11929498 (P.T.A.B. Aug. 13, 2018)

Ex Parte Hiller et al

Patent Trial and Appeal BoardAug 13, 2018

11929498 (P.T.A.B. Aug. 13, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 11/929,498 10/30/2007 23570 7590 08/15/2018 PORTER WRIGHT MORRIS & ARTHUR, LLP INTELLECTUAL PROPERTY GROUP 41 SOUTH HIGH STREET 29THFLOOR COLUMBUS, OH 43215 Reinhard Hiller 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 ATTORNEY DOCKET NO. CONFIRMATION NO. 4007652-187812 8720 EXAMINER MARCSISIN, ELLEN JEAN ART UNIT PAPER NUMBER 1677 NOTIFICATION DATE DELIVERY MODE 08/15/2018 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): ipdocket@porterwright.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte REINHARD HILLER, CHRISTIAN HARWANEGG, and MANFRED MULLER1 Appeal2017-001790 Application 11/929,4982 Technology Center 1600 Before RICHARD M. LEBOVITZ, RYAN H. FLAX, and DEVON ZASTROW NEWMAN, Administrative Patent Judges. LEBOVITZ, Administrative Patent Judge. DECISION ON APPEAL This appeal involves claims directed to microarray chips for detecting immunoglobulin E (IgE) in a serum sample. The Examiner finally rejected the claims as obvious under 35 U.S.C. Â§ 103(a). Appellants appeal the rejection pursuant to 35 U.S.C. Â§ 134. We have jurisdiction for the appeal under 35 U.S.C. Â§ 6(b) and affirm the rejection. 1 The Appeal Brief ("Appeal Br.") at page 1 lists Assignee, VBC Genomics Bioscience Research GmbH, now Phadia Multiplexing Diagnostics GmbH, by change of name, and Phadia AB, a Thermo Fisher Scientific company, owner of the Assignee, as the real parties in interest. 2 The appealed Application's written disclosure is referenced as "the '498 Specification" or "the '498 Spec." Appeal2017-001790 Application 11/929,498 STATEMENT OF THE CASE The claims are directed to microarray chips for detecting immunoglobulin E (IgE) in a serum sample. The method comprises providing a solid support. The microarray chip comprises at least 64 spots consisting essentially of single allergens ("discrete features"). The chip is incubated with serum and IgE bound to the allergen spots is detected, if any is present. Claims 39--52, 56, 57, 60, 61, 66-79, 82-84, 87-89, and 91-93 are pending and stand rejected by the Examiner under 35 U.S.C. Â§ I03(a) as obvious in view of Calenoff et al., U.S. Patent No. 4,845,027 (issued July 4, 1989) ("Calenoff'), Wagner et al., U.S. Publication Patent Appl. No. 2002/0106702 Al (published Aug. 8, 2002) ("Wagner"), and Simons et al., WO 99/25826 Al (published May 27, 1999) ("Simons"). The following evidence is also cited in this Decision: Fodor et al., U.S. Patent No. 6,379,895 Bl (issued Apr. 30, 2002) ("Fodor"). Lars Yman, The New Generation of Allergy Testing - Pharmacia CAP System, 2 DIAGNOSTICA SPECIAL, 1-11 (1990) (English Translation) ("Yman (1990")). Lars Yman, Standardization of IgE Antibody Assays, 3 JIFCC, 198- 203 (Dec. 1991) ("Y man ( 1991 ") ). Yman (1990) and Yman (1991) are collectively referred to as "Yman." Reinhard Hiller et al., Microarrayed allergen molecules: diagnostic gatekeepers for allergy treatment, 16 THE FASEB JOURNAL, 414--16 (2002) ("Hiller"), 2 Appeal2017-001790 Application 11/929,498 Second Declaration of Dr. Rudolph Valenta under 37 C.F.R. Â§ 1.132 ("Second Valenta Deel."). An oral hearing was held on June 21, 2018. A transcript will be entered into the record in due course. There are two independent claims on appeal, claims 66 and 68. Claim 66 is illustrative of the claimed subject matter and is reproduced below: 66. A microarray chip for detecting immunoglobulin E (IgE), the microarray chip comprising a solid support and an array of discrete features having a density of at least 64 discrete features per cm2 on the solid support, at least a portion of the discrete features each being in the form of a spot having a diameter of about 50-500 Âµm and consisting essentially of an immobilized, single allergen having the capacity to induce and combine with IgE antibody, or an immobilized, single allergenic determinant or allergenic domain of an allergen, the allergenic determinant or allergenic domain having the capacity to induce and combine with IgE antibody, wherein the respective discrete features are from more than one allergen source, wherein a serum sample containing immunoglobulin G (IgG) is in contact with the array of discrete features, and wherein IgE in the serum sample which are specific for respective allergens, if any such IgE are present, are bound to the respective allergens. RELATED APPEAL This appeal is related to the appeal in Application No. 10/398,266 (Appeal No. 2017-008154), which has been concurrently decided. REJECTION Claim 66 is directed to a microarray chip for detecting immunoglobulin E (IgE) that comprises "an array of discrete features," which "consist[] essentially of' single allergens, single allergen 3 Appeal2017-001790 Application 11/929,498 determinants, or single allergen domains, which have "the capacity to induce and combine with IgE antibody." Each discrete feature is in the form of a spot with a specifically recited diameter and density (per cm2). The claim also requires that a serum sample is in contact with the array. Claim 68 recites similar features. Accordingly, we consider both independent claims together, although the discussion refers to claim 66, which is representative. The Examiner found that Calenoff describes a method of detecting IgE in a serum sample containing IgG using allergens immobilized on a solid support. Final Act. 3--4. The Examiner also found that Calenoff describes immobilizing the allergen on various solid supports, including a microtiter well. Id. at 4; see also Calenoff 3: 15--4:29. The Examiner acknowledged that Calenoff does not describe the solid support as a microarray chip with single allergens arrayed in the recited density with the recited diameter as required by claim 66, but found that Wagner describes a protein array with such features. Final Act. 4--5. The Examiner cited the disclosure in Wagner as teaching that its miniaturized protein microarrays are an improvement over protein screening systems using microarray plates. Id. at 5-6. Based on this teaching, the Examiner determined it would have been obvious to one of ordinary skill in the art to have utilized Wagner's microarrays to detect IgE as described in Calenoff to obtain the known advantages of microarrays as described in Wagner. Id. at 8-9. The Examiner recognized that Wagner does not teach using single allergens in its microarray as required by the claims. Final Act. 4. However, the Examiner determined that Simons teaches that isolated and purified single allergens, including recombinant protein allergens, improve 4 Appeal2017-001790 Application 11/929,498 diagnosis, providing a reason for a skilled artisan to have used single allergens in Wagner's microarray. Id. at 7-10. Large Capacity Substrate Appellants argue: DISCUSSION it was customary prior to the present invention, when using blood or plasma samples to conduct IgE detection, to use a large capacity substrate, i.e., a high surface area substrate that can hold an excess of allergen relative to the amount of IgG and IgE in a sample. Appeal Br. 8. Appellants explain that a large capacity substrate was used "in order to minimize the risk of underestimating the amount of IgE in the sample owing to IgG reaction with the allergen and/or IgG blocking of IgE reaction with the allergen." Id. at 8-9. To support this argument, Appellants cited Yman (1990), Yman (1991), and a second Declaration by Valenta. Id. at 9. According to Appellants, the Pharmacia CAP (ImmunoCAP) System described in Yman (1990) and Yman (1991) "was and remains a widely used device which has a large capacity substrate and uses an excess of allergen sufficient to react with both the IgG and IgE in a sample." Id. at 9. In contrast, Appellants contend that the claimed microarray chips "do not use a large capacity substrate having an excess of allergen as compared with the amount of IgG and IgE in a sample" and, thus, are "contrary to the conventional practice in the art of IgE ... [ screening and in vitro allergy diagnosis]" and surprisingly, "a small capacity substrate, can successfully screen for IgE in a serum sample to allow in vitro allergy diagnosis from the serum sample." Id. at 9. 5 Appeal2017-001790 Application 11/929,498 In support of their arguments and as rebuttal evidence, Appellants provided a second Declaration by Dr. Valenta. 3 Dr. Valenta stated that he has "spent over 25 years working and researching in the fields of allergy and immunology, including diagnostics thereof by IgE detection" and has "authored or co-authored more than 300 peer-reviewed articles in the fields of allergy and immunology." Second Valenta Deel. ,r 1. Dr. Valenta stated in his Declaration that there would have been no reasonable expectation of success4 that microarray chips could be used successfully to measure IgE in a sample because: Interference of allergen-specific IgG with allergen-specific IgE in a blood or plasma sample would have been anticipated in a microarray chip test, in particular when allergen extracts would be used, whereas single allergens would represent only a small percentage of the extract proteins, leaving them even less represented on a microarray chip, preventing accurate IgE detection. Id. ,r 5; see also id. ,r 9. With respect to this argument, Dr. Valenta focused on an allergen extract. However, the Examiner specifically cited Simons' teaching of using isolated and purified recombinant allergens to improve the diagnosis of an allergy by detection of IgE. As found by the Examiner, Simons teaches: Purification or isolation of each of the saliva proteins is required to improve studies of the diagnosis and 3 A "first" declaration by Dr. Valenta is also of record, but not cited by Appellants in this appeal. 4 An obviousness determination requires finding both that a skilled artisan would have been motivated to combine the teachings of the prior art and that the skilled artisan would have had a reasonable expectation of success in doing so. Intelligent Bio-Sys., Inc. v. Illumina Cambridge Ltd., 821 F.3d 1359, 1367 (Fed. Cir. 2016). 6 Appeal2017-001790 Application 11/929,498 immunotherapy of mosquito allergy, and studies of mechanisms of mosquito-transmitted diseases. Simons 2:35-38. The present invention also provides an immunoassay for measurement of mosquito salivary allergen-specific IgE and IgG using recombinant mosquito salivary allergen as the substrate to which the allergen-specific IgE and IgG binds. Id. at 4:24--28. Thus, even if Dr. Valenta is correct that an allergen extract might not have reasonably been expected to accurately detect IgE on a microarray, he did not address the disclosure in Simons, as applied by the Examiner, which teaches one of ordinary skill in the art that single isolated allergens improve IgE detection in samples. Based on Simons, one of ordinary skill in the art would have known that an extract having multiple proteins would have considerably less of each antigen than a single protein spot described in Wagner. Simon 2: 13-28. Consequently, while we have considered Dr. Valenta's testimony in paragraphs 5 and 9 of his Declaration, we do not find it persuasive because he did not provide adequate evidence or reasoning as to why the single recombinant allergens described in Simons would have the same alleged detection problem, when used in Wagner's microarray, as compared to an allergen extract comprised of a plurality of different allergens. Dr. Valenta also testified in his Declaration that there was a lack of a reasonable expectation of success because allergen testing for IgE was performed using large capacity surfaces such as the Pharmacia CAP System, while Wagner does not have the large capacity to detect IgE. Second Valenta Deel. ,r,r 6, 9. To support this position, Dr. Valenta cites the Yman (1990) and Yman (1991) publications. Id. ,r 7. Dr. Valenta states: 7 Appeal2017-001790 Application 11/929,498 Figure 1 (page 198) of Y man 1991 shows a substrate with increased capacity binds greater IgE. Specifically, the highest capacity substrate, ImmunoCAP, had better IgE binding than an activated paper disk (a RAST test), and the RAST had higher capacity and better IgE binding than a passive coated tube, which is similar to a microtiter plate. Y man 1991 concludes that a high capacity solid phase minimizes the risk of underestimation of the (gE antibody as a result of IgG and IgE competition for the same binding sites (pages 201-202). Figure 8 (page 202) of Yman 1991 shows that the low capacity substrates employed in tests x and z bound 45-90% less IgE as compared with the high capacity substrates. Id. ,r 7 ( emphasis added). Dr. Valenta also cited evidence that "ImmunoCAP employs about 10,000,000 times more allergen than a microarray spot" and stated that the "increased concentration of a pure allergen as compared with an extract does not compensate for the significant decrease in the amount of allergen in a microarray spot as compared with the amount of allergen in the ImmunoCAP." Id. ,r 13. Dr. Valenta also cited Yman (1990): Y man 1990 teaches that while allergen concentration and composition, anti-IgE, labeling and detector parameters are factors determining the signal to noise ratio of an immunoassay for IgE detection, "the critical factor is the solid phase which serves as a support of a double immune reaction (allergen-IgE and IgE-anti-IgE)" and "irrespective of where the solid phase is involved during the test, only a solid phase with a high specific binding capacity and low unspecific interference provides the basis for a sensitive assay with a broad measuring range" (English translation, page 2). Second Valenta Deel. ,r 13. Dr. Valenta places importance on Yman's teachings regarding its high capacity ImmunoCAP system. However, while the Pharmacia ImmunoCAP system is described as "a sensitive and specific quantitative assay for 8 Appeal2017-001790 Application 11/929,498 allergen-specific IgE antibodies" (Yman (1990) 11), it was not the only system known in the prior art that was capable of detecting IgE antibodies in the presence ofigG. Yman (1990) compared its new ImmunoCAP system to a lower capacity system, Phadebas RAST, which had been a "routine test system" for IgE antibodies. Yman (1990) 1. Pharmacia's ImmunoCAP system was designed to provide increased and enhanced sensitivity as compared to Phadebas RAST. Id. Yman lists himself as an employee of Pharmacia and, thus, it is reasonable to expect that his publications were aimed at least in part at showing the advances of the new Pharmacia IgE assay, not necessarily as addressing the IgE detection prior art. Id. Consistently, Y man (1990) states: "Based on many years of experience in the development and preparation of immunoassays, Pharmacia has developed a new generation after Phadebas RAST with a new solid phase." Id. at 2. Moreover, as acknowledged by Dr. Valenta (Second Valenta Deel. ,r 7), Y man (1991) expressly teaches that "low-capacity" tests were available to "catch specific IgE antibodies." Yman (1991) 202 (Fig. 8). Figure 8 of Yman (1991) is reproduced below: 9 Appeal2017-001790 Application 11/929,498 -a tro C: 100 ;;I Q ,0 :1\ ..0 < UJ 9 s ..... ~~ Q ~ c.:. ll!l 201 cf. I} I ) 0 ~ I '1 ll gll Tlmollly ;sol!en -0 Tesix Testz ' ; j I . I ! .. '~ ~l 20 ~o 4 ti 50 60 % added rabbit ant l~timoth y antiserum Figure 8 Analysis cf relatfoe allergen exces$ in. four commercial tt!MS measured as sensitivity to inter- ference h;! igG ,mtibodies competing for the st.mealier- gen. Tests x and z u.tWze lm:u-capa.city supports to cllich sp~,cific IgE. 1mtibodit-s or complex.es. Figure 8 ofYman (1991) shows a percentage ofigE antibody bound in the CAP System, Phadebas RAST, Test x, and Testy. Tests x and y are characterized by Yman (1991) as "low-capacity supports to catch specific IgE antibodies or complexes." With respect to Figure 8, Yman (1991) states that the "Pharmacia CAP System is much less sensitive" to IgG interference "than tests utilizing low-capacity solid phases as carrier of allergen or for the catching of soluble allergen-IgE complexes (Figure 8)." Y man ( 1991) 202. Thus, while the high capacity CAP system is stated to be more sensitive and specific (id. at 203), Y man (1991) did not conclude that the "low-capacity supports" for allergen did not work in detecting IgE. Rather, Figure 8 of Y man ( 1991) confirms IgE detection in antiserum comprising IgG using "low-capacity" supports, which are characterized as "commercial tests." Despite the express disclosure in Y man ( 1991) of the ability of low capacity supports to detect IgE, Dr. Valenta states there was no reasonable expectation of success that a microarray chip could be used to successfully 10 Appeal2017-001790 Application 11/929,498 measure IgE in a sample. Second Valenta Deel. ,r 6. Dr. Valenta states that, "Wagner's microarray does not have the large capacity substrate Yman taught, and was understood in the allergy art, as necessary for accurate IgE detection." Id. ,r 9. Firstly, Dr. Valenta assumes, but does not provide evidence, that the microarray of Wagner is low capacity when a single allergen as claimed is utilized as the spot in a microarray chip. Secondly, and more significantly, Dr. Valenta's statement ignores Y man ( 1991) 's disclosure that low-capacity supports could detect IgE antibody. Y man (1991) 202 (Fig. 8). While higher capacity systems may be more accurate and sensitive, the evidence of record is that low capacity systems could successfully detect an IgE antibody. Id. The rejected claims do not require a specific degree of sensitivity. Moreover, Dr. Valenta did not establish that Wagner's microarray is lower capacity than the low- capacity supports shown in Figure 8 ofYman (1991) nor did Dr. Valenta adequately distinguish the capacity of the array in Wagner from the capacity of other tests in the prior art. For example, in addition to the commercial tests described in Wagner's Figure 8, the '498 Specification acknowledges that "there are various in vitro methods for diagnosing allergies which detect the presence of IgE or IgG antibodies in the blood of a patient." '498 Spec. 4. The '498 Specification discloses ELISA, Western blots, and RAST tests (id.) and four patent publications describing assays used to test for IgE (id. at 4--5). Thus, while ImmunoCAP may hold 10,000,000 times more allergen than a microarray spot (Second Valenta Deel. ,r 13), such a difference is not necessarily indicative of other prior art tests used to successfully detect IgE mentioned by Yman (1991) (low-capacity and RAST) and disclosed in 11 Appeal2017-001790 Application 11/929,498 Appellants' own Specification. Thus, Dr. Valenta's focus on the large capacity of the ImmunoCap system ignores the low capacity supports of Yman (1991), the RAST assays, and the inventor's own disclosure in the '498 Specification of alternative IgE tests. For the above-mentioned reasons, we do not agree that a preponderance of the evidence supports Appellants' statement that "the state of the art at the time of the invention understood that a large capacity substrate was needed for IgE screening and allergy." Appeal Br. 18 (emphasis added). To the contrary, the evidence of record shows that alternatives existed in the prior art to detect IgE, including low-capacity supports that would have been known to one of ordinary skill in the art. Dr. Valenta states that the Y man publications, rather than Calenoff, show the state of the prior art. Second Valenta Deel. ,r 8. However, as discussed above, it is admitted that other IgE tests existed in the prior art to measure IgE (Spec. 4--5), and Yman (1991) expressly shows low-capacity and RAST tests for IgE antibodies in antiserum, in addition to ImmunoCAP. Thus, there is no dispute that Calenoff is not representative of the prior art at the time of the invention for IgE testing. However, the Y man publications are not representative of the prior art either, because they are largely directed to a discussion of ImmunoCAP and its properties, rather than a review of the prior art, which includes additional IgE tests, such as those described in the '498 Specification. Dr. Valenta further states that "[a]s one skilled in the allergy and IgE detection art, I would not have had any reason to combine Calenoff and Wagner or to try to use Calenoff's allergen extracts in Wagner's microarray to detect IgE in a blood sample." Id. ,r 9. Dr. Valenta also states that 12 Appeal2017-001790 Application 11/929,498 "Simons provides nothing that would have caused one of ordinary skill in the art to not follow Yman's direction to use a large capacity substrate for IgE detection, or to use single purified allergens, rather than a standardized extract, for IgE detection." Id. ,r 12. Dr. Valenta's arguments do not persuade us that the Examiner erred. The rejection does not involve using Calenoff's allergens, but rather the recombinant allergens described in Simons. The Examiner provided a logical reason to apply Simons' methods to Calenoff s allergens, namely, to improve diagnosis and facilitate allergy studies. Final Act. 7. Dr. Valenta does not identify a flaw in this reasoning. Furthermore, while Y man ( 1991) teaches using high capacity supports, Wagner describes microarray technology and discloses that it can be used for antibody/antigen detection (Wagner ,r 125), and the additionally cited Fodor patent specifically mentions using its arrays to detect IgE antibodies (Fodor 64:40-41, 113:27-25). Thus, one of ordinary skill in the art had reason to tum to Wagner's disclosed technology for IgE detection for the advantages described by the Examiner, e.g., for high throughput screening and for screening a plurality of proteins in parallel. Final Act. 5- 6, 8. Appellants did not identify a defect in this reasoning, but instead argue that Wagner does not teach allergen arrays or assays for IgE. Appeal Br. 12. However, as indicated above, the disclosures of Wagner and Fodor would have reasonably suggested using a microarray chip to achieve high throughput and parallel screening of a plurality of allergens for IgE. Dr. Valenta acknowledges the disclosure in Fodor of screening allergic reactions or susceptibilities and a simple IgE specificity test useful in determining a spectrum of allergies and at column 113 to an immobilized set of antigens attached to a 13 Appeal2017-001790 Application 11/929,498 solid substrate on which a blood sample may be assayed to determine the presence of antibodies, e.g., IgE or other type antibodies. Second Valenta Deel. ,r 11. Dr. Valenta disparages this teaching by stating that it "only show[ s] a desire by one not knowledgeable in IgE detection to be able to use array technology for IgE detection" and one of ordinary skill in the art would not have followed Fodor in view of Yman's teaching of high capacity substrates as "required for accurate IgE detection." Id. The claimed method does not require a level of sensitivity or accuracy. Thus, Dr. Valenta's argument regarding these properties is not persuasive since these features are not limitations of the claims. In addition, as already discussed, particularly in view of Figure 8 of Y man ( 1991 ), and the admitted prior art in the '498 Specification, Appellants did not establish that the so-called high capacity substrates were required for IgE detection. For this reason, we do not agree that the evidence supports Dr. Valenta's testimony that one of ordinary skill in the art would have ignored Fodor's teaching. Furthermore, as to the wish or desire of Fodor to use its microarray for IgE detection, Dr. Valenta did not provide evidence that the microarray technology, using a small volume of serum as compared to protein on a spot, is low-capacity when compared to the amount of IgE in a serum sample, i.e., when the ratio of single protein to serum is taken into account. Dr. Valenta also did not explain or address the fact that Y man ( 1991) provides evidence that low capacity supports could detect IgE. Consequently, the Examiner's determination that there was a reasonable expectation of success that Wagner's array could be used successfully to detect IgE is not inconsistent with Y man ( 1991 ). 14 Appeal2017-001790 Application 11/929,498 Appellants argue that the skilled worker would not have used Wagner's microarray technology to detect IgE because one of ordinary skill in the art of IgE detection, having familiarity with the challenges and techniques of conventional [allergen-specific] IgE screening of serum samples due to the abundance of IgG, and with the large capacity (high surface area) substrate devices used at the time of the invention, would have recognized that Wagner's protein arrays do not provide a high surface area substrate or the high immobilized allergen capacity that was generally understood by those of ordinary skill in the art as necessary for IgE detection, and, specifically, allergen-specific IgE screening, in serum samples. Appeal Br. 13. As already discussed, this argument disregards Dr. Valenta's own statement that "Yman 1991 shows that the low capacity substrates employed in tests x and z bound 45-90%, less IgE as compared vvith the high capacity substrntei' (Second Valenta DecL 17\ indicating that the low-capacity supports loaded with allergen detected IgE in sernrR T11is argument also does not address the admitted prior art in the Specification, which is part of the scope and content of the prior art, prior art the inventors knew about and disclosed. Indeed, Dr. Va1enta stated he read and understood the patent application, which included this admitted prior art, and wou1d be expected to be aware of various methods of IgE detection given his 25 years of experience. id. if~[ L 3. \Ve have uiven Dr. Vaknta's testimonv in his second Declaration full a J consideration, including his statement that it was a surprise to him that "lgE to microarray chip-bound allergens could be measured.'' Second Valenta Dec L 1 13, However; De Valenta did not address his own statements about the teaching in Yrnan (1991) of1ovv-capacity supports and the disclosure in 15 Appeal2017-001790 Application 11/929,498 the ~493 Specification of alternative screens for JgE. Nor did Dr. Valenta provide a persuasive scientific explanation for his statement that pure allergen as compared to an extract would not have compensated for the reduced protein in a rnicroarray chip, Second Valenta DecL 1 13. Teaching Away Appellants contend that "by teaching a need for a large capacity substrate to accurately screen for IgE, Y man teaches away from the use of a small capacity substrate." Appeal Br. 23 (discussing Yman (1991)). Furthermore, Appellants state: Since a microarray is a small capacity substrate, smaller even than the small capacity substrates tested by Y man, Y man teaches one of ordinary skill in the art away from the ... [use] of a microarray ... to accurately screen for IgE [in a serum sample]. Id. ( also discussing Y man ( 1991)). As discussed above, Appellants did not provide evidence that the microarray of Wagner is smaller in capacity that the low capacity substrates of Y man ( 1991 ). Dr. Valenta did not provide testimony on this issue. An argument made by counsel in a brief does not substitute for evidence lacking in the record. Estee Lauder, Inc. v. L 'Orea!, S.A., 129 F.3d 588, 595 (Fed. Cir. 1997). We agree with Appellants that Yman (1990) and Yman (1991) would have led one of ordinary skill in the art to choose a solid support with a high and stable binding capacity. However, as discussed by the Examiner, one of ordinary skill in the art would also have had reason to pursue the microarray technology described in Wagner to achieve a high throughput screen of a plurality of allergens in parallel using smaller volumes of serum. Ans. 21. 16 Appeal2017-001790 Application 11/929,498 As acknowledged by Appellants, Fodor provides an explicit suggestion to carry out IgE screening using microarray technology. Ans. 25-26; Appeal Br. 21. Appellants' argument that Wagner/Fodor should be ignored because the latter were not experts in the relevant technology of IgE screening and Y man teaches using high capacity supports overlooks the fact that there are other goals to be fulfilled in the field of allergen screening. One such goal is reflected in the teaching of Calenoff, which describes testing for IgE in microtiter plates having a plurality of test wells (Calenoff 3 :59---68), enabling parallel and high throughput processing of multiple different allergens at the same time. Wagner's microarrays are an advancement over the previously used microtiter format of Calenoff. Final Act. 6. Thus, one of ordinary skill in the art seeking to implement high throughput testing for IgE would have had reason to utilize Wagner's technology. Simply because one goal in IgE testing is to increase accuracy and sensitivity by using high capacity supports does not mean that other goals would be ignored, such as implementing high throughput and parallel screening of a plurality of single allergens for IgE binding. We emphasize that a preponderance of the evidence does not support Appellants' argument that Wagner's teaching is undermined because it allegedly is not high capacity ( a fact that has not been established in this record). Namely, while Yman (1991) refers to a solid phase with high biding capacity as providing "the basis for a sensitive, wide-range assay" (Yman (1991) 198), low capacity supports also worked (id. at 202, Fig. 8). Driven by the goal to implement high throughput allergen screening, it would have been obvious to the skilled artisan to have used the solid support 17 Appeal2017-001790 Application 11/929,498 array described in Wagner for IgE antibody testing. As held by the U.S. Supreme Court in KSR Int 'l Co. v. Teleflex Inc., 550 US 398, 421 (2007): When there is a design need or market pressure to solve a problem and there are a finite number of identified, predictable solutions, a person of ordinary skill has good reason to pursue the known options within his or her technical grasp. If this leads to the anticipated success, it is likely the product not of innovation but of ordinary skill and common sense. In that instance the fact that a combination was obvious to try might show that it was obvious under Â§ 103. Expanding on this analysis, the Court of Appeals of the Federal Circuit in Unigene Labs., Inc. v. Apotex, Inc., 655 F.3d 1352, 1361 (Fed. Cir. 2011) held: To render a claim obvious, prior art cannot be "vague" and must collectively, although not explicitly, guide an artisan of ordinary skill towards a particular solution. Bayer Schering, 575 F.3d at 1347. Indeed, "most inventions that are obvious were also obvious to try," id., and a combination is only obvious to try if a person of ordinary skill has "a good reason to pursue the known options." KSR, 550 U.S. at 421 .... When a field is "unreduced by direction of the prior art," and when prior art gives "no indication of which parameters were critical or no direction as to which of many possible choices is likely to be successful," an invention is not obvious to try. Bayer Schering, 575 F.3d at 1347 ( citing In re O 'Farrell, 853 F.2d 894, 903 (Fed. Cir. 1988)); see also Ortho-McNeil, 520 F.3d at 1364 ( stating the number of options must be "small or easily traversed"). There is inadequate evidence in this record to establish that there were "numerous parameters" to try, that the "prior art teaches merely to pursue a 'general approach that seemed to be a promising field of experimentation' or 'gave only general guidance as to the particular form of the claimed invention or how to achieve it,"' factors militating against a determination 18 Appeal2017-001790 Application 11/929,498 that an invention which was "obvious to try" would have been obvious to one of ordinary skill in art. Pfizer, Inc. v. Apotex Inc., 480 F.3d 1348, 1366 (Fed. Cir. 2007). To the contrary, Wagner and Fodor describe how to make arrays and Calenoff teaches that IgE is detected using anti-IgE antibody (Calenoff 4:43---65). Yman (1991) also teaches anti-IgE antibodies to detect IgE. Y man ( 1991) 203 ("[ A] nti-IgE"). Appellants have not identified any steps or additional direction or guidance not provided by the cited prior art, and known to one of ordinary art at the time of invention, that were necessary to carry out the claimed invention. Appellants' own publication reported "that a single fluorescence-labeled monoclonal anti-human IgE antibody allowed the detection of IgE reactivities to immobilized allergens in serum samples containing high or low total IgE levels as well as allergen- specific IgE levels" (Hiller (in "DISCUSSION" section), the same type of antibody used in the prior art to achieve IgE detection. Summary For the foregoing reasons, we affirm the obviousness rejection of independent claims 66 and 68. Separate arguments were not provided for claims 39--52, 56, 57, 60, 61, 67, 69--79, 82-84, 87-89, and 91-93, consequently, these claims fall with the independent claims. 37 C.F.R. Â§ 4I.37(c)(l)(iv). 19 Appeal2017-001790 Application 11/929,498 TIME PERIOD No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a)(l )(iv). AFFIRMED 20