2020002360 (P.T.A.B. Nov. 6, 2020)

Ionis Pharmaceuticals, Inc.

Patent Trials and Appeals BoardNov 6, 2020

2020002360 (P.T.A.B. Nov. 6, 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. 15/407,037 01/16/2017 Michael Oestergaard CHEM0084US.C1 4468 130682 7590 11/06/2020 McNeill Baur PLLC/Ionis Pharmaceuticals 125 Cambridge Park Drive Suite 301 Cambridge, MA 02140 EXAMINER SHIN, DANA H ART UNIT PAPER NUMBER 1635 NOTIFICATION DATE DELIVERY MODE 11/06/2020 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): docketing@mcneillbaur.com eofficeaction@appcoll.com rebecca.scarr@mcneillbaur.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte MICHAEL OESTERGAARD, THAZHA P. PRAKASH, PUNIT P. SETH, and ERIC E. SWAYZE Appeal 2020-002360 Application 15/407,037 Technology Center 1600 ____________ Before DONALD E. ADAMS, RICHARD M. LEBOVITZ, and ULRIKE W. JENKS, Administrative Patent Judges. LEBOVITZ, Administrative Patent Judge. DECISION ON APPEAL The Examiner rejected the claims under 35 U.S.C. § 103 as obvious. Pursuant to 35 U.S.C. § 134(a), Appellant1 appeals from the Examiner’s decision to reject the claims. 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. Appellant identifies the real party in interest as Ionis Pharmaceuticals, Inc. Appeal Br. 4. Appeal 2020-002360 Application 15/407,037 2 STATEMENT OF THE CASE An oral hearing was held October 1, 2020. A transcript of the hearing will be entered into the record in due course. The Examiner rejected the claims2 in the Final Office Action as follows: I. Claims 1, 6–11, and 14–22 under pre-AIA 35 U.S.C. § 103(a) as obvious in view of Seth et al. (US 2011/0130441 A1, published Jun. 2, 2011) (“Seth”) and Thompson et al. (US 2002/0142980 Al, published Oct. 3, 2002) (“Thompson”). II. Claims 1, 6–11, and 14–22 on the ground of nonstatutory obviousness-type double patenting over claims 16-47 of U.S. Patent No. 7,399,845 B2 (“the ’845 patent”) in view of Seth and Thompson. III. Claims 1, 6–11, and 14–22 on the ground of nonstatutory obviousness-type double patenting over claims 1–5 and 7–22 of U.S. Patent No. 9,290,534 B2 (“the ’534 patent”) in view of Seth and Thompson. V. Claims 1, 6–11, and 14–22 on the ground of nonstatutory obviousness-type double patenting over claim 273, 276–278, 280-282, and 284–294 of Application No. 14/238,441 (now U.S. Patent No. 10,202,599 B2) (“the ’599 patent”). Claim 1, with indentations added for clarity, is reproduced below: 1. A gapped oligomeric compound comprising a contiguous sequence of linked monomer subunits having a gap region located between a 5’-region and a 3’-region wherein the 5’ and 3’-regions each, independently, have from 2-5 contiguous modified nucleosides, each independently selected from a bicyclic nucleoside comprising a bicyclic 2 The claims were also rejected over Application 14/238,439, but this application is abandoned. Appeal 2020-002360 Application 15/407,037 3 furanosyl sugar moiety and a modified nucleoside comprising a furanosyl sugar moiety having a 2’-substituent group selected from F, OCH3, O(CH2)2-OCH3 and OCH2C(=O)-N(H)CH3, wherein one or more of the modified nucleosides is a bicyclic nucleoside, and wherein the gap region has from 8-10 contiguous β-D-2’- deoxyribonucleosides and wherein two of the internucleoside linking groups located between β-D-2’-deoxyribonucleosides in the gap region have Formula I: wherein: each X is O or S; each Q is, independently, selected from C1-C6 alkyl, substituted C1-C6 alkyl, C2-C6 alkenyl, C(=O)OH and CH2C(=O)OH; and each substituted group comprises one or more optionally protected substituent groups independently selected from halogen, OJ1, SJ1 and OC(=O)J1; each J1 is, independently, H or C1-C6 alkyl; wherein each internucleoside linking group other than internucleoside linking groups having Formula I is, independently, a phosphodiester or a phosphorothioate internucleoside linking group; and wherein the gap region comprises only two internucleoside linking groups having Formula I, wherein the two internucleoside linking groups having Formula I are located between nucleosides 1 and 3, counting from the 5' end of the gap region. CLAIM 1 Claim 1 is directed to a “gapped oligomeric compound” having a “gap region” located between 5’- and 3’- nucleoside regions. The compound is made up of deoxyribonucleosides, some of which are modified or Appeal 2020-002360 Application 15/407,037 4 derivatized. At least one bicyclic nucleoside is present in each of the 5’- and a 3’- nucleoside regions. The gap region has from 8–10 contiguous deoxyribonucleosides. Two of the internucleoside linkages that attach the deoxyribonucleosides in the gap region have the structure of Formula I, where “each internucleoside linking group other than internucleoside linking groups having Formula I is, independently, a phosphodiester or a phosphorothioate internucleoside linking group.” The two internucleoside linkages of Formula I are located between nucleosides 1 and 3, counting from the 5’ end of the gap region. The reason to include methylphosphonate linkages between the nucleosides is because of their well-known resistance to nucleases, making the oligomeric compound more stable when administered. Thompson ¶¶ 173, 174; Seth ¶ 4. In response to a requirement by the Examiner to elect a species of Formula I, Appellant elected the chemical groups in the formula which form the neutral linkage “methylphosphonate.” Response to Restriction Requirement (Nov. 17, 2017); Non-final Office Act. 3–4 (Feb. 4, 2018). Throughout this decision, the internucleoside linkage of Formula I is referred to as “methylphosphonate.” I. 103 REJECTION BASED ON SETH AND THOMPSON Based on the combination of Seth and Thompson, the Examiner determined that claim 1 would have been obvious to one of ordinary skill in the art at the time of the invention. Non-final Act. 2–7. Seth describes an oligomeric compound having a bicyclic nucleoside attached to the 5’ and 3’ end by a neutral internucleoside linkage. The oligomeric region inside the 5’ and 3’ ends corresponds to the “gap region” Appeal 2020-002360 Application 15/407,037 5 of rejected claim 1. The linkage at the 5’ and 3’ end of the gap region of Seth is, independently, (1) phosphotriester, (2) methylphosphonate, (3) MMI, (4) amide-3, (5) formacetal, or (6) thioformacetal. Seth, claims 1, 6. One of the six choices of neutral linkages is (2) methylphosphonate, the same internucleoside linkage which is claimed. Seth also has bicyclic nucleosides in the 5’- and 3’-regions as required by claim 1. However, Seth does not describe the position of the neutral linkages as being between nucleosides 1 and 3 of the gap region as required by rejected claim 1. Instead, the neutral linkages are outside this region. Thompson describes an oligomeric compound (a “nucleic acid molecule”) comprised of nucleosides. The compound has a three region structure similar to the claimed three region structure, namely, a gap region between 5’- and 3’-nucleoside regions. Thompson, claim 4. Claim 4 of Thompson is reproduced below (annotated with bracketed numbering): 1. A nucleic acid molecule having the formula XIV: xpxpxpxpxpxpxpDsDsDsDsDsDsDsDsDsxpxpxpxpxpxpx wherein each x is independently a 2’-O-alkyl-thio-alkyl nucleotide, each D is independently a deoxyribonucleotide or 2’-arabinofluoro nucleotide, each s is independently [1] a phosphorothioate[,] [2] phosphorodithioate, [3] 5’- thiophosphate, [4] 3’-thiophosphate, or [5] methylphosphonate internucleotide linkage, and each p is independently a phosphodiester internucleotide linkage and each iB is independently an inverted abasic moiety. The region “DsDsDsDsDsDsDsDsDs” of Thompson’s claim 1 corresponds to the claimed gap region. There are five choices for the internucleotide linkage “s.” One of the five choices is “methylphosphonate,” the same linkage which is claimed. Unlike Seth, Thompson expressly Appeal 2020-002360 Application 15/407,037 6 discloses methylphosphonate linkages in the gap region, including at nucleosides 1 and 3 positions as required by rejected claim 1. The principal issue in this rejection is whether it would have been obvious to choose only two methylphosphonate linkages in the gap region of Seth and Thompson and place them between nucleosides 1 and 3 as required by rejected claim 1. Appellant argues that the neutral internucleoside linkages in Seth are outside the gap region, and thus Seth would not have suggested placing them inside the gap in the specific number and position as claimed. Appeal Br. 11–12. Appellant also argues that Thompson “does not exemplify any nucleic acid molecules containing a methylphosphonate internucleoside linkage, much less a nucleic acid molecule containing exactly two methylphosphonate internucleoside linkages at the specific positions recited in the present claims.” Id. at 12. Appellant contends that Thompson’s statements about methylphosphonate toxicity would have motivated the skilled worker to use the alternative linkages of “phosphorodithioate, 5’- thiophosphate, and 3’-thiophosphate internucleoside linkages, in place of phosphorothioate and methylphosphonate internucleoside linkages.” Id. Appellant also states there are “9 linkages denoted by ‘s’ in claim 4 of Thompson, and five possible internucleoside linkages at each position, for a total of 59, or over 1.9 million possible internucleoside linkage motifs in the gap” which would provide no reason “to select exactly the motif claimed from the 1.9 million possible.” Id. at 14. Appeal 2020-002360 Application 15/407,037 7 Discussion To make the claimed gap region based on the combination of Seth and Thompson, the skilled worker would have to pick the methylphosphonate from the group of five different internucleotide linkages recited in claim 4 of Thompson, and then choose only the two contiguous positions between nucleotides 1 and 3 to place them at. The number of possible combinations to choose from is 1.9 million, which seems like large number, but the choices are limited with only one of five linkages to choose from and then place in two of nine different positions. As the Examiner illustrated by writing out a number of different “predictable” motifs with two methylphosphonate linkages3 (Final Act. 5, 7), one of ordinary skill in the art could easily envision all the species within the genus described by Thompson. While this may not be a case like In re Petering, 301 F.2d 676, 681–682 (CCPA 1962) where the small number of species in the chemical genus allowed one of ordinary skill in the art to “at once envisage” the claimed subject matter in the prior art disclosure, it also not In re Baird, 16 F.3d 380, 382 (Fed. Cir. 1994) where the large number of variables, and a teaching away, precluded a finding that one species would have been obvious. Here, the structure of the gap region of Thompson’s nucleic acid is so well defined and limited in the number of choices – one of five different linkages and at any position(s) of the nine contiguous nucleotides – that the skilled worker would readily recognize that Thompson’s gap region genus is shorthand for 1.9 million species as if each had been written out. Of course, writing out 1.9 million species by hand might be impractical, but this is not the test of obviousness. Appeal 2020-002360 Application 15/407,037 8 Appellant contends that Thompson points away from including two methylphosphonate internucleotide because of their toxicity. Appeal Br. 12. This argument is based on the following disclosure from Thompson: While chemical modification of oligonucleotide internucleotide linkages with phosphorothioate, phosphorothioate, and/or 5’- methylphosphonate linkages improves stability, too many of these modifications can cause some toxicity. Therefore when designing nucleic acid molecules the amount of these internucleotide linkages should be minimized. The reduction in the concentration of these linkages should lower toxicity resulting in increased efficacy and higher specificity of these molecules. Thompson ¶ 173 (emphasis added). We have considered this disclosure and do not agree it would dissuade the skilled worker from using a methylphosphonate linkage. Above all, Thompson expressly describes a nucleic acid compound with methylphosphonate. Therefore, it is inconsistent to argue that Thompson would motivate the skilled worker to use other linkages as alternatives to methylphosphonate (Appeal Br. 12) when methylphosphonate is expressly recited as a choice in a compound which Thompson claims as its invention. Thompson, claim 4. Thompson does not identify what number is “too many of” the methylphosphonate linkages. Thompson ¶ 173. But Thompson’s claim 4 has at least one methylphosphonate because it is one of the five possible choices. 3 Appeal 2020-002360 Application 15/407,037 9 It has no limitation as to how many can be included in the nine nucleoside member region. Seth’s compound can have at least two methylphosphonate because claim 6 of Seth has at neutral linkage at each end of the gap region, and methylphosphonate is one of the six possible linkages in its compound. Seth, claims 1, 6. Consequently, the evidence supports the Examiner’s determination that Seth and Thompson reasonably suggests that at least several methylphosphonate linkages may be in the gap region of an oligomeric compound without concerns about toxicity. While there is no explicit embodiment disclosed in Seth and Thompson of a compound with at least two methylphosphonate linkages, a reference disclosure is not limited to its preferred embodiments, but is available for all that it discloses and suggests to one of ordinary skill in the art. In re Lamberti, 545 F.2d 747, 750 (CCPA 1976); Merck & Co v. Biocraft Laboratories, 874 F.2d 804, 807 (Fed. Cir. 1989) (“[A]ll disclosures of the prior art, including unpreferred embodiments, must be considered.”). Thus, Appellant’s argument about the lack of specific exemplification of an oligomer with a methylphosphonate linkage is unavailing. Appeal Br. 15. With respect to placing these two methylphosphonate linkages between nucleosides 1 and 3, while there is no specific embodiment with the linkages at these positions, Thompson discloses a genus which includes them. There is a presumption of obviousness when a claimed invention recites range of values falls within a range of values disclosed in the prior art. In re Peterson, 315 F.3d 1325, 1329 (Fed. Cir. 2003). This same principle applies here when the “range” is the number and position of internucleotide linkages in Thompson’s gap region. It would have been Appeal 2020-002360 Application 15/407,037 10 routine optimization to determine the number of linkages and their position to enhance the compound’s stability without producing toxicity. Final Act. 7. Unexpected results One way for a patent applicant to rebut a prima facie case of obviousness is to make a showing of ‘unexpected results,’ i.e., to show that the claimed invention exhibits some superior property or advantage that a person of ordinary skill in the relevant art would have found surprising or unexpected. In re Soni, 54 F.3d 746, 750 (Fed. Cir. 1995). Appellant contends that the nonobviousness of the claim 1 is supported by “unexpected results.” Appeal Br. 15. Specifically, Appellant states that Examples 26 and 27 of the Specification “describe administration to mice of gapped oligomeric compounds comprising two internucleoside linking groups of Formula I located between positions 1 and 3 of the gap, and corresponding ‘parent’ gapped oligomeric compounds with phosphorothioate internucleoside linkages at those positions.” Id. at 16. Summarizing the results in the Specification, Appellant explains that “ALT [alanine transferase] levels, which are a measure of toxicity, were about 5 to over 100 fold lower following administration of a compound of the present claims, compared to same compound with phosphorothioate in place of linking groups of Formula I.” Appeal Br. 16. See Specification at page 102, lines 21-32; and page 105, lines 8-28. The Examiner responded that “it was known and expected that at least one neutral linkage in place of a phosphorothioate linkage significantly reduces ALT (alanine aminotransferase) levels when compared to a full- phosphorothioate modified oligomer as demonstrated by Seth.” Ans. 10. As evidence, the Examiner pointed to Seth’s teaching that MMI, a neutral Appeal 2020-002360 Application 15/407,037 11 internucleotide linkage, in an oligomeric compound with the remaining linkages being phosphorothioate, was less toxic than an oligomeric compound with all phosphorothioate linkages. Id. at 10–11. The experiment relied upon Appellant in support of nonobviousness involved a compound with all phosphorothioate internucleoside linkages except for two methylphosphonates. The claimed oligomeric compound is not limited to such a compound. Claim 1 is broader, specifically reciting “each internucleoside linking group other than internucleoside linking groups having Formula I is, independently, a phosphodiester or a phosphorothioate internucleoside linking group” (emphasis added). Thus, the claim covers a compound with no phosphorothioate linkages, but the comparison is between a compound with all phosphorothioates and a compound with all but 2 linkages being phosphorothioate. Thompson ¶ 173 (reproduced above) teaches that phosphorothioate linkages also have toxicity. A showing of unexpected must be “commensurate in scope with the degree of protection sought by the claimed subject matter.” In re Harris, 409 F.3d 1339, 1344 (Fed. Cir. 2005). Appellant did not demonstrate that the asserted reduced toxicity would be observed when compared to an oligomeric compound with fewer that all, or no phosphorothioate linkages. In addition to this, Appellant did not demonstrate the criticality of placing methylphosphonate linkages at the recited positions between nucleosides 1 and 3. The comparison described in the Specification is between a compound with no methylphosphonates and a compound with two. However, as discussed above, the cited combination of Seth and Thompson reasonably suggests the presence of methylphosphonate linkages in a gap region of an oligomeric compound. The data described by Appellant Appeal 2020-002360 Application 15/407,037 12 in the Specification does not show that methylphosphonates at the recited positions is any less toxic, or otherwise superior, to a compound with methylphosphonates at any other position, such as at the positions described in Seth at the linkage to the bicyclic nucleotide. “To be particularly probative, evidence of unexpected results must establish that there is a difference between the results obtained and those of the closest prior art, and that the difference would not have been expected by one of ordinary skill in the art at the time of the invention.” Bristol-Myers Squibb Co. v. Teva Pharm. USA, Inc., 752 F.3d 967, 977 (Fed. Cir. 2014). A compound with all phosphorothioate linkages is not the closest prior art to the claimed compound with two methylphosphonates, with no requirement that any phosphorothioate is present. The rejection of claim 1 as obvious in view of Seth and Thompson is affirmed. Claims 6–11 and 14–22 fall with claim 1 because separate reason for their patentability were not provided. 37 C.F.R. § 41.37(c)(1)(iv). II. OBVIOUSNESS-TYPE DOUBLE-PATENTING OVER CLAIMS OF ’845 PATENT Claim 16 of the ’845 patent is directed to an oligomeric compound comprising a bicyclic nucleoside as claimed and internucleoside linkages between the nucleoside monomers. See Appeal Br. 18. The claim does not specific the type of linkage, but the disclosure lists methylphosphonate linkages as example of a useful linkage. ’845 patent, col. 16, ll. 44-50. The Examiner found it would have been obvious to have incorporated methylphosphonate linkages into the compound of the claims of the ’845 patent to enhance its therapeutic properties and stability as described by Seth and Thompson. Non-final Act. 9 Appeal 2020-002360 Application 15/407,037 13 Appellant states that the Examiner “relied on Seth and Thompson for inclusion of methylphosphonate linkages in the oligonucleotides of the ’845 patent claims.” Appeal Br. 18. However, the linkages in the patented claims, when read in light of the ’845 patent disclosure, would be understood to encompass methylphosphonate linkages between the nucleosides. In an obviousness-type double-patenting analysis, while the earlier patent’s specification cannot be used as prior art to the later patent application claims, it can be consulted to ascertain the meaning of the words in the claim to interpret the patented claim’s proper scope. Sun Pharmaceutical Industries Ltd. v. Eli Lilly and Co., 611 F.3d 1381, 1387 (Fed. Cir. 2010). With respect to the teachings of Seth and Thompson, Appellant relies on the same arguments for the obviousness rejection which we find unpersuasive. Consequently, for the same reasons, we affirm the obviousness-type double patenting rejection of claim 1 over the claims of the ’845 patent in view of Seth and Thompson. Claims 6–11 and 14–22 fall with claim 1 because separate reason for their patentability were not provided. 37 C.F.R. § 41.37(c)(1)(iv). III. OBVIOUSNESS-TYPE DOUBLE-PATENTING OVER CLAIMS OF ’534 PATENT The ’534 patent is based on the Seth application. Claim 1 of the patent is similar to claim 1 of Seth, where a neutral internucleoside linkage attaches a gap region to a bicyclic nucleoside. The neutral linkage is the same six recited in Seth’s claim 1, where the methylphosphonate is one of the choices. The Examiner’s rejection is the same as that set forth for the Appeal 2020-002360 Application 15/407,037 14 obviousness-type double-patenting rejection based on the ’845 patent, Seth, Thompson. Non-final Act. 10. Appellant argues that because Seth and Thompson would not have rendered obvious the specific number and position of internucleoside linking groups of Formula I recited in the present claims, the present claims also would not have been obvious over claims 1–5 and 7–22 of the '534 patent in view of Seth and Thompson. Appeal Br. 18. These arguments have been addressed and found to be unavailing. Consequently, for the same reasons, we affirm the obviousness- double patenting rejection of claim 1 over the claims of the ’534 patent in view of Seth and Thompson. Claims 6–11 and 14–22 fall with claim 1 because separate reason for their patentability were not provided. 37 C.F.R. § 41.37(c)(1)(iv). IV. OBVIOUSNESS-TYPE DOUBLE-PATENTING OVER CLAIMS OF ’599 PATENT Application 14/238,441 has issued as the ’599 patent. The Examiner made note that the application matured into a patent, but referred to the claim numbers in the application. We have focused on claim 1 of the issued patent. The key difference between the oligomeric compound of the ’599 patent claim 1 and rejected claim 1 is the lack of an explicit recitation of methylphosphonate linkages in the claims of the ’599 patent. The claims of the ’599 patent are directed to oligomeric compounds, but they do not specify the type of internucleotide linkage between the nucleosides. The ’599 patent claims also recite a specific motif to the 5’ region, but rejected Appeal 2020-002360 Application 15/407,037 15 claim 1 is broader and we understand it to include oligomeric compounds with such motifs. Although the claims of the patent do not identify the nature of the linkages between the nucleosides of the oligomeric compound, the specification of the ’599 patent describes the presence of two methylphosphonate linkage. ’599 patent, col. 19 (Embodiment 219). The Examiner found: That is, any type of linkages can be used when making the gapmer claimed in the ’599 patent, and furthermore, when one of ordinary skill in the art sets out to determine which gapmer structures are encompassed by such broad claims in support of the specification of the issued patent, one of ordinary skill in the art would readily determine that the broad scope of the ’599 patent claims does encompass a gapmer “comprising two methylphosphonate internucleoside linkages” (see “Embodiment 219”), wherein “at least one of the 3rd, 4th, 5th, 6th, and/or 7th internucleoside from the 5’ end is a methylphosphonate internucleoside linkage” (see “Embodiment 220”). Now, note that the gapmer of the ‘599 patent claims has a 5-mer 5’ wing region. As such, the scope of the gapmer having a 5-mer 5’ wing region as claimed in the ‘599 patent claims embodies a gapmer having “two methylphosphonate internucleoside linkages” at positions 6th and 7th “from the 5’ end” of the gapmer (see the aforementioned “Embodiments” disclosed in the ’559 patent specification), wherein such positions are located in the first two positions within the gap region as claimed in the instant case, thereby rendering the instant claims an obvious variation/embodiment of the broadly written ’599 patent claims. Ans. 16 (bold in original). Appeal 2020-002360 Application 15/407,037 16 Appellant did not dispute the Examiner’s findings in Reply Brief.4 Appellant argues that the Examiner pointed to unclaimed Embodiment 219, which is improper. Appeal Br. 14. Appellant argues: While the Examiner may consider the specification of the reference application to determine a definition of a claim term, the Examiner may not import specific structural elements from the specification into the claims of the reference application under the guise of determining what the claims “read on.” The Examiner must explain how the claims, and not the specification, of the cited application render obvious the claims of the present application. Appeal Br. 22. Appellant’s argument does not persuade us that Examiner erred. The Examiner clearly used the ’599 patent specification to ascertain the scope of the claims of the ’599 patent. Because the patented ’599 claims do not specifically identify the type of linkage between the recited “linked nucleosides,” the Examiner properly consulted its specification to determine what types of linkages are covered by the claims. Sun Pharmaceutical, 611 F.3d at 1387. The Examiner determined that methylphosphonate linkages in the same positions as claimed are described in the ’599 patent. Appellant did not identify a defect in the Examiner’s findings. See Reply Br. 14. 4 In the Oral Hearing, Appellant’s attorney, Dr. Scarr, stated that the species with the two methylphosphonate linkages between positions 1 and 3 do not fall within the claims of the ’599 patent. Record of Oral Hearing, pages 15– 16. This argument was not made in the Appeal or Reply Briefs. New arguments or evidence is not permitted in an oral hearing. 37 C.F.R. § 41.47. Nonetheless, the Examiner’s finding indicates that methylphosphonate linkages at the claimed positions were considered to be part of the invention of the ’599 patent. Appeal 2020-002360 Application 15/407,037 17 In an obviousness-type double-patenting analysis, while the earlier patent’s specification cannot be used as prior art to the later patent application claims, it can be consulted to ascertain the meaning of the words in the claim to interpret the patented claim’s proper scope. As explained in Sun Pharmaceutical, 611 F.3d at 1387: In Geneva [Pharmaceuticals, Inc. v. GlaxoSmithKline PLC, 349 F.3d 1373 (Fed. Cir. 2003)], we acknowledged the general rule that an earlier patent’s specification is not available to show obviousness-type double patenting. 349 F.3d at 1385. We have held, however, that there are “certain instances” where the specification of an earlier patent may be used in the obviousness-type double patenting analysis. In re Basell [Poliolefine Italia S.P.A., 547 F.3d 1371, 1378 (Fed. Cir. 2008).] Specifically, the specification’s disclosure may be used to determine whether a claim “merely define[s] an obvious variation of what is earlier disclosed and claimed,” “to learn the meaning of [claim] terms,” and to “interpret [ ] the coverage of [a] claim.” Id. As we recognized in Geneva, a court considering a claim to a compound must examine the patent’s specification to ascertain the coverage of the claim, because a claim to a compound “[s]tanding alone . . . does not adequately disclose the patentable bounds of the invention.” 349 F.3d at 1385. Id. Claim 1 of the ’599 patent is directed to an oligomeric compound, which when the patent specification is examined, indicates that claim covers compounds with methylphosphonate linkages between the recited nucleosides, including methylphosphonates at the claimed positions (Ans. 16). The ’599 claim is unrestricted as to the type of internucleoside linkage, and because the ’599 patent specification teaches embodiments where methylphosphonate linkages are incorporated (Ans. 16), the Examiner reasonably interpreted the scope of the claim to include these disclosed embodiments. It is not reasonable to read a claim to exclude embodiments Appeal 2020-002360 Application 15/407,037 18 described in the written description of it in the specification.5 The Specification is therefore properly being used to ascertain the scope of the claim and obvious variations encompassed by the scope. A compound with methylphosphonate would infringe the claim. When the patent specification is consulted, based on the disclosure of methylphosphonate linkages at the same positions as claimed, the skilled worker would interpret claim 1 of the ’599 patent make rejected claim 1 obvious. For this reason, we agree with the Examiner that it is not justified to extend Appellant’s right to exclude through claims in this later application when it has not been established that the later claim is patentably distinct from the claims in the ’599 patent. As explained in Basell, 547 F.3d at 1375: “The doctrine of double patenting is intended to prevent a patentee from obtaining a time-wise extension of [a] patent for the same invention or an obvious modification thereof.” In re Lonardo, 119 F.3d 960, 965 (Fed. Cir. 1997). The judicially created doctrine of obviousness-type double patenting “prohibit[s] a party from obtaining an extension of the right to exclude through claims in a later patent that are not patentably distinct from claims in a commonly owned earlier patent.” Eli Lilly & Co. v. Barr Labs., Inc., 251 F.3d 955, 967 (Fed. Cir. 2001). Consequently, we affirm the obviousness-double patenting rejection of claim 1 over the claims of the ’599 patent. Claims 6–11 and 14–22 fall 5 “We normally do not interpret claim terms in a way that excludes embodiments disclosed in the specification. . . . At leas[t] where claims can reasonably [be] interpreted to include a specific embodiment, it is incorrect to construe the claims to exclude that embodiment, absent probative evidence on the contrary.” Oatey Co. v. IPS Corp., 514 F.3d 1271, 1276–77 (Fed. Cir. 2008). Appeal 2020-002360 Application 15/407,037 19 with claim 1 because separate reason for their patentability were not provided. 37 C.F.R. § 41.37(c)(1)(iv). CONCLUSION In summary: Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1, 6–11, 14– 22 103 Seth, Thompson 1, 6–11, 14– 22 1, 6–11, 14– 22 101 Obviousness-type double-patenting; ’845 patent, Seth, Thompson 1, 6–11, 14– 22 1, 6–11, 14– 22 101 Obviousness-type double-patenting; ’534 patent, Seth, Thompson 1, 6–11, 14– 22 1, 6–11, 14– 22 101 Obviousness-type double-patenting; ’599 patent 1, 6–11, 14– 22 Overall Outcome 1, 6–11, 14– 22 TIME PERIOD 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