13022503 (P.T.A.B. Dec. 30, 2015)

Ex Parte Grayzel et al

Patent Trial and Appeal BoardDec 30, 2015

13022503 (P.T.A.B. Dec. 30, 2015)

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. 13/022,503 02/07/2011 Jeffrey Grayzel SBC-RO-1 6817 56514 7590 12/30/2015 JEFFREY GRAYZEL 262 FOUNTAIN ROAD ENGLEWOOD, NJ 07631 EXAMINER BUI, VY Q ART UNIT PAPER NUMBER 3773 MAIL DATE DELIVERY MODE 12/30/2015 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ________________ Ex parte JEFFREY GRAYZEL and JOSEPH GRAYZEL ________________ Appeal 2015-0042991 Application 13/022,503 Technology Center 3700 ________________ Before EDWARD A. BROWN, JILL D. HILL, and LEE L. STEPINA, Administrative Patent Judges. STEPINA, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Jeffrey Grayzel and Joseph Grayzel (Appellants) seek our review under 35 U.S.C. § 134 from the Examiner’s decision rejecting claims 67– 88.2 Oral hearings were conducted on October 29, 2015, and December 7, 2015. We have jurisdiction over the appeal under 35 U.S.C. § 6(b). We AFFIRM-IN-PART and enter a NEW GROUND OF REJECTION pursuant to 37 C.F.R. § 41.50(b). 2 Claims 1–66 are cancelled. Final Act. 2. Appeal 2015-004299 Application 13/022,503 2 THE CLAIMED SUBJECT MATTER The disclosed subject matter is directed to a stiffened balloon catheter for dilation and stenting. Spec. 1 (Title). Claims 67 and 82 are independent. Claim 67 is illustrative of the claims on appeal and is reproduced below. 67. A stiffened balloon apparatus for use within an anatomic passage comprising: an expandable balloon comprised of a flexible material having one or more longitudinal stiffening members permanently attached to said balloon, said stiffening members being comprised of a material stiffer than the material of said balloon and disposed along longitudinal perimeters of said balloon, wherein at least a portion of at least one of said one or more longitudinal stiffening members is radio-opaque to facilitate determination of the position of said stiffening member. Appeal Br. 23. REFERENCE RELIED ON BY THE EXAMINER Becker US 6,652,568 B1 Nov. 25, 2003 THE REJECTIONS ON APPEAL (I) Claims 67–77 and 79–883 are rejected under 35 U.S.C. § 102(e) as anticipated by, or, in the alternative, under 35 U.S.C. § 103(a) as unpatentable over Becker.4,5 3 The Specification is objected to under 35 U.S.C. § 132(a) as introducing new matter. Final Act. 2. As this matter is an objection, not a rejection, we do not address this issue in this appeal. See MPEP § 1201. However, we note that, although the Examiner treats this issue as an objection, the Examiner refers specifically only to dependent claims 87 and 88. See Final Act. 2. Accordingly, in substance, this issue should have instead been treated as a rejection under 35 U.S.C. § 112, first paragraph, as failing to comply with the written description requirement. See MPEP § 2163.06(II). Appeal 2015-004299 Application 13/022,503 3 (II) Claim 78 is rejected under 35 U.S.C. § 103(a) as unpatentable over Becker. ANALYSIS Rejection (I) Appellants argue claims 67 and 82 together (see Appeal Br. 5–15), and we take claim 67 as representative. The Examiner finds that Becker discloses an “expandable balloon 14 of a flexible polymeric material . . . having one or more longitudinal stiffening members / radiopaque markers / radiopaque layers 26 / 4 The heading of this rejection in both the Final Office action (see Final Act. 3) and the Examiner’s Answer (see Ans. 3) does not list claims 87 and 88, but the discussion on page 5 of the Final Action explains the rejection of claims 87 and 88 as anticipated by Becker and the rejection of claim 88 as unpatentable over Becker. Accordingly, we treat the omission of claims 87 and 88 from the heading of this rejection as a clerical error not affecting the disposition of these claims. Appellants state, “[t]he Applicant is withdrawing claim 87 from the present prosecution.” Id. As stated in MPEP § 1205.02, “[a]n appellant’s brief must present arguments responsive to every ground of rejection stated by the examiner in the Office action from which the appeal has been taken (as modified by any advisory action and/or pre-appeal brief conference decision). See 37 CFR 41.31(c) and 37 CFR 41.37(c)(1)(iv). If a ground of rejection stated by the examiner is not addressed in the appellant’s brief, appellant has waived any challenge to that ground of rejection and the Board may summarily sustain it, unless the examiner subsequently withdrew the rejection in the examiner’s answer. See 37 CFR 41.39(a)(1).” Accordingly, we summarily sustain the rejection of claim 87. 5 We do not address Appellants’ assertion that the Examiner raised a new ground of rejection in the Final Office action (Appeal Br. 11–13; Reply Br. 2–3, 9, 13), because whether an Examiner’s rejection would or would not properly be regarded as a new ground of rejection is a petitionable matter, not an appealable matter, and Appellants had the opportunity to raise this issue by filing a timely Petition to the Director under 37 C.F.R. § 1.181, but did not do so. Appeal 2015-004299 Application 13/022,503 4 radiopaque stripes (not shown) . . . permanently attached along longitudinal perimeters of said balloon” Final Act. 3 (citing Becker, col. 4, ll. 21–25; ll. 52–55)(emphasis omitted). The Examiner further finds that the stiffening members / radiopaque markers 26 / radiopaque stripes (C 4, L 61-63; claim 13) can be [] disposed along the entire length of the balloon or the working length of the balloon. The radiopaque material of Becker is comprised of a radiopaque material, such as a tungsten, or a platinum, or a barium or a bismuth [Becker, col. 4, ll. 48–55)], which tungsten, or platinum is much stiffer than the polymeric material of said balloon. Id. (emphasis omitted). Appellants argue that Becker does not disclose a longitudinal stiffening member as required by claim 67. Appeal Br. 12. Regarding the embodiment taught by Figures 4–6 of Becker, Appellants argue that the radiopaque layer “encompasses the entire circumferential area of the transition regions at either end of the balloon.” Id. at 12. According to Appellants, “[t]his [arrangement in Becker] contrasts with the instant claims which call for ‘longitudinal stiffening members ... disposed along longitudinal perimeters of said balloon’.” Id. at 13. Regarding the balloon disclosed in Figure 4 of Becker, Appellants contend that Becker teaches that the radiopaque layer depicted in Figure 4 “may” increase stiffness, but not that the radiopaque layer does increase stiffness. See id. at 12–13. According to Appellants, when Becker states “this embodiment may increase stiffness in the transition regions” (col. 4, ll. 36–37), Becker is merely speculating. Id. Additionally, citing column 2, lines 42–43 of Becker, Appellants contend, “Becker himself admits that the radiopaque material (stripe [or] otherwise) he applies to his balloon does not Appeal 2015-004299 Application 13/022,503 5 change the properties of the balloon. Thus, it is clear that the Becker stripe does not provide any stiffness whatsoever.” Id. at 13. In response, the Examiner states, “Becker’s member 26/ 30 (F 4-8) extending along the longitudinal axis of Becker’s device qualifies as [a] longitudinal stiffening member as recited in independent claims 67 and 82.” Ans. 16 (emphasis omitted). The Examiner further states, “Becker’s radiopaque material (tungsten, or platinum) is indeed much stiffer than the polymeric material of the balloon.” Id. at 17. The Examiner finds, “at least the stiffening member 26 as shown in F 4, and stiffening member 30 as shown in F 8 will provide additional stiffness to the transition areas (cone areas) of the balloon. Id. (citing Becker, col. 2, ll. 21–26) (emphasis omitted). In reply, Appellants state, “[Appellants agree] with the Examiner that it is the added thickness of Becker’s radiopaque layer that ‘may’ provide added stiffness in the certain areas of the balloon where it is present. And, again, this does not read on the key claim term of the instant independent claims.” Reply Br. 14 (emphasis added). We agree with the Examiner’s finding that Becker discloses a stiffening member. First, as to whether Becker teaches a “longitudinal” member, the Examiner finds that both radiopaque layer 26 and radiopaque material 30 disclosed in Becker qualify as longitudinal members. The Patent and Trademark Office gives claims their broadest reasonable interpretation consistent with the specification, reading claim language in light of the specification as it would be interpreted by one of ordinary skill in the art. In re Am. Acad. of Sci. Tech. Ctr., 367 F.3d 1359, 1364 (Fed. Cir. 2004). In describing a problem with providing a uniform diameter and cross-sectional Appeal 2015-004299 Application 13/022,503 6 area along the length of a stent, Appellants’ Specification states, “[t]his [problem] results from the very nature of such a cylindrical balloon which is made of a thin, flexible membrane and hence can expand radially to different diameters along its longitudinal dimension.” Spec. 1 (emphasis added). Thus, the term “longitudinal” is used in Appellants’ Specification as relating to the length dimension of an object. Neither Appellants’ claims nor Specification set forth a special or alternative definition of the term “longitudinal.” As such, we give the term “longitudinal” its broadest reasonable interpretation in light of the common meaning as understood by one skilled in the art, and in light of the Specification, to mean “placed or running lengthwise.”6 We reproduce a portion of Figure 4 of Becker below. 6 A general dictionary definition of “longitudinal” is “placed or running lengthwise.” MERRIAM-WEBSTER’S COLLEGIATE DICTIONARY (11th ed. 2004). Appeal 2015-004299 Application 13/022,503 7 Figure 4 of Becker is a cross-sectional view of the balloon 14, including radiopaque layer 26 between two layers 27 and 28 of the balloon. “The radiopaque layer 26 may be deposited either on the outer wall of the bottom layer 27, or on the inner wall of the upper layer 28.” Becker, col. 4, ll. 28–31 (emphasis omitted); see also col. 3, ll. 46–47. Figure 4 of Becker depicts radiopaque layer 26 extending in the lengthwise direction of the balloon. As noted by Appellants and shown in Figure 6 of Becker, radiopaque layer 26 encircles the transition region of the balloon. Appeal Br. 11. However, the term “longitudinal” in claim 67 does not preclude a member extending lengthwise and also encircling a portion of the balloon as radiopaque layer 26 does. Moreover, as the Examiner finds (Final Act. 3), Becker also discloses use of radiopaque stripes, which the Examiner equates to stiffening members, along the entire length of the balloon, or along the working length of the balloon. Specifically, Becker states, “[t]he balloon could also have longitudinal stripes of radiopaque material along the entire length, or the working length of the balloon 14 (not shown). Becker, col. 4, ll. 61–63 (emphasis omitted). Accordingly, the Examiner’s finding that Becker discloses longitudinal members is supported by the preponderance of the evidence. As for whether radiopaque layer 26 or radiopaque material 30 qualifies as a stiffening member, we are not apprised of Examiner error. In reference to Figure 4, Becker states: In the embodiment illustrated in FIG. 4, the radiopaque layer 26 extends from the proximal end of the balloon 14 to the proximal end of the stent 16, and then from the distal end of the stent 16 to the distal end of the balloon 14. This embodiment Appeal 2015-004299 Application 13/022,503 8 would show the exact location of the stent during placement. Additionally, this embodiment may increase stiffness in the transition regions. Becker, col. 4, ll. 31–37 (emphasis added, bolding omitted). Although, as Appellants note (see Appeal Br. 13; Reply Br. 13), Becker uses the word “may” in describing an increase in stiffness, this disclosure in Becker is supportive of the Examiner’s finding that radiopaque layer 26 increases stiffness. Further, as noted by the Examiner (see Final Act. 5; Ans. 17, 19), Becker also states: what has been needed is a balloon catheter with improved radiopaque properties to improve placement and visibility of the balloon. Additionally, a balloon catheter with improved stiffness, especially in the transition areas, has also been needed to improve cross ability. The present invention satisfies these and other needs. Becker, col. 2, ll. 21–26 (emphasis added). Thus, Becker indicates a need to improve stiffness, especially in the transition areas, and discloses the present invention does provide the improved stiffness. This statement in Becker regarding “improved stiffness” further supports the Examiner’s finding that radiopaque layer 26 increases stiffness. Appellants contend that a sentence in column 2 of Becker “indicates that none of the radiopaque material applied to Becker’s balloon changes the flexural properties of the balloon.” Appeal Br. 7. We reproduce the entire paragraph of Becker containing the sentence (italicized) at issue below. The thickness of the balloon wall allows for a substantial amount of radiopaque material to be doped into the walls, creating a truly radiopaque balloon. In thinner wall balloons, adding enough radiopaque material to make the balloon easily visible will change the properties of the balloon. The radiopaque layer is about 0.00025 inches to about 0.012 inches for sufficient radiopacity without changing the properties of the Appeal 2015-004299 Application 13/022,503 9 balloon. Specifically, the radiopaque layer is about 0.002 inches to about 0.003 inches. The thick walls additionally allow for addition of other materials to enhance any properties of the balloon. Becker, col. 2, ll. 36–46 (emphasis added). Weighing the above-noted statements in Becker describing the effects of incorporating the radiopaque layer in Becker’s balloon, we are not persuaded that Becker does not teach that the radiopaque layer increases stiffness of the balloon and is therefore not a stiffening member as recited in claim 67. Becker indicates that its invention satisfies the need to increase stiffness in the transition regions. Becker, col. 2, ll. 21–26. Becker explains this achievement in the context of providing radiopacity to a balloon. Id.; see also Abstract. The specific references to increasing stiffness in the portions of Becker quoted above teach that the radiopaque layer increases stiffness. Accordingly, Becker discloses embodiments of the balloon in which stiffness is increased. That another portion of Becker teaches that “the properties” of the balloon are not changed provides, at most, another embodiment in which some unspecified properties of the balloon are not changed. Furthermore, the statement in column 2 of Becker quoted by Appellants and discussing providing a layer “without changing properties” relates to “radiopaque material to be doped into the walls.” Becker, col. 2, ll. 36–38 (emphasis added). In contrast, the paragraph in Becker (supporting the Examiner’s finding) at column 2, lines 26–37, relates to a radiopaque layer that may be deposited on the outer wall of bottom layer 27 or the inner wall of layer 28. Appellants do not direct us to any disclosure in Becker that shows persuasively that the above-noted statement regarding material doped Appeal 2015-004299 Application 13/022,503 10 into walls of a balloon also applies to a radiopaque layer that is deposited on the wall of a balloon. Appellants also contend “if the Examiner’s theory were held to be true (that the stripe itself is stiff) then certain embodiments of the Becker apparatus would be functionally defective.” Appeal Br. 13. Appellants argue, “if the region comprising Becker’s radiopaque ring was indeed stiffer than the balloon material itself, as the Examiner argues, then this circumferential ring would impart increased circumferential stiffness, and significantly inhibit both the expansion and deflation of the balloon.” Id. at 14. According to Appellants, that the radiopaque material in Becker may take the shape of a ring supports a conclusion that the radiopaque material does not impart stiffness to the balloon itself. In this regard, Appellants state, “the Becker ring - and in turn, the stripe - must either have the same stiffness or be less stiff than the Becker balloon material itself in order to allow Becker's balloon to properly inflate and deflate uniformly.” Id. We do not agree with Appellants on this point. First, Appellants do not explain persuasively why a radiopaque layer adding some amount of stiffness to the balloon would necessarily add so much stiffness as to prevent proper functioning of the balloon. Becker discloses stiffness is increased, and does not disclose or suggest the resulting balloon would be unable to inflate and deflate properly—that is, it would be inoperative in any way. Rather, Becker describes the increased stiffening as an improvement. Accordingly, Appellants’ contention is contrary to Becker’s disclosure. Second, as to Appellants’ comments on the stiffness of the stripe relative to the stiffness of the balloon material, Appellants make a comparison not required by claim 67. Specifically, claim 67 recites, in part, Appeal 2015-004299 Application 13/022,503 11 “an expandable balloon comprised of a flexible material having one or more longitudinal stiffening members permanently attached to said balloon, said stiffening members being comprised of a material stiffer than the material of said balloon.” Appeal Br. 23 (emphasis added). The term “comprised of” means “including but not limited to.” See CIAS, Inc. v. Alliance Gaming Corp., 504 F.3d 1356, 1360 (Fed. Cir. 2007) (“Although ‘comprised of’ is not used as regularly as ‘comprising,’ and ‘comprised of’ is sometimes used other than as a ‘transition phrase,’ nonetheless it partakes of long-standing recognition as an open-ended term.”). Appellants’ Specification provides no alternative definition of the term “comprised of.” Thus, the phrase “stiffening members being comprised of a material stiffer than the material of said balloon” requires a stiffening member including, but not limited to, material stiffer than the material of the balloon. In this regard, the term “comprised of” is typically construed differently from “consisting of” and “consisting essentially of.” For example, the phrase “consisting of” excludes any element, step, or ingredient not specified in the claim. In re Gray, 53 F.2d 520 (CCPA 1931). Even if Appellants’ contention that “the Becker ring - and in turn, the stripe - must either have the same stiffness or be less stiff than the Becker balloon material itself” (Appeal Br. 14) is correct, this would not disqualify the stripe from corresponding to a longitudinal stiffening member “comprised of a material stiffer than the material of the balloon,” as claimed. In other words, Appellants’ argument is not commensurate with the scope of claim 67 because it is not the stiffness of the stiffening member that is required to be compared to the material of the balloon in claim 67, but rather, it is stiffness of the material included in the stiffening member that is compared. Appeal 2015-004299 Application 13/022,503 12 Appellants also refer to an Affidavit by Dr. Joseph Grayzel (“Affidavit”), one of the inventors of the present Application.7,8 Appeal Br. 14–15. Appellants argue, “[t]he affidavit states that Becker’s formulated slurry consists of a mixture of organic polymer and radiopaque materials in powdered form. This particulate dispersion is devoid of the physical properties characteristic of solid metal, or metal in crystalline form.” Appeal Br. 14. Appellants further contend, “[t]he powdered metals are not reacted with the polymer, nor otherwise chemically bound to the polymer's molecules. Thus, the powdered metals behave as inert fillers which degrade the physical properties of the polymer.” Id. In further reference to the Affidavit, Appellants assert, “[t]his expert opinion states that that the radiopaque ‘stripe’ or ‘layer’ which Becker employs is less stiff than the material of Becker’s balloon made of 100% polymer.” Id. at 15. Citing the Affidavit as support, Appellants contend, “[i]t is not appropriate for the Examiner to compare a single particle of tungsten with a single particle of polymer. He has erred by not viewing the stiffening member as the discreet structure that it is to compare it to the stiffness of the balloon material itself.” Id. During the first oral hearing, Appellants argued the stiffness of the stiffening member, as a whole, should be considered, not the stiffness of a 7 Filed on October 6, 2014. 8 Although this document bears the title “AFFIDAVIT” and uses this word multiple times, this document does not bear any indication of a sworn statement other than the words “Sworn to by” in the signature block. Because the Examiner and Appellants use the term “Affidavit” in the Examiner’s Answer and Appeal and Reply Briefs, respectively, we use this term in our discussion. Appeal 2015-004299 Application 13/022,503 13 subcomponent material.9 Appellants also make extensive arguments in the Reply Brief directed to whether the radiopaque layer of Becker increases stiffness of the radiopaque layer in Becker and if so, whether the amount of increase is trivial. See Reply Br. 5–14. The Examiner replies that claim 67 requires that “said stiffening member [is] comprised of a material stiffer than the material of said balloon.” Ans. 21 (emphasis omitted). In other words, the correct comparison at issue is the stiffness of material included in the stiffening member(s) relative to the stiffness of the material of the balloon. 9 JUDGE BROWN: Okay. So, in other words, your stiffening member doesn’t have to be 100 percent of this material that’s stiffer than the material (indiscernible)? MR. GRAYZEL: No. I would say that our stiffener as a whole -- I mean we're talking about a unitary stiffener so every portion of that stiffener would be stiffer than the balloon material itself because in order for it to act, if you look in the context of what we’re trying to do there and have a -- have a stiffened portion that pushes up against the lesion within a blood vessel, you’re not sure what portion of that stiffener is going to be pushing up against that lesion, so the entire stiffener has to have this -- almost the entire stiffener -- because we have -- I was going to say the entire stiffener has to have the same properties. But we have certain embodiments there where they show -- where we show cutouts where there are certain portions there that are less stiff, because that we won’t have that flexibility there but every single point along our stiffener is stiffer than the balloon material itself. Tr. 12 (Oct. 29, 2015). Appeal 2015-004299 Application 13/022,503 14 Accordingly, the conclusion in the Affidavit, that the radiopaque stripe is less stiff than the material of the balloon in Becker, does not address the relevant question before us. Rather, the question at hand is whether the radiopaque layer of Becker includes a material stiffer than the material of the balloon. Nor are we apprised of error in the Examiner’s finding that Becker fully meets this limitation [regarding the stiffness of material included in the stiffening member] because the stiffening member[] 26 of Becker is indeed comprised of 70- 90% of tungsten, or platinum particulates dispersed in solid 10- 30% polymer (Becker: C 3, L 10-21; F 7), and tungsten, or platinum is much stiffer than the polymer of said balloon. Ans. 21 (emphasis omitted). The Affidavit states that the radiopaque layer “regions” in Becker “are very thin layers of a slurry” and “[t]he nature of the radio-opaque slurry is central to the relevance of Becker ’568 to the present application #13/022,503 for US letters patent.” Affidavit 3. Further, the Affidavit states, “Becker’s formulated slurry consists of a mixture of organic polymer and radio-opaque materials in powdered form, such materials being powdered radio-opaque metals. Hence, they are devoid of the physical properties characteristic of solid metal, or metal in crystalline form.” Id. (emphasis added). The Affidavit does not explain how the conclusions noted above regarding Becker were reached. Becker does not mention a “slurry,” and Appellants do not identify any disclosure in Becker, or provide any other persuasive evidence, that shows such a slurry is necessarily used in Becker. In other words, the conclusion in the Affidavit that Becker uses a slurry is not supported by persuasive evidence. Moreover, Becker does not teach that Appeal 2015-004299 Application 13/022,503 15 its radiopaque layer, which may be deposited on the wall of the balloon (col. 4, ll. 28–31), is in the form of a powder on the balloon wall, much less only a powder. Affidavits/declarations are entitled to little, if any, weight if the opinion is considered by the panel to be unsupported and lacking the underlying facts to support the conclusions. See, e.g., In re Am. Acad. of Sci. Tech. Ctr., 367 F.3d 1359, 1368 (Fed. Cir. 2004) (“[T]he Board is entitled to weigh the declarations and conclude that the lack of factual corroboration warrants discounting the opinions expressed in the declarations”); In re Brandstadter, 484 F.2d 1395, 1406 (CCPA 1973) (holding that affidavits fail in their purpose when they recite conclusions and few facts to buttress the conclusions). In full consideration of the Affidavit, the preponderance of the evidence supports the Examiner’s finding that tungsten and platinum included in the radiopaque layer are stiffer than the material of the balloon. Thus, we are not persuaded by Appellants’ argument that the stiffening member taught by Becker is not comprised of a material stiffer than the material of the balloon. Appellants also contend that Becker’s stripe is entirely radiopaque and “cannot have the property of having only ‘a portion of’ it be radiopaque as stated in the instant claims.” Appeal Br. 15 (emphasis omitted). In response, the Examiner states, “only the portion tungsten, or platinum in Becker’s stiffening member 30 (F 8) is radiopaque while the polymer portion in Becker's stiffening member 30 is not.” Ans. 22. Claim 67 recites, in part, “wherein at least a portion of at least one of said one or more longitudinal stiffening members is radio-opaque to Appeal 2015-004299 Application 13/022,503 16 facilitate determination of the position of said stiffening member.”10 Emphasis added. Further, Appellants’ Specification does not disclaim stiffening members that are entirely radiopaque. For example, the Specification states, “[t]he stiffening members and the projections may be made radio-opaque so that the balloon or the stent may be precisely located by x-ray imaging.” Spec. 6. Under the broadest reasonable interpretation of claim 67 consistent with the standard set forth in In re American Academy of Science Tech Center, we interpret the term “at least a portion of at least one of said one or more longitudinal stiffening members is radio-opaque to facilitate determination of the position of said stiffening member” to require no less than a portion of the one or more longitudinal stiffening members to be radiopaque. We thus do not agree with Appellants’ interpretation that claim 67 requires less than the entire stiffening member to be radiopaque. Rather, claim 67 does not preclude the entire stiffening member being radiopaque. Accordingly, Appellants’ arguments on this point are not commensurate with the scope of claim 67. Based on the discussion above, we sustain the Examiner’s rejection of claim 67 under 35 U.S.C. § 102(e) as anticipated by Becker. Claim 82 falls with claim 67. As our claim construction of claims 67 and 82 with respect to the term “at least a portion” appears to differ pertinently from that relied on by the Examiner (by allowing for the entire stiffening member to be radiopaque), we designate our affirmance of the rejection of claims 67 and 82 a NEW GROUND of rejection in accordance with 37 C.F.R. § 41.50(b). 10 Claim 72 depends from claim 67 and recites, “[t]he stiffened balloon apparatus of claim 67 wherein said stiffening member is radio-opaque along its entire length.” Emphasis added. Appeal 2015-004299 Application 13/022,503 17 Claim 68 The Examiner finds, “stiffening members / radiopaque markers 26 / radiopaque stripes of the stiffened balloon 14 of claim 67 permit a precise determination of an orientation of said expandable balloon.” Final Act. 3. Appellants contend that claim 68 calls for a radiopaque portion, and “the Becker stripe is completely radiopaque and cannot have just a small portion that is radiopaque.” Appeal Br. 16. As we noted above, independent claim 67 recites, in part, “at least a portion of at least one of said one or more longitudinal stiffening members is radio-opaque.” Emphasis added. By placing the words “at least” before “a portion,” claim 67 indicates that a portion of the stiffening member is less than the entire stiffening member. Furthermore, the ordinary meaning of the term “portion” is “a section or quantity within a larger thing; a part of a whole.”11 Accordingly, in accordance with the ordinary meaning of the word “portion” and because dependent claim does 68 not recite “at least” before the recited portion, we interpret claim 68 to require a portion of the stiffening member, but less than the whole stiffening member, to be radiopaque. The Examiner replies that, in Becker, the individual particulates of tungsten or platinum dispersed in solid polymer qualify as radiopaque portions, and the polymer disposed around the particulates is not radiopaque. Ans. 22. We disagree with the Examiner on this point. Claim 68 requires a portion of the stiffening member to be radiopaque. It is not sufficient that the 11 THE AMERICAN HERITAGE® DICTIONARY OF THE ENGLISH LANGUAGE (2007), https://www.ahdictionary.com/word/search.html?q=portion (last visited November 5, 2015). Appeal 2015-004299 Application 13/022,503 18 stiffening member include both radiopaque and non-radiopaque materials.12 Rather, the stiffening member must include a portion (less than the whole) that is radiopaque. In other words, the Examiner does not show by a preponderance of the evidence that it is not the entire radiopaque layer 26 of Becker that is radiopaque. Accordingly, we do not sustain the Examiner’s decision to reject claim 68 as anticipated by Becker. Claims 69–71 Appellants make similar arguments for claims 69–71 as those made for claim 68, and we likewise do not sustain the Examiner’s decision to reject claims 69–71 as anticipated by Becker. Claims 73 and 74 Dependent claim 73 recites, “[t]he stiffened balloon apparatus of claim 67 wherein said stiffening member includes a projection.” Citing Becker, column 3, lines 10–21, the Examiner finds that Becker discloses “radiopaque stiffening member / radiopaque layer 30 / radiopaque stripe deposited on the outside of balloon 14 as an outwardly radial projection, or the radiopaque stripe deposited on inside of balloon 14 as an inwardly radial projection.” Final Act. 4. Appellants argue that the Examiner errs in finding that the radiopaque layer itself qualifies as the recited projection. Appeal Br. 18. We agree with Appellants on this issue in that claim 73 requires the stiffening member to include a projection, which indicates that the projection is a sub-part of the stiffening member and not the entire stiffening member 12 For example, a mud puddle may include both transparent water and opaque soil. Yet, the mud puddle, taken as a whole, may still be opaque, i.e., “clear as mud.” Appeal 2015-004299 Application 13/022,503 19 itself. Accordingly, we do not sustain the Examiner’s rejection of claim 73 and claim 74, which depends from claim 73. Claim 75 Dependent claim 75 recites, “[t]he stiffened balloon apparatus of claim 67 wherein at least one stiffening member comprises a plurality of discontinuous stiffening pieces aligned in a longitudinal row and at least a portion of at least one of said pieces is radio-opaque.” Emphasis added. The Examiner finds, “the balloon 14 (F 4) has at least one stiffening member compris[ing] two radiopaque stiffening pieces / layers 26 one at proximal end and one at distal end aligned in a longitudinal row.” Final Act. 4. Appellants argue that “the Becker stripe is completely radiopaque and cannot have just a portion that is radiopaque.” Appeal Br. 18. We do not agree with Appellants’ argument. We interpret the term “at least a portion” to require no less than a portion, and being sufficiently broad to not preclude the entire stiffening member being radiopaque. Accordingly, Appellants’ contention that a completely radiopaque stiffening member does not have at least a radiopaque portion is not commensurate with the scope of claim 75. Thus, we sustain the Examiner’s rejection of claim 75. Claim 83 Appellants make the same arguments for claim 83 as those made for claim 68. Appeal Br. 18. For the reasons discussed above regarding the rejection of claim 68, we do not sustain the Examiner’s rejection of claim 83. Appeal 2015-004299 Application 13/022,503 20 Claim 86 Claim 86 recites, “said stiffening members are comprised of metal, plastic, composite or fiber material” (emphasis added). The Examiner finds, “radiopaque marker 26, or 30, or stripe (not shown) [is] comprised of at least radiopaque metal such as tungsten, platinum (C 4, L 48-55).” Final Act. 5. Appellants argue, “[c]laim 86 calls for the stiffening member to be ‘comprised of metal, plastic, composite or fiber material.’ Nowhere in the Becker ‘568 specification does he show his stripes comprised of a metal, plastic, composite or fiber material.” Appeal Br. 18. We do not agree with Appellants on this point. Appellants do not explain persuasively how the Examiner’s finding is incorrect. As discussed above, the phrase “comprised of” means including, but not limited to. Becker discloses that the radiopaque material “suitable for this invention” may be any of various metals, including tungsten and platinum. Becker, col. 4, ll. 48–52. These metals are also included in Becker’s stripes. Accordingly, the Examiner’s finding is supported by a preponderance of the evidence. We sustain the rejection of claim 86. Claim 87 Appellants present arguments contesting the rejection of claim 87 in the Reply Brief. Reply Br. 15–16. However, these arguments were not earlier presented in the Appeal Brief. See Appeal Br. 18–19. In fact, as noted above, Appellants indicate in the Appeal Brief that claim 87 is withdrawn. Moreover, the rules applicable to the present appeal provide: Any argument raised in the reply brief which was not raised in the appeal brief, or is not responsive to an argument raised in the examiner's answer, including any designated new Appeal 2015-004299 Application 13/022,503 21 ground of rejection, will not be considered by the Board for purposes of the present appeal, unless good cause is shown. 37 C.F.R. § 41.41(b)(2) (2014). Appellants do not provide any explanation for the failure to present arguments in the Appeal Brief contesting the rejection of claim 87. The arguments contesting this rejection, raised for the first time in the Reply Brief, are also not responsive to an argument raised in the Examiner’s Answer. As such, Appellants do not show good cause for the Board to consider these new arguments presented for the first time in the Reply Brief. Accordingly, we sustain the Examiner’s rejection of claim 87 as anticipated by Becker. Claim 88 The Examiner finds, Becker’s F 4 shows two separate radiopaque layers 26, one at the proximal cone and one at the distal cone of balloon 14. Becker does not explicitly disclose[] different rigidity of the two layers 26. Inherently, these two separate radiopaque layers 26 must have some degree of difference in rigidity as they are different elements. Final Act. 5; see also Reply Br. 3. Appellants contend, “Becker’s stripes are shown to be uniform and he does not teach any variations in the stripe within a single balloon.” Appeal Br. 19. We agree with Appellants on this issue, the Examiner’s finding that radiopaque layers 26 must have some degree of difference in stiffness is not supported by the preponderance of the evidence. Accordingly, we do not sustain the Examiner’s rejection of claim 88 as anticipated by Becker under 35 U.S.C. § 102(e). Appeal 2015-004299 Application 13/022,503 22 Claims 72, 76, 77, 79–81, 84, and 85 Appellants do not make separate arguments for dependent claims 72, 76, 77, 79–81, 84, and 85. Accordingly, these claims fall with independent claim 67 or 82. Rejection (I); unpatentability of claim 88 under 35 U.S.C. § 103(a) As an alternative ground of rejection for claim 88, the Examiner reasons, “[i]t would have been obvious to one of ordinary skill in the art at the time of the invention to make one layer 26 more rigid than the other balloon layers 27 & 28, for example, to make the proximal end and the distal end of balloon 14 with layers 26 [] stiffer than the body of balloon 14 for more cross ability of catheter 13 in a blood vessel.” Final Act. 5. In Appellants’ Summary in the Appeal Brief, apparently related to Becker in general, Appellants state, “Becker ’568 contains only three relevant statements in the entire reference that are pertinent in showing that this prior art reference is non-analogous art.” Appeal Br. 19. To the extent this contention may pertain to this rejection, we do not agree with Appellants on this issue inasmuch as both Becker and Appellants’ claimed invention relate to balloon catheters, and especially, radiopaque components of balloon catheters.13 Thus, Becker is in the same field as Appellants’ invention. We are not persuaded Becker is non-analogous art. 13 Our reviewing court has set forth a two-prong test for determining whether a prior art reference is analogous: (1) whether the reference is from the same field of endeavor as the claimed invention, and (2) if the reference is not within the same field of endeavor, whether the reference is reasonably pertinent to the particular problem with which the inventor is involved. In re Klein, 647 F.3d 1343 (Fed. Cir. 2011). Appeal 2015-004299 Application 13/022,503 23 Appellants do not make separate arguments for patentability against the alternative rejection of claim 88 as unpatentable over Becker under 35 U.S.C. § 103(a). See Appeal Br. 19; Final Act. 5. Accordingly, we sustain the Examiner’s decision to reject claim 88 as unpatentable over Becker. Rejection (II); unpatentability of claim 78 under 35 U.S.C. § 103(a) Appellants do not make separate arguments for patentability against the obviousness rejection of claim 78 as unpatentable over Becker. See Appeal Br. 18; Final Act. 5–6. Accordingly, we sustain the Examiner’s decision to reject claim 78 as unpatentable over Becker. DECISION We affirm the rejection of claims 67, 72, 75–82, and 84–87 as anticipated by Becker. We reverse the rejection of claims 68–71, 73, 74, 83, and 88 as anticipated by Becker. We affirm the rejection of claims 78 and 88 as unpatentable over Becker. Because in some instances the reasoning relied on by the Board to sustain the rejections of claims 67, 72, 75–82, and 84–88 differs from the facts and reasoning relied on by the Examiner, we designate our affirmance of the rejections of these claims as a NEW GROUND OF REJECTION so as to provide Appellants with a full and fair opportunity to respond to the thrust of the rejections. This decision contains a new ground of rejection pursuant to 37 C.F.R. § 41.50(b). 37 C.F.R. § 41.50(b) provides “[a] new ground of Appeal 2015-004299 Application 13/022,503 24 rejection pursuant to this paragraph shall not be considered final for judicial review.” 37 C.F.R. § 41.50(b) also provides that Appellant, WITHIN TWO MONTHS FROM THE DATE OF THE DECISION, must exercise one of the following two options with respect to the new grounds of rejection to avoid termination of the appeal as to the rejected claims: (1) Reopen prosecution. Submit an appropriate amendment of the claims so rejected or new evidence relating to the claims so rejected, or both, and have the matter reconsidered by the Examiner, in which event the proceeding will be remanded to the Examiner. . . . (2) Request rehearing. Request that the proceeding be reheard under § 41.52 by the Board upon the same record. . . . No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). See 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED-IN-PART; 37 C.F.R. § 41.50(b) mls