13855434 (P.T.A.B. May. 12, 2017)

Ex Parte Ballance et al

Patent Trial and Appeal BoardMay 12, 2017

13855434 (P.T.A.B. May. 12, 2017)

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. 13/855,434 04/02/2013 David J. Ballance 06478.1575-01000 5979 22852 7590 05/16/2017 FINNEGAN, HENDERSON, FARABOW, GARRETT & DUNNER LLP 901 NEW YORK AVENUE, NW WASHINGTON, DC 20001-4413 EXAMINER ROBINSON, HOPE A ART UNIT PAPER NUMBER 1652 NOTIFICATION DATE DELIVERY MODE 05/16/2017 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): regional-desk @ finnegan. com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DAVID J. BALLANCE and DARRELL SLEEP1 Appeal 2016-003294 Application 13/855,434 Technology Center 1600 Before JEFFREY N. FREDMAN, TIMOTHY G. MAJORS, and DEVON ZASTROW NEWMAN, Administrative Patent Judges. MAJORS, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134 involving claims to methods of treating a patient by administering an albumin fusion protein comprising a Factor IX polypeptide. The claims have been rejected as obvious. We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. STATEMENT OF THE CASE Appellants’ “invention relates generally to Therapeutic proteins (including, but not limited to, a polypeptide, antibody, or peptide, or 1 Appellants identify the Real Party in Interest as NOVOZYMES BIOPHARMA DK A/S. (App. Br. 3.) Appeal 2016-003294 Application 13/855,434 fragments and variants thereof) fused to albumin or fragments or variants of albumin.” (Spec. 1:12—13.)2 According to the Specification, such fusion proteins “exhibit extended shelf-life and/or extended or therapeutic activity in solution.” (Id. at 1:16—17.) Claims 61 and 63—73 are on appeal. Claim 61 is illustrative: 61. A method of treating a patient in need of a Factor IX polypeptide, comprising the step of administering an effective amount of an albumin fusion protein comprising a Factor IX polypeptide fused to an albumin polypeptide, wherein the albumin polypeptide has the ability to prolong the serum half-life of the fused Factor IX polypeptide compared to the unfused Factor IX polypeptide, wherein the fused Factor IX polypeptide has Factor IX coagulant activity, wherein the Factor IX polypeptide is fused at the N-terminus of the albumin polypeptide, and wherein the albumin polypeptide is selected from: a) a full-length albumin; b) a mature albumin; c) a fragment of albumin; d) a polypeptide consisting of an amino acid sequence at least 95% identical to SEQ ID NO: 18; and e) amino acids 1 to 387 of SEQ ID NO: 18; and wherein the Factor IX polypeptide is selected from: i) a full-length Factor IX; ii) an activated Factor IX (Factor IXa); iii) a fragment of a Factor IX having a deletion that consists of 1-50 amino acid residues as compared to the sequence of amino acids 1 (Tyr) to 416 (Thr) of SEQ ID NO:46; iv) a polypeptide consisting of an amino acid sequence at least 90% identical to the sequence of amino acids 1 (Tyr) to 416 (Thr) of SEQ ID NO: 46; and 2 References to the Specification (“Spec.”) herein refer to Appellants’ substitute Specification dated Sept. 16, 2013. 2 Appeal 2016-003294 Application 13/855,434 v) a mature Factor IX. (App. Br. (Claims App’x 1).) The claims stand rejected under 35 U.S.C. § 103(a) over Ballance,3 Schulte,4 Fleer,5 and Axelrod.6 (Ans. 3.) Appellants identify the following pending appeals as related: 1) U.S. Application No. 11/927,600 (Appeal No. 2016-003160); 2) U.S. Application No. 13/855,454 (Appeal No. 2016-003295); and 3) U.S. Application No. 11/927,602 (Appeal No. 2016-005026). (See App. Br. 3.) DISCUSSION Issue The Examiner rejected claims 61 and 63—73 as obvious over Ballance (as evidenced by Schulte), Fleer, and Axelrod. (Ans. 3.) The Examiner finds that “Ballance et al. teach fusion proteins comprising human serum albumin (protein of 585 amino acids) and human growth hormone . . . [and] that the albumin fusion protein extends the half-life in the circulation of the fusion partner protein compared to an unfused state.” (Id. at 3.) According to the Examiner, Ballance also teaches “the fusion protein comprises a fragment that may be the N-terminal portion or C-terminal portion.” (Id. at 3 Ballance, WO 97/24445, published July 10, 1997. 4 Schulte, Half-life extension through albumin fusion technologies, 124 Thrombosis Research, Suppl. 2 S6-8 (2009). 5 Fleer et al., US 5,876,969, issued Mar. 2, 1999. 6 Axelrod et al., Phenotypic correction of factor IXdeficiency in skin fibroblasts of hemophilic dogs, 87 Proc. Natl. Acad. Sci. 5173—77 (1990). 3 Appeal 2016-003294 Application 13/855,434 3— 4.) The Examiner finds that Schulte “disclose[s] that treatment of hemophilia B requires frequent infusions of Factor IX to ameliorate bleeding episodes, therefore, FIX therapy is one such treatment modality that could benefit from [] an albumin fusion protein to prolong the half-life and reduce dosing.” (Id. at 4.) The Examiner finds that Ballance “does not expressly teach the stabilization of Factor IX (i.e. prolonging the half-life) or a method of treating a patient in need of Factor IX,” and thus turns to Fleer. (Id. at 4.) According to the Examiner, “Fleer teach[es] albumin fusion proteins with a number of therapeutic proteins and state[s] that albumin can be fused to coagulation factors ... for the purposes of prolonging the half-life.” (Id. at 4— 5.) The Examiner further finds “Fleer et al. also teach single and double fusion proteins with albumin (see the entire patent and claim 1).” (Id. at 5.) The Examiner finds “[t]he art generally recognizes that FIX is a coagulation factor.” (Id.) The Examiner also finds “Axelrod et al. teach the structure of Factor IX and fragments thereof including [various] deletions.” (Id.) The Examiner concludes the claimed method of administering a FIX albumin fusion protein would have been obvious. (Id.) According to the Examiner, “Schulte demonstrates the need in the art for extension of FIX as a therapeutic for Hemophilia B via a fusion molecule such as albumin.” (Id.) The Examiner reasons the skilled artisan “would be motivated to modify the conjugate taught by Ballance et al. by replacing the growth hormone with a FIX . . . based on the disclosure in the art of the function of albumin as prolonging the half-life of other proteins in circulation and the 4 Appeal 2016-003294 Application 13/855,434 fact that there is a strong need in the art to help short lived proteins for therapy to have a prolonged half-life.” (Id. at 5—6.) Further, the Examiner reasons, the skilled person “would [] have a reasonable expectation of success . . . because of the examples of albumin fused to a therapeutic protein provided by Ballance et al. and Fleer et al.” (Id. at 6.) Appellants argue the Examiner’s combination of prior art fails to render the claims obvious. Appellants contend Fleer’s disclosure of “a genus of albumin fusion proteins containing a coagulation factor does not render obvious the claimed species of a Factor IX-albumin fusion protein.” (App. Br. 6—9.) Appellants further contend that, at the time of the invention, the skilled artisan “would not have predicted that albumin fusion would ‘prolong the serum half-life of the fused Factor IX polypeptide’ as claimed.” (Id. at 6, 9—19.) Appellants argue the skilled person “would not have predicted the orientation-dependent coagulant activity of the claimed Factor IX-albumin fusion proteins” and more specifically “Appellant’s unexpected discovery that Factor IX retains biological activity only when fused to the amino-terminal [N-terminal] end of albumin.” (Id. at 6, 19—24.) Appellants contend “based on the teachings of Ballance and Fleer, one skilled in the art likely would have predicted the exact opposite of Appellant’s discovery regarding orientation-dependence” (id. at 26) and that “the cited prior art teaches away from the claimed N-terminal albumin fusion proteins” (id. at 28). (See also Id. at 26—29.) In support of its arguments concerning the patentability of the claims on appeal, Appellants cite to, among other things, multiple declarations from 5 Appeal 2016-003294 Application 13/855,434 skilled persons and publications in the scientific literature. We discuss Appellants’ evidence further below. (App. Br. passim.) The issue on appeal is whether the preponderance of the evidence of record supports the Examiner’s conclusion of obviousness. Findings of Fact (FF) The Examiner’s findings of fact and statement of the rejection are provided at pages 3—6 of the Examiner’s Answer and pages 6—10 of the August 18, 2014 Final Rejection. (See also Ans. 11—33 (Response to Argument); Final Act. 11—20 (Response to Arguments); Adv. Act. 2—11.)7 FF 1. Ballance teaches “fusion of a molecule of albumin, or variants or fragments thereof, to a molecule of growth hormone or variants or fragments thereof, the fusion proteins having an increased circulatory half- life over unfused growth hormone.” (Ballance 3:27—30.) FF 2. Ballance teaches: Preferably, the fusion protein comprises HA [human albumin], or a variant or fragment thereof, as the N-terminal portion, with hGH [human growth hormone] or a variant or fragment thereof as the C-terminal portion [i.e., hGH is fused to the C-terminal end of the albumin], so as to minimise any possible negative effects on receptor binding. Alternatively, a fusion protein comprising HA, or a variant or fragment thereof, as the C- terminal portion, with hGH or a variant or fragment thereof as the N-terminal portion, may also be capable of signal transduction. Generally, the polypeptide has only one HA- derived region and one GH-derived region. 7 In the Advisory Action dated Dec. 23, 2014 and the Final Rejection dated Aug. 18, 2014, the Examiner cites to Hallahan et al., US 5,969,040, issued Oct. 19, 1999 (“Hallahan”), but as the Examiner does not cite to or appear to rely on Hallahan in the Examiner’s Answer, we do not consider it here. 6 Appeal 2016-003294 Application 13/855,434 (Mat 4:3-11.) FF 3. Fleer teaches “[biologically active polypeptides comprising a therapeutically active polypeptide fused to human serum albumin or a natural variant thereof.” (Fleer Abstract.) Fleer further teaches “albumin variants designate any protein with a high plasma half-life which is obtained by modification.” {Id. at 1:23—25.) FF 4. Fleer teaches the polypeptide having a therapeutic activity is a polypeptide of human origin or a molecular variant. For example, this may be all or part of an enzyme, an enzyme inhibitor, an antigen, an antibody, a hormone, a factor involved in the control of coagulation, an interferon, a cytokine ... of a growth factor and/or of differentiation [and for example the transformant growth factors (TGFs), the blood cell differentiation factors (erythropoietin, M-CSF, G-CSF, GM-CSF and the like), insulin and the growth factors resembling it (IGFs), or alternatively cell permeability factors (VPF/VEGF), and the like] ... of a cytostatic factor (and for example the proteins which bind to galactosides), of a plasma (and for example von Willebrand factor, fibrinogen and the like).... {Id. at 2:22-49 (brackets in original) (emphases added).) FF 5. Fleer teaches The active part of the molecules of the invention can be coupled either directly or via an artificial peptide to albumin. Furthermore, it may constitute the N-terminal end as well as the C-terminal end of the molecule. Preferably, in molecules of the invention, the active part constitutes the C-terminal part of the chimera [i.e., polypeptide fused to C-terminal of albumin], {Id. at 3:28-33.) 7 Appeal 2016-003294 Application 13/855,434 Principles of Law “The combination of familiar elements according to known methods is likely to be obvious when it does no more than yield predictable results.” KSRInt’l Co. v. Teleflex Inc., 550 U.S. 398, 416 (2007). Prima facie obviousness may be rebutted with evidence of secondary considerations and when such evidence is submitted, all of the evidence is considered anew. In re Piasecki, 745 F.2d 1468, 1472—73 (Fed. Cir. 1984). Secondary considerations include, inter alia, long-felt but unsolved needs, failure of others, and unexpected results. In re Rouffet, 149 F.3d 1350, 1355 (Fed. Cir. 1998). Analysis Claim 61 Looking to the Examiner’s findings and reasoning concerning the combination of Ballance (as evidenced by Schulte), Fleer, and Axelrod alone, we agree that claim 61 would have been prima facie obvious.8 But considering the totality of the evidence of record, we reach a different conclusion. Although Fleer teaches albumin fusions and suggests use with factors involved in coagulation, coagulation factors encompass dozens of 8 Appellants point out that “Schulte was published in 2009, about 9 years after the filing date of the instant application . . . [and] cannot be used to show that one of ordinary skill in the art had motivation and a reasonable expectation of success in generating the claimed Factor IX-albumin fusion proteins at the relevant time.” (App. Br. 5.) The Examiner responds that Schulte is an appropriate “evidentiary reference.” (Ans. 11.) Appellants have the better position. The Examiner is relying on Schulte for its substantive teaching as “a source of motivation for increasing the half-life of FIX.” (Reply Br. 4 n. 2.) We do not rely upon Schulte. 8 Appeal 2016-003294 Application 13/855,434 potential polypeptides. (App. Br. 7.) Also, the functionally closest peptide tested in Fleer, von Willebrand factor, which can reasonably be characterized as a coagulation factor, did not exhibit coagulant activity as required by the claims. {Id. at 8—9.) As we discuss in greater detail below, Appellants have provided persuasive and countervailing objective evidence of nonobviousness. When this evidence is considered along with the teachings of the applied prior art, the decision tilts in Appellants’ favor. Appellants emphasize that, in mentioning “a factor involved in the control of coagulation,” Fleer discloses a broad genus “compris[ing] many functionally and structurally distinct polypeptides.” (App. Br. 7 (citing Tanaka9).) Appellants also point out that, in the lone example in which Fleer tested fusion proteins comprising a coagulation factor —fragments of vWF — that these fusion constructs “inhibit the physiological function of vWF, not [] enhance its normal coagulant activity as contemplated by the instant invention.” {Id. at 9.) The fact that coagulation factors have diverse structures and functions does not, in itself, persuade us that the Examiner’s reliance on Fleer is flawed. To the contrary, as the Examiner noted, “Fleer provides a myriad of therapeutic proteins as potential fusion partners which demonstrates that different protein structures with different functions can be fused to albumin.” (Ans. 15.) Put differently, in expressly reciting polypeptides with quite different structures and functions (e.g., EPO versus vWF), Fleer suggests the design of active therapeutic fusion constructs despite the diversity. That 9 Tanaka et al., Blood Coagulation: Hemostasis and Thrombin Regulation, 108:5 Anesthesia & Analgesia 1433^46 (2009). 9 Appeal 2016-003294 Application 13/855,434 said, Appellants’ contention that the vWF-fusion constructs exemplified in Fleer inhibit coagulant activity — opposite from vWF’s normal activity and what is claimed — weakens somewhat the notion that an ordinarily skilled person would have a reasonable expectation of success in designing a FIX fusion protein with coagulant activity as claimed. (App. Br. 9.) Appellants argue the prior art, and especially Ballance and Fleer, must be viewed through the lens of “background knowledge in the art.” (App. Br. 11.) This knowledge, Appellants contend, is that “the circulatory half-life of a polypeptide depended on its molecular size due to much faster renal clearance of small polypeptides from the blood plasma.” {Id. at 9.) According to Appellants’ declarant, Dr. Sleep,10 it was known in the art that “plasma clearance of proteins decreased rapidly with increasing molecular size from about 20 kD to about 60-70 kD . . . [and] a size of 60-70 kD or above showed only very little or almost no renal clearance.” (Sleep Decl. 14.) It “was also known in the art that the serum half-life of a small protein, such as human growth hormone (hGH), could be increased by expressing it as a genetic fusion with human serum albumin (HSA), which is a large (67 kD) protein.” {Id. at | 5.) Dr. Sleep declares “Factor IX is a much larger molecule, having a molecular size of about 57 kD.” {Id. at 17.) Dr. Sleep further declares that “at the priority date of [the present application] it was thought in the art that FIX was too large for clearance from circulation via the kidneys. . . . Thomsen et al. taught regarding the related blood clotting 10 Declaration of Dr. Darrell Sleep dated May 12, 2014 (“Sleep Decl.”) Dr. Sleep cites a number of publications in support of his opinions. We omit citation to most of those references here for brevity. 10 Appeal 2016-003294 Application 13/855,434 Factor VII that ‘the 50 kDa glycoprotein FVIIa molecule is a low clearance compound.’” {Id.)11 Thus, Dr. Sleep opines, “one skilled in the art would have thought that Factor IX, as the related Factor VII, is already large enough to be excluded from renal secretion, and therefore would not have expected that fusing Factor IX to albumin would prolong the circulatory half-lives of this factor to any useful extent.” {Id.) When viewed in this historical context, Appellants contend, this explains why the working examples in Ballance and Fleer fused albumin to smaller polypeptides or fragments, with the largest having a molecular weight of about 27 kD. (App. Br. 14.) According to Appellants, “nothing in Ballance and Fleer provided any reasonable expectation that albumin fusion would increase the half-life of substantially larger polypeptides, such as Factor IX.” {Id. at 15.) Here again, this evidence and argument alone from Appellants does not persuade us the Examiner erred in concluding that claim 61 would have been obvious. Fleer teaches that “albumin variants designate any protein with a high plasma half-life which is obtained by modification” (FF 3) and, in expressly teaching the fused polypeptide may be “all or part of an enzyme [etc.],” Fleer suggests its constructs are not limited to fusions with fragments or small molecules. (FF 4.) Also, as the Examiner notes, Fleer identifies a number of polypeptides that have somewhat larger molecular weights (e.g., EPO). (Ans. 12—13.) Moreover, while FVII may have been recognized as a 11 See Thomsen et al., Pharmacokinetics of Recombinant Factor Vila in the Rate A Comparison of Bio-, Immuno- and Isotope Assays, 70:3 Thrombosis and Haemostasis 458-64 (1993). 11 Appeal 2016-003294 Application 13/855,434 low clearance compound based on size (approx. 50 kD), FIX (approx. 57 kD) is below the renal permeability threshold (60—70 kD) reported in the art and Dr. Sleep’s declaration. (See, e.g., Sleep Deck 4, 7.) Accordingly, by fusing to albumin, some increase in circulatory half-life — even if minor — would have reasonably been expected. Nevertheless, Appellants’ evidence does at least suggest the skilled person at the time of the invention would not have expected that fusing FIX to albumin would have necessarily resulted in a substantial increase in half-life. Appellants next cite to data concerning orientation dependency and unexpected results when Factor IX is fused to the N-terminal end of albumin. (App. Br. 19—24.) According to Appellants, testing provided by Dr. Thomas Weimer12 shows the criticality of FIX fusions at the N-terminus: “the activity-to-antigen ratio of the N-terminal fusion protein (protein 980) is more than 50-fold larger than that of the C-terminal fusion protein (protein 2397.)” (Id. at 21 (citing Weimer Deck 17).) In contrast, “the activity-to- antigen ratio approaches zero for the fusion protein with Factor IX fused [only] at the C-terminal end of albumin.” (Id.) Also citing Dr. Weimer’s testing, Appellants point out that double fusions (fusing FIX to both the C- and N-terminal ends of albumin) provide a protein with significant activity compared to fusion constructs at the C-terminal end only, which “is virtually inactive.” (Id. (citing Weimer Deck 7—11.) According to Appellants (and Dr. Weimer), “both Ballance and Fleer teach that therapeutic polypeptides are preferably fused at the C-terminal end of albumin, which is opposite to 12 See Declaration of Dr. Thomas Weimer dated August 23, 2013 (“Weimer Deck”). 12 Appeal 2016-003294 Application 13/855,434 the orientation recited in the claims on appeal.” (Id. at 26; see also Weimer Decl. 114.) Appellants’ data concerning the claimed N-terminal fusions provides persuasive objective evidence of nonobviousness. The Examiner’s response relies heavily on the prima facie case, and the teachings in both Ballance and Fleer that polypeptides may be fused to the N- or C- terminal end of albumin. (Ans. 22—27.)13 The Examiner has not, however, provided persuasive evidence or scientific reasoning explaining why the results Appellants produced would have been expected.14 Indeed, as Appellants contend, the prior art suggests the opposite — that optimal activity would have been observed when a polypeptide is fused at the C-terminal end of albumin. (Reply Br. 13—15; FF 2, 5.) Although we do not limit the prior art to its preferred embodiments, here the evidence unexpectedly shows that, had the skilled artisan modified the prior art to include FIX fused to the C- terminus, the result would have been a virtually inactive protein. We recognize, but are not persuaded by, the Examiner’s emphasis in the Response to Argument, that Fleer claims a double-fusion construct. (See, e.g., Ans. 23—26.) On the record here, the mention of double fusions in Fleer’s claims is not entitled to any talismanic importance without an 13 At points throughout the Examiner’s response, the Examiner appears to mistakenly cite to evidence submitted in Appellants’ related appeals. (See, e.g, Ans. 26 (discussing data in a September 2013 declaration of Dr. Weimer).) 14 The Examiner asserts that Drs. Weimer and Sleep appear to contradict each other (Ans. 22), and that Appellants have provided other “contradictory” statements (id. at 25). For the reasons given by Appellants, we are unpersuaded there is any discrepancy. (Reply Br. 11—12, 14—15.) 13 Appeal 2016-003294 Application 13/855,434 accompanying disclosure teaching or suggesting a particular advantage of such a construct. Fleer, as does Ballance, clearly prefers fusions at the C- terminal end of the albumin, and suggests those fusion proteins provide optimal therapeutic activity. (FF 2, 5.) The Examiner, however, asserts that the skilled person “could conclude that because Fleer claims a double fusion in claim 1 after making single fusions at both terminus that they were aware that the double fusion produced the highest activity.” (Ans. 23.) This is speculation. And, in any event, when obviousness is at issue the question is not what the skilled person could have concluded or done, but what they reasonably would have done. See Belden Inc. v. Berk-TekLLC, 805 F.3d 1064,1073 (Fed. Cir. 2015). The Examiner also responds that “there is a high expectation of success, because Ballance and Fleer made albumin fusion proteins comprising therapeutic proteins that are C-terminally or N-terminally oriented and Fleer also made a fusion that was N and C terminally oriented.” (Ans. 25.) We are not persuaded. Fusions with Factor IX having any of these orientations were not made. And, as noted by Appellants and Dr. Weimer, neither Ballance nor Fleer discloses any in vivo therapeutic activity when a polypeptide is fused to the N-terminal end of albumin, while such activity is disclosed for C-terminal fusions. (See Weimer Decl. Tflf 13—16.)15 Inasmuch as the Examiner invokes an inherency rationale (Ans. 25, 29) to produce a FIX polypeptide with the claimed “coagulant activity” when fused 15 Ballance discloses that in vitro testing showed that fusions of hGH to the N-terminal end of albumin were “significantly less potent” than fusions at the C-terminal end. (See Ballance 22:4—7; see also Weimer Decl. 116.) 14 Appeal 2016-003294 Application 13/855,434 at the N-terminal, we are unpersuaded. See Par Pharma., Inc. v. Twi Pharms., Inc., 773 F.3d 1186, 1195—96 (Fed. Cir. 2014) (holding that a “high standard” must be met “to rely on inherency to establish the existence of a claim limitation in the prior art in an obviousness analysis.”) This is especially so when the “natural result” of the combination of Ballance and Fleer would have been a fusion at the C-terminal end of albumin, yet Appellants’ data shows the FIX polypeptide is unexpectedly inactive unless there is a fusion at the N-terminus. Id. at 1196. When the Examiner’sprima facie case is considered anew, in light of all the evidence of record, we are unpersuaded that claim 61 would have been obvious over Ballance (as evidenced by Schulte), Fleer, and Axelrod. Appellants have provided persuasive argument and objective evidence of nonobviousness that rebuts the Examiner’s evidence of obviousness. Mintz v. Dietz & Watson, Inc., 679 F.3d 1372, 1379 (Fed. Cir. 2012) (“Obviousness requires . . . walking] a tightrope blindfolded (to avoid hindsight)—an enterprise best pursued with the safety net of objective evidence.”) This is not a case where the prima facie case is so strong that it controls the obviousness determination. See Pfizer, Inc. v. Apotex, Inc., 480 F.3d 1348, 1372 (Fed. Cir. 2007). We thus reverse the rejection of claim 61 and its dependent claims. In reFritch, 972 F.2d 1260, 1266 (Fed. Cir. 1992) (“[Dependent claims are nonobvious if the independent claims from which they depend are nonobvious.”) 15 Appeal 2016-003294 Application 13/855,434 Conclusion of Law We conclude the preponderance of the evidence of record does not support the Examiner’s conclusion that claims 61 and 63—73 would have been obvious. SUMMARY We reverse the rejection of claims 61 and 63—73 under U.S.C. § 103(a) over Ballance, Schulte, Fleer, and Axelrod. REVERSED 16