14696466 - (D) (P.T.A.B. Aug. 29, 2019)

Steven Sounyoung. Yu

Patent Trials and Appeals BoardAug 29, 2019

14696466 - (D) (P.T.A.B. Aug. 29, 2019)

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. 14/696,466 04/26/2015 Steven Sounyoung Yu MedHMD-11 2003 65881 7590 08/29/2019 STEVEN YU 9810 Cresence Way Fairfax, VA 22032 EXAMINER YANG, YI-SHAN ART UNIT PAPER NUMBER 3793 MAIL DATE DELIVERY MODE 08/29/2019 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 STEVEN SOUNYOUNG YU ____________________ Appeal 2018-007416 Application 14/696,466 Technology Center 3700 ____________________ Before JENNIFER D. BAHR, MICHELLE R. OSINSKI, and JILL D. HILL, Administrative Patent Judges. OSINSKI, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Steven Sounyoung Yu (“Appellant”)1 appeals under 35 U.S.C. § 134(a) from the Examiner’s decision rejecting claims 1, 2, 4, 10, 11, 13, 14, 17, and 21–32.2 We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 Appellant is identified as the real party in interest. Appeal Br. 3. 2 Claims 3, 5–9, 12, 15, 16, and 18–20 are cancelled. Appeal Br. 19–20 (Claims App.). Appeal 2018-007416 Application 14/696,466 2 THE CLAIMED SUBJECT MATTER Claim 1, the sole independent claim, is reproduced below and is representative of the claimed subject matter. 1. A method of performing an ultrasound-guided needle or catheter procedure on a patient’s body, comprising: wearing a head-mounted image display apparatus that is in communication with an ultrasound apparatus, wherein the head- mounted image display apparatus provides real-time video images from the ultrasound apparatus; positioning a needle or catheter at a skin site on the patient’s body; advancing the needle or catheter into the patient’s body through the skin site while simultaneously, directly viewing the needle or catheter procedure and viewing the real-time video images from the ultrasound apparatus to guide the needle or catheter into the patient’s body. EVIDENCE The Examiner relied on the following evidence in rejecting the claims on appeal: Yoshikazu Tsuno, Shimadzu Lightweight Head Mount Display Dataglass 2, Yoshikazu Tsuno/AFP/Getty Images (2003) (“Yoshikazu”) Luigi Lugmayr, Shimadzu Dataglass 3/A HMD is for Modern Day Pirates, News/Portable Devices (July 17, 2007) (“Lugmayr”) Hiroshi Sekiyama et al., Design and Evaluation of a Head-Mounted Display System for Ultrasound Guided Regional Anesthesia, Proceedings of the 2009 Annual Meeting of the American Society Anesthesiologists, A933 (Oct. 19, 2009) (“Sekiyama”) Frederic Lardinois, Move Over 1024x768: The Most Popular Screen Resolution On The Web Is Now 1366x768, http://techcrunch.com (Apr. 11, 2012) (“Lardinois”) Patacsil Poland US 6,132,379 US 2010/0168576 A1 Oct. 17, 2000 July 1, 2010 Appeal 2018-007416 Application 14/696,466 3 THE REJECTIONS I. Claims 1 and 2 stand rejected under 35 U.S.C. § 102(a)(1) as anticipated by Sekiyama. Final Act. 3–4.3 II. Claim 4 stands rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama and Patacsil. Id. at 4–5. III. Claims 10, 21, and 22 stand rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama and Poland. Id. at 5–6. IV. Claims 11, 13, and 23 stand rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, and Yoshikazu. Id. at 6–7. V. Claims 14 and 17 stand rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, and Lugmayr. Id. at 7–10. VI. Claims 24 and 29 stand rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Yoshikazu, and Patacsil. Id. at 10–11. VII. Claims 25–28 stand rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, and Patacsil. Id. at 11–12. 3 Even though the Examiner included claims 10 and 14 in the heading for this rejection (Final Act. 2), the Examiner failed to make reference to claims 10 and 14 within the body of the rejection and instead included separate rejections, under 35 U.S.C. § 103, of claim 10 as unpatentable over Sekiyama and Poland (id. at 5–6) and claim 14 as unpatentable over Sekiyama, Poland, and Lardinois (id. at 7–9). Inclusion of claims 10 and 14 in the heading is considered to be a typographical error, and it does not appear that claims 10 and 14 are subject to a ground of rejection based only on Sekiyama. Accordingly, we do not list claims 10 and 14 in this ground of rejection. Appeal 2018-007416 Application 14/696,466 4 VIII. Claim 30 stands rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, and Patacsil. Id. at 12–13. IX. Claim 31 stands rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, and Yoshikazu. Id. at 13. X. Claim 32 stands rejected under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, Yoshikazu, and Patacsil. Id. at 13–14. OPINION Rejection I The Examiner finds, among other things, that Sekiyama discloses a head-mounted image display apparatus that provides real-time video images from medical imaging equipment. Final Act. 3. Appellant argues that one of ordinary skill in the art would not understand the claim term “real-time video images” to encompass video images suffering from a “time-lag of approximately 1s” as is the case in Sekiyama. Appeal Br. 6–7 (quoting Sekiyama ¶ 3). Appellant asserts that “[f]or clinical ultrasound imaging to be considered ‘real-time,’ the latency must be less than 300 ms (milliseconds) . . . [a]nd most preferably, less than 30 ms.” Id. at 7. The words of a claim are given their ordinary and customary meaning as understood by a person of ordinary skill in the art when read in the context of the Specification and prosecution history. See Phillips v. AWH Corp., 415 F.3d 1303, 1313 (Fed. Cir. 2005) (en banc); see also In re Am. Acad. of Sci Tech Ctr., 367 F.3d 1359, 1364 (Fed. Cir. 2004) (the scope of Appeal 2018-007416 Application 14/696,466 5 the claims in patent applications is determined not solely on the basis of the claim language, but upon giving claims “their broadest reasonable interpretation consistent with the specification” and “in light of the specification as it would be interpreted by one of ordinary skill in the art.”). As pointed out by the Examiner, “[t]he [S]pecification does not further define ‘real-time’ other than to state that the user must be able to view the images while viewing the procedure” and “[t]he [S]pecification does not specify or mention at all any information in regard to any acceptable time scale in order to achieve such a simultaneous viewing.” Ans. 15. More particularly, the Examiner points out that “[t]he [S]pecification does not explicitly or inherently disclose[] or infer in any way that such a real-time video imaging display cannot be achieved with any particular time latency.” Id. Because the Specification does not provide a lexicographic definition of “real-time,” Appellants turn to extrinsic evidence in support of their claim interpretation of “real-time.” In support of “real-time video images” meaning video images in which the latency is less than 300 ms, and preferably less than 30 ms (Appeal Br. 7), Appellant submits evidence in the form of (1) R. S. H. Istepanian and N. Philip, Optimisation Issues of High Throughput Medical Data and Video Streaming Traffic in 3G Wireless Environments, Medical and Care Compunetics 2 (L. Bos et al. (Eds.)) (2005) (hereinafter “Istepanian”); 2) Richard J. Tobias, Wireless communication of real-time ultrasound data and control, Medical Imaging 2015: Ultrasonic Imaging and Tomography (Johan G. Bosch, Neb Duric (Eds.), Vol. 9419 (2015) (hereinafter “Tobias”); and (3) a Declaration of Gabriel M. Kim, MD, MSE Under Rule 132 (hereinafter “Declaration” or “Decl.”) Appeal 2018-007416 Application 14/696,466 6 Istepanian discusses a medical robotic system –OTELO (mObile Tele- Echography using an ultra-Light rObot) that “comprises a fully portable tele- operated robot allowing a specialist sonographer to perform a real-time robotized tele-echography to remote patients.” Istepanian 125. Istepanian discloses that “[f]or the purpose of OTELO’s ultrasound image streaming, expert evaluation has shown that [a] minimum requirement[] for an efficient diagnosis” is that “[t]he delay of the received images should be less than 300 ms.” Id. at 129. Although Istepanian discloses that a latency of 300 ms is one requirement for an efficient diagnosis (id.), we do not view Istepanian as supporting that a longer latency would exclude its system from performing “real-time robotized tele-echography” (id. at 129) or otherwise suggesting that the term “real-time” excludes images having a latency greater than 300 ms. Tobias discloses that, in the context of “an ultrasound server wirelessly (or over any network connected to multiple lightweight clients on devices like . . . Google Glass,” “[b]y keeping the latency less than 30ms, the operator will feel like the data he sees on the wireless connected devices is running in real-time with the operator.” Tobias 1. Tobias reiterates that “[l]atency is within the human reaction time of <30ms; thus moving a probe, the imaging is shown to the user as in real-time.” Id. at 7. Tobias, thus, suggests that a latency less than 30 ms is within human reaction and will not be perceptible to a human user. We, however, do not view Tobias as suggesting that a longer latency would exclude its system from being considered a “real-time” system. In particular, Tobias states that its ultrasound server was “running various clinical ultrasound imaging modes in real-time with minimum latency ([<]30ms).” Id. at 8. In our view, this Appeal 2018-007416 Application 14/696,466 7 suggests that “real-time” encompasses more than a minimum latency of <30 ms. The Declaration indicates that “[f]or guidance in needle procedures, ultrasound video images are considered to be in ‘real-time’ if the image of the needle in relation to the anatomy is perceived by the operating clinician to represent the actual position of the needle at that moment” and “any latency in the video images needs to be so brief as to be imperceptible or nearly imperceptible to the operating clinician.” Decl. ¶¶ 13. The Declaration further indicates that “ultrasound video images would not be considered ‘real-time’ if the image of the needle in relation to the anatomy fails to be perceived by the operating clinician as representing the actual position of the needle at that moment.” Id. ¶ 14. The Declaration further indicates that Sekiyama’s “one-second delay in the video images would easily be perceived by the operating clinician, an therefore[,] the clinician would not trust those video images as representing the actual position of the needle at that moment” and “Sekiyama’s one-second latency is not ‘real- time’ in the context of an ultrasound-guided needle procedure.” Id. ¶ 15. According to Appellant, Dr. Kim’s Declaration testimony supports that “‘real-time’ is judged according to the ordinary human-observed perception of the operating clinician; and any latency in the video images must be so brief as to be imperceptible or nearly imperceptible to the operating clinician.” Appeal Br. 10. In our view, the Declaration (coupled with Istepanian and Tobias) does not support by a preponderance of the evidence that Sekiyama’s video images having a latency of one second do not suffice to meet the claim limitation of “real-time video images,” even in the context of needle Appeal 2018-007416 Application 14/696,466 8 procedures. More specifically, although we cannot dispute that a one second latency would be perceived by a physician (as Sekiyama itself evidences this), simply that a latency of a video-image is perceptible is not enough to exclude that video image as a “real-time” video image. As pointed out by the Examiner, “time latency always exists in data streaming, and such a term of ‘real-time’ does not have one single definition in terms of its time-scale.” Ans. 16 (quoting Adv. Act (Feb. 15, 2018), 2). The Examiner also points out that “a time scale [indicative of whether a video image qualifies as ‘real- time’] evolves as technology advances and is highly dependent on the performance of the peripheral hardware.” Id. at 16–17. Significantly, the Declaration never explicitly states that the meaning it ascribes to “real-time” is that which it would have to a person of ordinary skill in the art at the time of the invention. The Examiner also provides evidence that real-time streaming encompasses a spectrum of time latency and that “[t]he highest time latency associated with the real-time streaming as presented is above 0.7 second[s], which is approximately 1 second and is in the same scale of what’s presented in Sekiyama.” Id. at 17 (citing Medhi Ahmadi et al., A Real-Time Remote Video Streaming Platform for Ultrasound Imaging (2016), Fig. 3 (hereinafter “Ahmadi’)). The Examiner also points out that “the proposed system for real-time video streaming” (Ahmadi 4383) comprises an ultrasound unit to obtain the ultrasound video stream and a frame grabber that delivers the video to a computer, where the frame grabber supports “an open-source software toolkit for ultrasound guide intervention systems” (id. at 4384 (emphasis added)). Appeal 2018-007416 Application 14/696,466 9 We have considered the extrinsic evidence supplied by Appellant, but we are not persuaded that the extrinsic evidence establishes that one of ordinary skill in the art would have interpreted “real-time video images” for interventional ultrasound to exclude video images having a perceptible latency (e.g., such as the perceptible one second time lag of Sekiyama). In the absence of a more narrow lexicographical definition of “real-time” in the Specification, that there may be a perceptible latency in a video image does not exclude it from being a real-time video image so long as the video image is provided simultaneously with a process using the video images so as to be useful to the process. See Dictionary.com, available at https://www.dictionary.com/browse/real-time?s=t (last visited Aug. 22, 2019) (defining “real-time” as “of or relating to applications in which the computer must respond as rapidly as required by the user or necessitated by the process being controlled); Cambridge Dictionary, available at https://dictionary.cambridge.org/dictionary/english/real-time (last visited Aug. 22, 2019) (defining “real-time” as “used to describe the way in which a computer system receives data and then communicates it or makes it available immediately”). The Examiner explains that “[t]he one second time latency that Sekiyama discloses does not prevent the users from simultaneous viewing [of the video images and the needle manipulation], as Sekiyama explicitly teaches that (1) there were no significant differences between the needle visualization time of the conventional group and the HMD [head-mounted display] group . . . and (2) . . . the HMD system may not encumber the manipulations of the USNB [ultrasound-guided nerve block].” Ans. 15 (emphasis omitted). The Examiner continues that “[i]n other words, the Appeal 2018-007416 Application 14/696,466 10 time-lag may at most be not optimal as the users ‘dislike’ it, yet the results still demonstrated that simultaneous perception was achieved.” Id. (emphasis omitted). The Examiner’s finding that Sekiyama’s video images having a one second latency suffice to meet the limitation of “real-time videos” is supported by a preponderance of the evidence when the term is given its broadest reasonable interpretation consistent with the plain and ordinary meaning and the Specification. For the foregoing reasons, we sustain the Examiner’s rejection of independent claim 1, and claim 2 depending therefrom and for which Appellant relies on the same arguments and reasoning as independent claim 1, under 35 U.S.C. § 102(a)(1) as anticipated by Sekiyama. Rejection II Dependent claim 4 recites that “the needle or catheter procedure is a percutaneous ultrasound-guided needle procedure.” Appeal Br. 19 (Claims App.). The Examiner finds that Patacsil teaches a percutaneous ultrasound- guided catheterization procedure and concludes that it would have been obvious to employ Patacsil’s procedure in the methodology that Sekiyama teaches because “[t]he combination of Sekiyama and Patacsil expands the clinical utility of the invention as taught in Sekiyama.” Final Act. 5. Appellant argues that “using Sekiyama’s system to perform Patacsil’s ultrasound-guided venous catheterization would require a drastic change in Patacsil’s principles of operation that relies on ‘real-time’ imaging.” Appeal Br. 15 (citing Patacsil 2:62, 9:25–32). This argument is not persuasive because it does not address the rejection as articulated by the Examiner which is based on the modification of Sekiyama with the teachings of Patacsil, not on the modification of Patacsil with the teachings of Sekiyama. Appeal 2018-007416 Application 14/696,466 11 Thus, arguments regarding any purported change in the principles of operation of Patacsil are not persuasive of unobviousness in that the Examiner is not modifying the secondary reference of Patacsil. Appellant also argues that “in the proposal combining Patacsil with Sekiyama, the resulting combination would not result in the user ‘viewing the real-time video images from the ultrasound apparatus’ as claimed” because “Sekiyama’s head-mounted display system is deficient in this feature.” Appeal Br. 15–16. For the reasons described above in connection with Rejection I, we do not find Sekiyama’s head-mounted display system (even acknowledging its latency of approximately one second) to fail to disclose “real-time video images” as claimed.4 4 Although the Examiner notes that Patacsil was not relied upon “for the teaching of real-time, wh[ere] [the] Examiner[] consider[s] that Sekiyama has provided sufficient teaching” (Adv. Act. (Oct. 27, 2017), 2), Appellant’s arguments appear to concede that Patacsil has a “requirement for ‘real-time’ ultrasound imaging in performing a venous catheterization procedure” (Appeal Br. 15). In our view, Patacsil’s teaching of the desirability of “real time imaging of the vascular anatomy” (Patacsil 2:62; see also, e.g., id. at 3:13–17, 4:4–7) would have led one of ordinary skill in the art to improve the methodology of Sekiyama so as to provide for real-time imaging having a reduced time lag, especially in light of Sekiyama’s indication itself of a need to “further improve[] the hardware” (Sekiyama 1). As indicated by Appellant’s Specification, “[a] variety of such types of apparatuses [wearable, head-mounted image display apparatuses] are available or have been proposed, and can be used in my invention so long as it is capable of displaying real-time video images from the medical imaging equipment to the user while also simultaneously allowing the user to have a direct view of the real world environment.” Spec. 2:24–28. In light of this disclosure in the Specification, we do not view Appellant as claiming to have invented the technology that allows for such wearable, head-mounted image display apparatus to provide real time video images, but rather, a method that combines the use of existing display technology with specific medical Appeal 2018-007416 Application 14/696,466 12 For the foregoing reasons, we sustain the Examiner’s rejection of claim 4 under 35 U.S.C. § 103 as unpatentable over Sekiyama and Patacsil. Rejection III Dependent claim 10 recites that “the ultrasound apparatus is a fully self-contained wireless handheld ultrasound probe without any attached display screen.” Appeal Br. 19 (Claims App.). Claim 21 specifies that the probe “weighs less than one pound,” and claim 22 specifies that the probe “weighs less than 13.5 ounces.” Id. at 20. The Examiner acknowledges that Sekiyama does not teach such a probe (Final Act. 5), but finds that Poland teaches such a probe (id. at 5–6). The Examiner concludes that it would have been obvious to one of ordinary skill in the art to have substituted Poland’s probe for Sekiyama’s ultrasound system “as the substitution of one known type of ultrasound probe with another yields predictable results to one of ordinary skill in the art for the purpose of procedure guidance.” Id. at 6. The Examiner also concludes that Poland’s probe has the advantages of being light in weight and convenient to use. Id. (citing Poland ¶ 5). Appellant argues that because “Poland teaches that surgeons need stationary images of the surgical site, changing it to video images would procedures. Sekiyama at least discloses the wearing of a head-mounted image display apparatus in communication with an ultrasound apparatus when positioning a needle at a skin site on the patient’s body, and advancing the needle into the patient’s body while viewing the video images from the ultrasound apparatus on the head-mounted image display. To the extent that Sekiyama does not teach that such images have an imperceptible latency (or a latency of less than 300 ms or preferably 30 ms as advanced by Appellant), Patacsil’s teaching of the desirability of real-time imaging would have led one of ordinary skill in the art to identify and select existing head-mounted image display apparatus capable of providing such video images to achieve such desired capabilities. Appeal 2018-007416 Application 14/696,466 13 violate Poland’s principle of operation for its ultrasound probe.” Appeal Br. 17 (citing Poland ¶ 59). This argument is not persuasive because it does not address the rejection as articulated by the Examiner which is based on the modification of Sekiyama with the teachings of Poland, not on the modification of Poland with the teachings of Sekiyama. Thus, arguments regarding any purported change in the principles of operation of Poland are not persuasive of unobviousness in that the Examiner is not modifying the secondary reference of Poland. Appellant also argues that “the combination would not result in ‘real- time video’ imaging, as required by the claims . . . [because] the surgeon would follow Poland’s instructions on how to properly use its handheld probe in surgery.” Appeal Br. 17–18. The Examiner responds that “Poland explicitly teaches in [paragraphs] [0030] and [0036] [its] fully self-contained handheld unit provides acceptable real time imaging and acceptable real time imaging frame rates.” Ans. 18. The Examiner also responds that Poland “merely indicates that there is an option of having a lower frame rate should the surgeon want to look at a relatively stationary ultrasound image” and “[t]here is no teaching of Poland to show that video image cannot be displayed.” Id. at 19; see also Poland ¶ 59 (emphasis added) (“Such an image does not have to have a high real time frame rate”). We agree with the Examiner that the modification of Sekiyama so as to use Poland’s handheld probe does not require the use of stationary images instead of video images. The Examiner’s rejection as articulated relies on the video images of Sekiyama, and again, for the reasons described above in connection with Rejection I, we do not find Sekiyama’s head-mounted display system (even acknowledging its latency of approximately one Appeal 2018-007416 Application 14/696,466 14 second) to fail to disclose “real-time video images” as claimed. Thus, the combination would result in real-time video imaging, as required by the claims. For the foregoing reasons, we sustain the Examiner’s rejection of claims 10, 21, and 22 under 35 U.S.C. § 103 as unpatentable over Sekiyama and Poland. Rejections IV–X Appellant relies on the same arguments and reasoning we found unpersuasive in connection with Rejections I–III as the basis for seeking reversal of Rejections IV–X. Accordingly, we also sustain the rejections, under 35 U.S.C. § 103, of: claims 11, 13, and 23 as unpatentable over Sekiyama, Poland, and Yoshikazu; claims 14 and 17 as unpatentable over Sekiyama, Poland, Lardinois, and Lugmayr; claims 24 and 29 as unpatentable over Sekiyama, Poland, Yoshikazu, and Patacsil; claims 25–28 as unpatentable over Sekiyama, Poland, and Patacsil; claim 30 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, and Patacsil; claim 31 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, and Yoshikazu; and claim 32 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, Yoshikazu, and Patacsil. DECISION The Examiner’s decision to reject claims 1 and 2 under 35 U.S.C. § 102(a)(1) as anticipated by Sekiyama is affirmed. The Examiner’s decision to reject claim 4 under 35 U.S.C. § 103 as unpatentable over Sekiyama and Patacsil is affirmed. Appeal 2018-007416 Application 14/696,466 15 The Examiner’s decision to reject claims 10, 21, and 22 under 35 U.S.C. § 103 as unpatentable over Sekiyama and Poland is affirmed. The Examiner’s decision to reject claims 11, 13, and 23 under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, and Yoshikazu is affirmed. The Examiner’s decision to reject claims 14 and 17 under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, and Lugmayr is affirmed. The Examiner’s decision to reject claims 24 and 29 under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Yoshikazu, and Patacsil is affirmed. The Examiner’s decision to reject claims 25–28 under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, and Patacsil is affirmed. The Examiner’s decision to reject claim 30 under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, and Patacsil is affirmed. The Examiner’s decision to reject claim 31 under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, and Yoshikazu is affirmed. The Examiner’s decision to reject claim 32 under 35 U.S.C. § 103 as unpatentable over Sekiyama, Poland, Lardinois, Lugmayr, Yoshikazu, and Patacsil is affirmed. Appeal 2018-007416 Application 14/696,466 16 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