greater N is and, as a result, the greater the total number of layers of the powder fractions formed, the more homogeneous the powder mixture becomes in the sense of uniformity of content. Appeal 2019-005581 Application 15/363,317 12 Walz ¶ 9. Nevertheless, the scope of Walz’s teachings includes the small numbers of layers recited in Appellant’s claims and does not expressly exclude the limited number of layers recited in Appellant’s claim 1. Because “‘all disclosures of the prior art, including unpreferred embodiments, must be considered[,]’” we are not persuaded that a person of ordinary skill in the art would have been discouraged or diverted by the teachings of Walz from practicing Appellant’s claimed invention. See Merck & Co., Inc. v. Biocraft Labs., Inc., 874 F.2d 804, 807 (Fed. Cir. 1989) (quoting In re Lamberti, 545 F.2d 747, 750 (C.C.P.A. 1976)). Because we find that claim 1’s addition of a repetitive step of adding another layer of carrier and mixing it into the preblend would have been obvious to a person of ordinary skill in the art, we affirm the Examiner’s rejection of the claims. CONCLUSION The rejection of claims 1–12 as unpatentable under 35 U.S.C. § 103 is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). AFFIRMED Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1–12 103 Walz 1–12