2020001072 (P.T.A.B. Dec. 21, 2020)

Dexcel Pharma Technologies Ltd.

Patent Trials and Appeals BoardDec 21, 2020

2020001072 (P.T.A.B. Dec. 21, 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. 15/724,502 10/04/2017 Adel PENHASI 15542-15 1232 757 7590 12/21/2020 BGL P.O. BOX 10395 CHICAGO, IL 60610 EXAMINER AL-AWADI, DANAH J ART UNIT PAPER NUMBER 1615 MAIL DATE DELIVERY MODE 12/21/2020 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 ADEL PENHASI, AVI AVRAMOFF, MAXIM GOMBERG, and VALERIE AZOULAY _____________ Appeal 2020-001072 Application 15/724,5021 Technology Center 1600 ____________ Before FRANCISCO C. PRATS, JOHN G. NEW, and DAVID COTTA, Administrative Patent Judges. COTTA, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134(a) involving claims to a stable composition for a benzimidazole derivative. The Examiner rejected the claims on appeal under 35 U.S.C. § 112 for failure to comply with the written description requirement, under 35 U.S.C. § 103(a) as obvious, and on the ground of non-statutory obviousness. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. According to Appellant, the real party in interest is Dexcel Pharma Technologies Ltd. App. Br. 1. Appeal 2020-001072 Application 15/724,502 2 STATEMENT OF THE CASE The Specification discloses that derivatives of benzimidazole are “active proton pump inhibitors . . . used conventionally for decreasing gastric secretion.” Spec. 1. According to the Specification derivatives of benzimidazole “are known to be susceptible to degradation and transformation in acid media,” which “increases the difficulty of preparing a pharmaceutical form designed for oral administration.” Id. Thus, pharmaceutical compositions including benizimadazole “derivatives should be protected both during storage and during their passage through the acidic environment of the stomach.” Id. Several of the prior art references disclosed in the Specification address the susceptibility of benizimadazole to acid media using a multilayer approach with a core comprising a benzimidazole derivative, an intermediate layer applied to the core, and an enteric layer. Id. at 2–3. Although at least one prior art reference discloses a benzimidazole derivative composition that lacks an intermediate layer, it neutralizes the enteric coating with an alkaline compound, which “usually results in a certain amount of the alkalizing agent remaining in the final product.” Id. at 3. In addition, the Specification discloses that “benzimidazole formulations are frequently prepared using volatile organic solvents, a residual amount of which is also found in the final product.” Id. at 3–4. These residual solvents “may . . . have a harmful effect” and thus it is “desirable to keep the levels of such residual solvents as low as possible for toxicity/safety reasons.” Id. at 4. The Specification discloses that the inventors overcame the drawbacks disclosed in the prior art by “providing a benzimidazole formulation which lacks an intermediate layer and yet which is stable both during storage and Appeal 2020-001072 Application 15/724,502 3 during the passage through the stomach, and which has low levels of residual volatile excipients, including but not limited to residual alkalinizing agents and/or residual solvents.” Id. Claims 1–3, 12, 14, 18, 20–27, 29, 30, and 33 are on appeal. Claim 1 is representative and reads as follows: 1. A stable composition for a benzimidazole derivative, the composition comprising: a substrate and a neutralized enteric coating layer, wherein said substrate comprises a benzimidazole derivative, and at least one excipient selected from the group consisting of a filler, a disintegrant, a lubricant, and an alkalizing agent, and wherein said neutralized enteric coating layer consisting essentially of one or more enteric polymers selected from the group consisting of cellulose acetate phthalate (CAP), hydroxypropyl methylcellulose phthalate (HPMCP), polyvinyl acetate phthalate, cellulose acetate trimellitate, poly(methacrylic acid, methyl methacrylate (1:1)), poly(methacrylic acid, ethyl acrylate (1:1)), poly(methacrylic acid, methyl methacrylate (1:2)), hydroxypropyl methylcellulose acetate succinate (HPMCAS), sodium alginate, and alginic acid or mixtures thereof; and said neutralized enteric coating layer further comprising a first alkalizing agent which is monoethanolamine, and a residual amount of less than 500 parts per million of a second alkalizing agent which is ammonium hydroxide; wherein the pH of said neutralized enteric coating layer is in the range of from about 4.5 to about 6.5 as measured in 30 ml of distilled water at 20–25°C. App. Br. 26. The claims stand rejected as follows: Appeal 2020-001072 Application 15/724,502 4 I. Claim 30 was rejected under 35 U.S.C. § 112 for failure to comply with the written description requirement.2 II. Claims 1–3, 12, 14, 16, 18, 20–27, 29, and 33 were rejected under 35 U.S.C. § 103(a) as obvious over the combination of Lahav,3 What is pH,4 Yu,5 Friedman,6 Setty,7 and Important Biological Buffers.8 III. Claims 1 and 30 were rejected under 35 U.S.C. § 103 as obvious over the combination of Lahav, What is pH, Yu, Friedman, Setty, Important Biological Buffers, and Humar.9 IV. Claims 1–3, 12, 14, 16, 18, 20–27, 29, 30, and 33 were rejected on the ground of non-statutory obviousness type double patenting over claims 31, 33–39 and 41–62 of US Patent Application No. 14/053611. 2 In the Examiner’s Answer, the Examiner withdrew the rejection of claim 1 under 35 U.S.C. § 112 for failure to comply with the written description requirement. Ans. 4. The rejection of claim 1 on this basis is thus no longer a part of this appeal. 3 Lahav et al., US Patent Publication No. 2007/0196485 A1, published Aug. 23, 2007 (“Lahav”). 4 Kohlmann, What is pH, and How is it Measured: A Technical Handbook for Industry, 2003 (“What is pH”). 5 Yu et al, US Patent Publication No. 2003/0064107 A1, published Apr. 3, 2003 (“Yu”). 6 Friedman et al., US Patent No. 3,634,271, issued Jan 11, 1972 (“Friedman”). 7 Setty et al., US Patent Publication No. 2009/0175935 A1, published July 9, 2009 (“Setty”). 8 Important Biological Buffers, http://staff/ustc.edu.cn/~liuyz/methods/buffer.htm, Google date: Oct. 25, 2007 (“Important Biological Buffers”). 9 Humar et al., US Patent Publication No. 2006/0093680 A1, published May 4, 2006 (“Humar”). Appeal 2020-001072 Application 15/724,502 5 REJECTION I Claim 30 depends from claim 1 and further recites that the composition “comprises between 0.22wt% to 0.30wt% of monoethanolamine relative to composition weight.” App. Br. 29. The Examiner contends that the Specification does not disclose “including monoethanolamine from 0.22 wt %–0.30 wt % relative to the composition weight in regards to using any compositional weight.” Ans. 5. Appellant contends that the claimed percentage of monoethanolamine by weight can be derived by dividing the amount of monoethanolamine disclosed in Table 2 (Example 3) by the total weight of the tablets disclosed in Example 1. Reply Br. 2. Thus, according to Appellant, by combining the disclosures from Table 2 and Example 1, one can derive “seven specific species amounts that support the claimed range for the monoethanolamine weight percent (0.22 wt.%–0.30 wt.%), two of which constitute the upper and lower boundaries and five other examples that are within the claimed range.” Id. at 2–3. We are not persuaded. Example 3 describes the “determination of residual monoethanolamine” in tablets that were, according to Appellant, prepared using the formulation set forth in Example 1. Spec. 13–15; Tr. 8. The amounts of residual monoethanolamine that were determined to be present after the tablet had been prepared were, in all cases, less than the amount of monoethanolamine used to formulate the tablet. Compare Spec. 11 (Example 1, disclosing formulating a tablet with 1.0 mg/tablet of monoethanolamine) with id. at 15 (Example 3, disclosing residual monoethanolamine amounts of 0.77, 0.730, 0.681, 0.822, 0.755, 0.908, and Appeal 2020-001072 Application 15/724,502 6 0.780 mg/tablet). It thus appears that some of the monoethanolamine used to make the tablets was lost in the tableting process. In deriving the seven species that Appellant contends support the claimed range, Appellant uses the total weight of the components used to formulate the tablet disclosed in Example 1 (the starting weight prior to tableting) as the denominator and the residual weight of the monoethanolamine (the post-tableting end weight) as the numerator. Tr. 7.10 There is nothing in the language of claim 30 that suggests that the weights used to calculate the claimed percentage range encompass weights taken at different stages of the tableting process. Because Appellant’s calculation relies on weights from different compositions – the pre-tableting formulation composition, and the post-tableting formulation composition – the seven species identified by Appellant do not support the limitation of claim 30 requiring a percentage of monoethanolamine relative to composition weight. Separate and apart from the problem of whether one can glean from the combination of Example 1 and Example 3, seven species falling within the range “between 0.22% to 0.30% of monoethanolamine relative to composition weight,” in order to satisfy the written description requirement, there must be some indication that the inventors considered the genus to be part of their invention. See, Purdue Pharma L.P. v. Faulding, Inc., 230 F.3d 1320, 1328 (Fed. Cir. 2000) (“Because the specification does not clearly disclose to the skilled artisan that the inventors of the [patent at issue] considered the Cmax/C24 ratio to be part of their invention, it is immaterial 10 Transcript of Oral Argument presented September 15, 2020 (entered November 10, 2020) Appeal 2020-001072 Application 15/724,502 7 what range for the Cmax/C24 ratio can be gleaned from the examples when read in light of the claims.”). Here, Appellants do not identify, and we do not find, any teaching in their Specification that would reasonably convey to the skilled artisan that the inventors considered the “percentage of monoethanolamine relative to [the] composition weight” to be a part of their invention. It is thus immaterial whether the range of 0.22% to 0.30% can be extracted from the individual examples provided in the Specification. For this additional reason, we affirm the Examiner’s rejection of claim 30 for failure to comply with the written description requirement. REJECTION II Appellant argues claims 1–3, 12, 14, 18, 20–27, 29, and 33 together. App. Br. 7–21. We designate claim 1 as representative. In rejecting claim 1 as obvious, the Examiner found that Lahav disclosed all of the elements of claim 1 with the exception that it disclosed using only ammonia hydroxide as a neutralization agent while the claims require two neutralizing agents – ammonia hydroxide and monoethanolamine. Final Act. 4–11;11 Ans. 6. The Examiner found that Friedman taught the use of monoethanolamine as a neutralizing agent. Final Act. 11. The Examiner acknowledged that Friedman was not directed to enteric polymers for oral delivery, but found that the problem solved by Friedman – neutralzing a polymer – was applicable to Lahav’s polymers. Id. The Examiner also found that Yu disclosed “reverse enteric coatings” and taught that is was “desirable to include an alkalizing agent to maintain 11 Office Action mailed December 21, 2018 (“Final Act”). Appeal 2020-001072 Application 15/724,502 8 the integrity and such agents applicable are capable of raising the pH to about 5.” Id. According to the Examiner, Yu also discloses using one or more alkalizing agents, including ammonium hydroxide and ethanolamine, to raise the pH above 5. Id. The Examiner further found that Important Biological Buffers taught that ammonium hydroxide had a pH range of from 8.8–9 and that ethanolamine has an effective pH range of from 6–12. Id. Finally, the Examiner found that Setty disclosed neutralizing an enteric polymer to an “appropriate pH by using alkaline substances such as ammonium hydroxide and the like.” Id. Based on the combined teachings of Friedman, Yu, Important Biological Buffers, and Setty, the Examiner found that “[a]bsent any evidence of criticality, it would have been prima facie obvious to one of ordinary skill in the art to include a second alkalizing agent for neutralizing the enteric coating in the composition of Lahav.” Id. at 12. The Examiner explained: One would have been motivated to do so in order to obtain the desired pH of the enteric coating polymer as evidenced by Yu et al., combinations of more than one alkalizing agent may be used to raise the pH of the enteric suspension above 5. One skilled in the art would know [the] combinations of alkalizing agents to use to obtain the desired pH range and combinations of such agents such as monoethanolamine and sodium hydroxide are taught. Furthermore, the purpose of the alkalizing agents is to neutralize the acidic enteric polymers. It would have been prima facie obvious to one of ordinary skill in the art at the time the invention was made to neutralize the acidic coating with such alkalizing agents because such agents are recognized as suitable for use to neutralize the acidic components. Appeal 2020-001072 Application 15/724,502 9 Id. We agree with the Examiner that the claims would have been obvious over the combination of Lahav, Yu et al., Important Biological Buffers and Setty.12 We address Appellant’s arguments below. Appellant argues that Friedman is not analogous art. App. Br. 8–10. In determining whether a reference is analogous art we consider “(1) whether the art is from the same field of endeavor, regardless of the problem addressed, and (2) if the reference is not within the field of the inventor’s endeavor, whether the reference still is reasonably pertinent to the particular problem with which the inventor is involved.” In re Clay, 966 F.2d 656, 658–59, 23 USPQ2d 1058, 1060 (Fed. Cir. 1992). Here, claim 1 is directed to a pharmaceutical composition. Friedman is directed to liquid detergent compositions. Accordingly, we agree with Appellant that Friedman is not directed to the same field of endeavor as the claimed composition. Similarly, the problem faced by Friedman – maintaining the fluidity and clarity of liquid detergents after extended periods of storage – is unrelated to the problems of formulating a pharmaceutical composition faced by the inventors here. Accordingly, we agree with Appellant that Friedman is not analogous art. However, we do not regard Friedman as critical to the Examiner’s rejection. In affirming a multiple reference rejection under 35 U.S.C. § 103, the Board may rely on fewer than all of the references relied on by the 12 For the reasons discussed below, we agree with Appellant that Friedman is not analogous art. However, in affirming a multiple reference rejection under 35 U.S.C. § 103, the Board may rely on fewer than all of the references relied on by the Examiner in an obviousness rationale without designating it as a new ground of rejection. In re Bush, 296 F.2d 491, 496 (CCPA 1961). Here, we do not rely upon Friedman. Appeal 2020-001072 Application 15/724,502 10 Examiner in an obviousness rationale without designating it as a new ground of rejection. In re Bush, 296 F.2d 491, 496 (CCPA 1961). Here, we do not rely upon Friedman. As the Examiner explained, Lahav discloses all of the elements of claim 1 with the exception of the use of monoethanolamine as a second neutralizing agent. Final Act. 4–11; Ans. 6. Lahav teaches preparation of a solution with the enteric coating material, which preferably has a pH “from about 7 to about 10.” Lahav ¶ 33. Lahav further teaches that “a pH value within the pH range is obtained by adding an alkaline compound to an enteric coating material.” Lahav suggests to add ammonium hydroxide to achieve the desired pH. Id. We conclude that it would have been obvious to also use monoethanolamine as a neutralizing agent in Lahav’s compositions in view of Yu because Yu identifies both ammonium hydroxide and monoethanolamine as alkalizing agents suitable for raising pH. Yu ¶ 20.13 In re Kerkhoven, 626 F.2d 846, 850, 205 USPQ 1069, 1072 (CCPA 1980) (“It is prima facie obvious to combine two compositions each of which is taught by the prior art to be useful for the same purpose, in order to form a third composition to be used for the very same purpose . . . . [T]he idea of combining them flows logically from their having been individually taught in the prior art.”); In re Susi, 440 F.2d 442, 445 (CCPA 1971) (obviousness 13 Yu discloses “ethanolamine” as one potential alkalizing agent. Yu ¶ 20. We understand “ethanolamine” to be the same the claimed “monoethanolamine.” See https://en.wikipedia.org/wiki/Ethanolamine#: ~:text=Ethanolamine%20is%20commonly%20called%20monoethanolamine ,corrosion%20inhibitors%2C%20and%20chemical%20intermediates (“Ethanolamine is commonly called monoethanolamine or MEA in order to be distinguished from diethanolamine (DEA) and triethanolamine (TEA).”). Appeal 2020-001072 Application 15/724,502 11 rejection affirmed where the disclosure of the prior art was “huge, but it undeniably include[d] at least some of the compounds recited in appellant’s generic claims and [was] of a class of chemicals to be used for the same purpose as appellant’s additives”). The teachings of Setty and Important Biological Buffers further support that it would have been obvious to use both ammonium hydroxide and monoethanolamine as alkaline agents. See Setty ¶ 25 (disclosing neutralizing an enteric polymer to an “appropriate pH by using alkaline substances such as ammonium hydroxide and the like”); Important Biological Buffers, 1 (disclosing that ammonium hydroxide has a pH range of from 8.8–9 and that ethanolamine has an effective pH range of from 6–12). Appellant argues that the Examiner relied impermissibly on hindsight. App. Br. 13. We do not find this persuasive because Appellants point to no evidence that any of the Examiner’s findings were beyond the level of ordinary skill at the time of the invention or could have been taken only from Appellants’ Specification. See In re McLaughlin, 443 F.2d 1392, 1395 (CCPA 1971). Appellants argue that “[i]n addition to failing to provide a legitimate reason for modifying Lahav et al. in view of Friedman, the Examiner also fails to provide a reason to modify Lahav et al. in view of the other references relied on in the rejection.” App. Br. 13; see also, id. 14–17 (arguing that the Examiner failed to explain how each individual reference would have made it obvious to modify Lahav). We are unconvinced because the Examiner provides persuasive reasons why it would have been obvious to modify Lahav in view of the cited references. In the Answer, the Examiner explained: Appeal 2020-001072 Application 15/724,502 12 The combination of Friedman Yu et al, Important Biological Buffers and Setty et al. were used to show that is it is routine in the art to adjust the pH using alkalizing agents and it would have been prima facie obvious to further add monoethanolamide to neutralize the polymer as Friedman discloses combination of monoethanolamine and sodium hydroxide in order to neutralize the polymer and sodium hydroxide is one of choice of for use in Lahav. The Examiner maintains that it would have been prima facie obvious to one of ordinary skill in the art to include a second alkalizing agent for neutralizing the enteric coating of Lahav. One would have been motivated to do so in order to obtain the desired pH of the enteric coating polymer as evidence by Yu et al., combinations of more than one alkalizing agent may be used to raise the pH of the enteric suspension above 5. One skilled in the art would know what combinations of alkalizing agents to use to obtain the desired pH range and combinations of such agents such as monoethanolamine and sodium hydroxide are taught. The purpose of such alkalizing agents are to neutralize the acidic enteric polymers. Ans. 13. We recognize that, in the above quoted passage, the Examiner cites Friedman as supporting that it was “routine in the art to adjust the pH using alkalizing agents.” Id. However, the combination of Yu, Important Biological Buffers and Setty support this position even without Friedman. Yu ¶ 20, Setty ¶ 25, Important Biological Buffers 1. We also recognize that, in the above passage, the Examiner cited Friedman as disclosing the use of “monoethanolamide to neutralize the polymer,” but as discussed above, Yu also discloses the use of monoethanolamide. Accordingly, we find that the Examiner provided a persuasive reason to modify Lahav in view of the “other references” – i.e., the references cited in the rejection other than Friedman. Appellant argues that Yu discloses a “reverse enteric polymer coating” designed to “maintain its integrity in neutral or basic pH.” App. Appeal 2020-001072 Application 15/724,502 13 Br. 14. Appellant contrasts this with an enteric coating which, according to Appellant, “is not designed to maintain its integrity in basic pH ranges, but is rather designed to disintegrate in basic pH ranges.” Id. Appellant thus argues that the ordinary artisan would “not have been motivated to turn to Yu for its alleged teaching of alkalizing agents with respect to reverse enteric coatings.” Id. at 14–15. We do not find this argument persuasive because, as discussed above, the Examiner relies on Yu for its general teaching that “it is routine to adjust the pH using alkalizing agents.” Ans. 13. The effect achieved by adjusting pH does not change Yu’s teaching that the alkalizing agents it identifies are “capable of raising and maintaining the pH” in a pharmaceutical composition. Yu ¶ 20. Appellant argues that “Yu would not have motivated a person having ordinary skill in the art to select monoethanolamine and ammonium hydroxide as claimed . . . because Yu details a laundry list of alkalizing agents with no guidance as to their different properties or use except for their ability to raise the pH.” App. Br. 15. We are not persuaded because Yu identifies both monethanolamine and ammonium hydroxide as “alkalizing agents . . . capable of raising and maintaining the pH” of a pharmaceutical composition. Yu ¶ 20. Absent evidence of unexpected results, the fact that Yu identifies several other alkalizing agents capable of performing this function does not render the use of monethanolamine and ammonium hydroxide any less obvious. Merck & Co. v. Biocraft Laboratories, Inc., 874 F.2d 804, 807 (Fed. Cir. 1989) (“That the '813 patent discloses a multitude of effective combinations does not render any particular formulation less obvious.”); In re Corkill, 771 F.2d 1496, 1500 (Fed. Cir. 1985) (affirming obviousness rejection over prior art teachings that Appeal 2020-001072 Application 15/724,502 14 “hydrated zeolites will work” in detergent formulations, even though “the inventors selected the zeolites of the claims from among ‘thousands’ of compounds.”); see also, Perricone v. Medicis Pharm. Corp., 432 F.3d 1368, 1376 (Fed. Cir. 2005) (rejecting the notion that an ingredient “cannot anticipate because it appears without special emphasis in a longer list”). Appellant argues that Lahav fails to disclose the limitation requiring that the enteric coating layer comprise “a first alkalizing agent which is monoethanolamine, and a residual amount of less than 500 parts per million of a second alkalizing agent which is ammonium hydroxide.” App. Br. 17. Appellant further argues that the other cited references “provide no guidance or teaching of the claimed composition comprising a neutralized enteric coating layer comprising a first alkalizing agent that is monoethanolamine and a residual amount of less than about 500 parts per million of a second alkalizing agent that is ammonium hydroxide.” Id. at 19. These arguments are not persuasive. As an initial matter, one cannot show nonobviousness by attacking references individually when the rejection is based on a combination of references. In re Keller, 642 F.2d 413, 425 (CCPA 1981). In addition, as discussed above, we find that the Examiner has provided persuasive reason to modify Lahav’s composition to include monoethanolamine as a second alkalizing agent. Finally, with respect to the claimed amount of ammonium hydroxide, we agree with the Examiner that both the Specification and Lahav teach preparing an enteric coating by the same method, including adjusting the pH by adding a 25% ammonia solution. Final Act. 5; Spec. 12 (see particularly “Coating C”); Lahav ¶ 101. Based on the similarity in methods of preparation, the Examiner further finds that “[a]lthough less than Appeal 2020-001072 Application 15/724,502 15 500 [ppm] is not explicitly mentioned, the same ammonia solution appears to be used so it would be expected that the volatile alkalizing agent would be present in the claimed amount.” Id. at 5–6. As this finding is supported by the record (Spec. 12; Lahav ¶ 101), and Appellant does not provide persuasive evidence or argument that this finding is incorrect, we credit the Examiner’s finding that Lahav discloses the claimed amount of ammonium hydroxide. Appellant argues that there are no problems with Lahav’s enteric coating and thus there is no reason to make any modifications to Lahav. App. Br. 11–12. We do not find this persuasive because regardless of whether there were any problems with Lahav’s enteric coating, it would have been obvious to combine two alkalizing agents known to be useful for the same purpose – i.e., to raise pH in a pharmaceutical composition. In re Kerkhoven, 626 F.2d at 850. Appellant contends that the claimed composition is: based in part on the unexpected finding that neutralized enteric coating having a pH range of from about 4.5 to about 6.5 as measured in 30 ml of distilled water at 20-25°C, provides the benzimidazole derivative with an appropriate protection during storage and while passing through the stomach even if the pH values of the gastric fluid are elevated. App. Br. 19. Appellant further contends that the claimed composition has advantageous properties, including that it is stable “both during storage . . . and during passage through the stomach.” Id. at 20–21. To the extent Appellant offers these allegedly advantageous properties as objective indicia of non-obviousness, we do not find them persuasive because Appellant does not provide evidence that the advantages allegedly attained were, in fact, unexpected. See, Johnston v. IVAC Corp., 885 F.2d Appeal 2020-001072 Application 15/724,502 16 1574, 1581 (Fed. Cir. 1989) (“Attorneys’ argument is no substitute for evidence.”); In re Pearson, 494 F.2d 1399, 1405 (CCPA 1974). Nor does Appellant compare the alleged advantageous properties achieved by the claimed composition to the closest prior art. In re Baxter Travenol Labs, 952 F.2d 388, 392 (Fed. Cir. 1991) (“when unexpected results are used as evidence of nonobviousness, the results must be shown to be unexpected compared with the closest prior art”). Accordingly, even if we credit the claimed composition as providing advantageous properties, the record before us does not support reliance on such properties as objective indicia of non- obviousness. Accordingly, we affirm the Examiner’s rejection of claim 1. Because they were not argued separately, claims 2, 3, 12, 14, 16, 18, 20–27, 29, and 33 fall with claim 1. REJECTION III Claim 30 depends from claim 1 and further requires that the composition comprises “between 0.22wt% to 0.30wt% of monoethanolamine relative to composition weight.” The Examiner acknowledged that Lahav, modified as discussed above, does not disclose this additional limitation of claim 30. Final Act. 13. The Examiner found that Humar supplied this missing limitation, disclosing a coating for a pharmaceutical composition in which the amount of monoethanolamine added was 0–10% wt%. Id. Based on this disclosure, the Examiner concluded that it would have been obvious to “optimize the amount of alkalizing agents to adjust the desired pH.” Id. We agree with the Examiner that it would have been obvious to optimize the amount of monoethanolamine. We address Appellant’s arguments below. Appeal 2020-001072 Application 15/724,502 17 Appellant argues that “Humar is silent as to the presence of an enteric pH dependent polymer coating.” App. Br. 21. We do not find this persuasive because Humar discloses that its coating is “a layer of material applied directly onto the core which is either an active substance itself or an active substance with one or more pharmaceutical excipients” which “affords protection of the active substance and one or more pharmaceutical excipients, respectively, from environmental influences” and which “enables release of the active substance in all parts of gastrointestinal tract, regardless of environmental pH value.” Humar ¶ 83. Appellant argues that Humar’s disclosure of 0–10% alkalizing agent does not apply because the percentage recited is the amount of alkalizing agent relative to the amount of solids in the coating, not the amount of alkalizing agent relative to the weight of the composition, as recited in the claims. App. Br. 22. We do not find this argument persuasive because, as Appellant acknowledges (id.) Humar also discloses a range of 0–50% alkalizing agent relative to the weight of the composition (Humar ¶ 151). This range overlaps with that recited in the claims, creating a prima facie case of obviousness and shifting the burden to the Appellants to demonstrate non-obviousness. In re Peterson, 315 F.3d 1325, 1329–30 (Fed. Cir. 2003) (“[T]he existence of overlapping or encompassing ranges shifts the burden to the applicant to show that his invention would not have been obvious.”). Here, Appellant points to no persuasive evidence to rebut the prima facie case of obviousness created by the disclosure of encompassing ranges. Appellant argues that the range disclosed in Humar is “so broad and unspecific that it cannot teach or suggest the specific weight percentage of 0.22wt% to 0.30wt% of monoethanolamine as recited in claim 30.” App. Appeal 2020-001072 Application 15/724,502 18 Br. 22. We are not persuaded that the range disclosed in Humar is too broad and unspecific to create a prima facie case of obviousness. Cf. Genetics Institute v. Novatris Vaccines, 655 F.3d 1291, 1306 (Fed. Cir. 2011) (finding that “the '620 patent's claims would not have been prima facie obvious over the ’112 patent's claims” where “the ’112 patent contains 68,000 truncated variants of a protein made up of 2,332 amino acids, and the allegedly interfering inventions differ in terms of the size of the permitted amino acid deletions, the location of those deletions, and the degree of allowable amino acid substitutions”). Finally, Appellant argues that Humar discloses a “laundry list of alkalizing agents with no guidance as to their different volatilities or use” and thus to ordinary artisan, “would not be motivated to the use of a first alkalizing agent which is monoethanolamine, and a residual amount of less than 500 parts per million of a second alkalizing agent which is ammonium hydroxide as claimed.” App. Br. 23. We are not persuaded because, as discussed above, the alkaline agents disclosed in the art are all useful for the same purpose. Yu ¶ 20; Humar ¶¶ 93–96; In re Kerkhoven, 626 F.2d at 850. Accordingly, we affirm the Examiner’s rejection of claim 1 and 30 as obvious over the combination of Lahav, What is pH, Yu, Friedman, Setty, Important Biological Buffers, and Humar. REJECTION IV The Examiner provisionally rejected claims 1–3, 12, 14, 16, 18, 20– 27, 29, 30, and 33 on the ground of non-statutory obviousness type double patenting over claims 31, 33–39, and 41–62 of US Patent Application No. 14/053611 (“the ’611 application). Appellant argues that this rejection Appeal 2020-001072 Application 15/724,502 19 “incorrectly relied upon a prior set of claims, not the currently pending claims of the ’611 application.” Reply Br. 12. We decline to reach this rejection because the claims now relied are not the same as those originally considered by the Examiner when the rejection was initially made. See Ex parte Jerg, Appeal No. 2011-000044, at 5–6 (BPAI Apr. 17, 2012) (designated informative) (“Panels have the flexibility to reach or not reach provisional obviousness type double-patenting rejections.”) (citing Ex parte Moncla, Appeal No. 2009-006448 (BPAI June 22, 2010) (designated precedential)). CONCLUSION In summary: Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 30 112 Written description 30 1–3, 12, 14, 16, 18, 20– 27, 29, 33 103(a) Lahav, What is pH, Yu, Friedman, Setty, Important Biological Buffers. 1–3, 12, 14, 16, 18, 20– 27, 29, 33 1, 30 103(a) Lahav, What is pH, Yu, Friedman, Setty, Important Biological Buffers, Humar 1, 30 1–3, 12, 14, 16, 18, 20– 27, 29, 30, 33 Double patenting US Patent Application No. 14/053611 Overall Outcome 1–3, 12, 14, 16, 18, 20– 27, 29, 30, 33 Appeal 2020-001072 Application 15/724,502 20 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)(iv). AFFIRMED