Ex Parte DiUbaldi et al

Patent Trials and Appeals BoardMar 28, 2019

14272637 - (D) (P.T.A.B. Mar. 28, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 14/272,637 05/08/2014 33766 7590 04/01/2019 COHEN & HILDEBRAND, PLLC 2409 Church Road CHERRY HILL, NJ 08002 FIRST NAMED INVENTOR Anthony R. DiUbaldi 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. GYN5022USCNT1 1577 EXAMINER GRAND, JENNIFER LEIGH-STEW AR ART UNIT PAPER NUMBER 3792 NOTIFICATION DATE DELIVERY MODE 04/01/2019 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): chery lcohen @aol.com hildebrand.ip@gmail.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ANTHONY R. DIUBALDI and MICHAEL R. TRACEY 1 Appeal2018-007266 Application 14/272,637 Technology Center 3700 Before JENNIFER D. BAHR, MICHELLE R. OSINSKI, and JEFFREY A. STEPHENS, Administrative Patent Judges. BAHR, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellant appeals under 35 U.S.C. Â§ 134(a) from the Examiner's decision rejecting claims 1 and 3. We have jurisdiction under 35 U.S.C. Â§ 6(b ). We AFFIRM. 1 Ethicon, Inc. (Appellant) is the applicant as provided in 37 C.F.R. Â§ 1.46 and is identified as the real party in interest. Appeal Br. 2. Appeal2018-007266 Application 14/272,637 THE CLAIMED SUBJECT MATTER Appellant's invention relates to "devices and methods for electrical nerve stimulation." Spec. ,r 2. Claims 1 and 3 are independent. Appeal Br. 11, 12 (Claims App.). Claim 1, reproduced below, is representative of the claimed subject matter. 1. An electrical stimulation device for use in a mammal compnsmg: a first waveform generator configured to generate a first waveform having a frequency capable of stimulating a predetermined target of the mammal; a second waveform generator configured to generate a carrier waveform having a frequency capable of passing through tissue of the mammal; an amplitude modulation device electrically coupled to the first and second waveform generators and configured to modulate the first and carrier waveforms to create a modulated waveform; the amplitude modulation device is configured to multiply the carrier waveform and the first waveform to create the modulated waveform that maintains a modulation envelope and frequency information of the first waveform and carrier waveform; and an electrode electrically coupled to the modulation device and configured to be positioned substantially adjacent to skin of the mammal, and adapted to apply the modulated waveform thereto; wherein the first waveform has a selected amplitude and frequency capable of stimulating the predetermined target, wherein the generated first waveform is itself incapable of transdermally stimulating the predetermined target; the carrier waveform has a selected amplitude and frequency, wherein the frequency of the carrier waveform is greater than that of the first waveform, wherein the carrier waveform is capable of passing through the mammal's skin and tissue to reach the predetermined target, and wherein the frequency of said generated carrier waveform is itself incapable of electrically stimulating the predetermined target; and 2 Appeal2018-007266 Application 14/272,637 the modulated waveform is capable of transdermally electrically stimulating the predetermined target. REJECTIONS I. Claims 1 and 3 stand rejected under 35 U.S.C. Â§ 103(a) as unpatentable over Charters (US 4,938,223, issued July 3, 1990) and Padjen (US 4,719,922, issued Jan. 19, 1988). II. Claims 1 and 3 stand rejected under 35 U.S.C. Â§ 103(a) as unpatentable over Schondorf (US 5,476,481, issued Dec. 19, 1995) and Padjen. DISCUSSION Rejection I Independent claim 1 recites an amplitude modulation device that "is configured to multiply the carrier waveform and the first waveform to create the modulated waveform that maintains a modulation envelope and frequency information of the first waveform and carrier waveform." Appeal Br. 11 (Claims App.). Independent claim 3 recites a step of "amplitude modulating by multiplying said first waveform with said carrier waveform to produce a modulated waveform; wherein the modulated waveform maintains a modulation envelope and frequency information of the first waveform and the carrier waveform." Id. at 12 (Claims App.). Appellant relies on the arguments presented for claim 1 in contesting the rejection of claim 3. See Appeal Br. 9. Thus, we decide the appeal of the rejection based on Charters and Padjen on the basis of claim 1, and claim 3 stands or falls with claim 1. See 37 C.F.R. Â§ 4I.37(c)(l)(iv) (permitting the Board to select a single claim 3 Appeal2018-007266 Application 14/272,637 to decide the appeal as to a single ground of rejection of a group of claims argued together). The Examiner finds that Charters's amplitude modulator block 24 satisfies the aforementioned limitations of claim 1. See Final Act. 2; Ans. 6. Appellant contends that the signal produced at output 30 from amplitude modulator block 24 "is not produced by multiplying of the amplitudes of the first waveform (pulse signal 14) and carrier waveform (e.g., trapezoidal signal 16)." Appeal Br. 6-7 (underlining omitted). In support of this contention, Appellant submits that the modulated signal (bursts 70) "is equal in amplitude only to that of the trapezoidal signal 16," rather than "an amplitude representative of multiplying the amplitude of the pulse signal 14 and trapezoidal signal 16." Id. at 7. Thus, Appellant argues that Charters "fails to disclose the amplitude modulator (24) as being 'configured to multiply the carrier waveform and the first waveform to create the modulated waveform that maintains a modulation envelope and frequency information of the first waveform and carrier waveform,'" as recited in claim 1. Id. According to Appellant, claim 1 requires that the modulated waveform maintain a modulation envelope of the first waveform and the carrier waveform, and the only way to do this "is for the claimed modulated waveform to have a modulation envelope representative of multiplying the amplitudes of the first waveform and the carrier waveform." Reply Br. 2. Appellant admits that the modulated waveform of Charters "maintains the modulation envelope of the trapezoidal signal," but contends that "the modulation envelope of the pulse burst 14 is not maintained, as called for in claim 1." Id. The Examiner reproduces an excerpt from chapter 10 of The Scientist and Engineer's Guide to Digital Signal Processing to show what amplitude 4 Appeal2018-007266 Application 14/272,637 modulation means to those of skill in the art, and, thus, how a person having ordinary skill in the art would understand the amplitude modulation of Charters. See Ans. 4--5. The caption beneath Figure 10-14 from the textbook states that "[i]n the time domain, amplitude modulation is achieved by multiplying the audio signal, (a), by the carrier signal, ( c ), to produce the modulated signal, ( e )." Id. at 5. Appellant does not dispute that the explanation of "amplitude modulation" set forth in the textbook cited by the Examiner accurately reflects what amplitude modulation means to those of ordinary skill in the art, nor does Appellant proffer any evidence to show that there is any other way to achieve amplitude modulation, without multiplying the signals, known in the art. See Appeal Br. 6-9; Reply Br. 2--4. Rather, Appellant directs our attention to Charters' s disclosure that the modulated signal resulting from the amplitude modulation of pulse signal 14 and trapezoid signal 16 comprises stimuli burst 70 having stimuli corresponding in frequency to pulse signal 14 and in amplitude to the magnitude of trapezoid signal 16, and contends this means that amplitude modulator block 24 does not multiply pulse signal 14 and trapezoid signal 16 to produce the modulated signal. Appeal Br. 6-7 (citing Charter 3:44--50); Reply Br. 4. Charters does disclose that when pulse signal 14 is amplitude modulated with trapezoid signal 16, the resulting signal comprises "stimuli burst 70, having stimuli corresponding in frequency to pulse signal 14 and in amplitude to the magnitude of trapezoid signal 16." Charters 3 :44--50 (boldface omitted). However, a person having ordinary skill in the art would not necessarily consider this to be inconsistent with the amplitude modulator block multiplying pulse signal 14 and trapezoid signal 16 together. First, the phrase "corresponding ... in amplitude to" has a meaning that encompasses, 5 Appeal2018-007266 Application 14/272,637 but is somewhat broader than, equal to. Further, a brief review of the circuit diagram in Figure 4 of Charters indicates that pulse signal 14 is not specifically scaled to have a particular amplitude; rather, its amplitude appears to be derived from the reference 4 volts shown throughout the circuit diagram. Trapezoid signal 16, on the other hand, has an amplitude set in part by a multiplier input at amplitude determining module 90. See id., Figs. 1, 4; 4:37-53. Thus, viewing the amplitude of pulse signal 14 as essentially a reference value or level, one would reasonably consider the amplitude of the product of multiplying pulse signal 14 and trapezoid signal 16 to correspond effectively to the amplitude of trapezoid signal 16. Accordingly, we are not persuaded that Charters's reference to a modulated signal corresponding in amplitude to the magnitude of trapezoid signal 16 is inconsistent with amplitude modulator block 24 multiplying pulse signal 14 and trapezoid signal 16 to produce the modulated signal, especially in light of the evidence of the conventional meaning of "amplitude modulation" supplied by the Examiner. We do not agree with Appellant that claim 1 requires the modulated signal to maintain the modulation envelope of both the first waveform and the carrier waveform. The pertinent portion of claim 1 reads "modulated waveform that maintains a modulation envelope and frequency information of the first waveform and carrier waveform." Appeal Br. 11 (Claims App.). Notably, claim 1 recites only that the modulated waveform maintains a modulation envelope (singular) of the first waveform and carrier waveform, but does not recite that the modulated waveform maintains the modulation envelopes (plural) of the first waveform and carrier waveform. Moreover, a review of the waveforms illustrated in Appellant's Figure 2a indicates that modulated waveform 206 has an upper envelope that is comparable to the 6 Appeal2018-007266 Application 14/272,637 shape of waveform 202, but the modulated waveform 206 does not have an envelope that matches the envelope of waveform 202 or the envelope of carrier waveform 204. The description in the Specification similarly indicates that the modulated signal 206 has a "low frequency envelope," which we note matches the low frequency of waveform 202 shown in Figure 2a. Spec. ,r 46. Thus, the broadest reasonable construction of the claim language "modulated waveform that maintains a modulation envelope ... of the first waveform and carrier waveform," consistent with the Specification, is that the modulated waveform has an envelope that matches the shape of either the first waveform or the carrier waveform. As admitted by Appellant, the modulated waveform of Charters "maintains the modulation envelope" of trapezoid signal 16. See Reply Br. 2. We agree because, as in Appellant's example in Figure 2a of the Specification, the upper envelope of Charters's modulated signal (bursts 70) shown in Figure 3 matches the shape of the low-frequency trapezoid signal 16. Thus, Charters satisfies the "maintains a modulation envelope" limitation of claim 1. Appellant argues that Charters teaches away from substituting "a conventional amplitude modulator" (i.e., one that multiplies the first waveform and a carrier waveform), as discussed in Appellant's Specification, for Charters' s amplitude modulator block 24, which Appellant asserts does not multiply the signals. Appeal Br. 8. This argument is unavailing because the Examiner does not propose to modify Charters by making a substitution; rather, the Examiner finds that Charters's amplitude modulator block 24 performs such a multiplication. The question whether a reference "teaches away" from the invention is inapplicable to an anticipation analysis. Celeritas Techs. Ltd. v. Rockwell Int'! Corp., 150 F.3d 1354, 1361 (Fed. Cir. 1998) (The prior art was held to anticipate the claims 7 Appeal2018-007266 Application 14/272,637 even though it taught away from the claimed invention.). We appreciate Appellant's observation that the Examiner's rejection is based on obviousness under 35 U.S.C. Â§ 103(a) (see Reply Br. 2-3), but the analysis with respect to amplitude modulating by multiplying the first waveform and the carrier waveform to create a modulated waveform that maintains a modulation envelope as claimed is the same as an anticipation analysis; the Examiner does not propose to modify Charters to replace or modify the amplitude modulator. 2 For the above reasons, Appellant does not apprise us of error in the rejection of claim 1, or claim 3, as unpatentable over Charters and Padjen. Accordingly, we sustain the rejection of claims 1 and 3 under 35 U.S.C. Â§ 103(a) as unpatentable over Charters and Padjen. Re} ection II Appellant argues claims 1 and 3 together in contesting the rejection based on Schondorf and Padjen. Appeal Br. 9-10. Thus, we decide the rejection on the basis of claim 1, with claim 3 standing or falling with claim I. See 37 C.F.R. Â§ 4I.37(c)(l)(iv). The only argument Appellant presents against the rejection of claim 1 as unpatentable over Schondorf and Padjen is that Schondorf's modulator 24 "is not equivalent to that of the claimed 'amplitude modulation device' since the modulator 24 in [Schondorf] does not produce a 'modulated waveform 2 The Examiner relies on Padjen only to show that it was known in the art at the time of Appellant's invention that a high frequency carrier wave is necessary to permit transdermal penetration of the skin barrier, and that the high frequency carrier wave is attenuated as it passes through the skin, leaving the low frequency signal to stimulate nerves and/or muscles. Final Act. 3 (citing Padjen 1:22-31). 8 Appeal2018-007266 Application 14/272,637 that maintains a modulation envelope and frequency information of the first waveform and carrier waveform." Appeal Br. 10. According to Appellant: Id. Rather, [SchondorfJ discloses heterodyning two frequencies not too far apart wherein at another point in time they cancel one another, as disclosed in the Background of the Invention section. ([SchondorfJ: Col. 2, 11. 28-31)[.] As a result of such cancelation of the two current waveforms, the produced waveform in [SchondorfJ does not maintain the modulation envelope and frequency information of the first waveform and carrier waveform, as called for in claims 1 & 3. We agree with Appellant that Schondorf discusses heterodyning in the context of the invention disclosed therein, and not solely in the context of the background of the invention, as the Examiner suggests. See Reply Br. 4--5; Ans. 8-9. However, Schondorf discusses heterodyning causing currents to cancel each other out only in the context of "heterodyning of two frequencies not too far apart ... , depending on the phasing." Schondorf 2:27-31. The Examiner relies on the system illustrated in Figure 5 of Schondorf, and, in particular, reads the claimed amplitude modulation device on element 24 in Figure 5. Final Act. 3. Schondorf discloses feeding the waveforms produced by generators 20 and 21, which have frequencies not too far apart (i.e., 4000 Hz and 3990 Hz) to mixer circuit 22, where heterodyning takes place, and then passing the resulting waveform through heterodyne amplifier 23. Schondorf 5:48---60. The amplified signal then passes to modulator 24 and is modulated with a sinusoidal signal having a frequency of about 0.1 to 1 Hz (not at all close to the frequencies that make up the amplified signal) generated by waveform generator 27. Id. 5:61---65. Schondorf gives no indication that any heterodyning takes place during the 9 Appeal2018-007266 Application 14/272,637 modulation of the amplified signal fed from heterodyne amplifier 23 with the sinusoidal signal fed from waveform generator 27, nor does Appellant provide any evidence or technical reasoning to explain why one of ordinary skill in the art would expect any heterodyning to take place during the modulation at modulator 24, much less heterodyning resulting in cancellation of the signals at any point. Thus, even assuming that cancellation of the signals at any point would be inconsistent with maintaining a modulation envelope and frequency information of the first waveform and carrier waveform, as claimed, Appellant's arguments regarding heterodyning do not appear to be applicable to the modulation that takes place at Schondorf s modulator 24. Further, Appellant does not persuasively explain why the waveform illustrated in Figure 4, which results from the system shown in Figure 5, fails to maintain a modulation envelope and frequency information of the amplified signal and the sinusoidal signal modulated at modulator 24. For the above reasons, Appellant fails to apprise us of error in the rejection of claim 1, or claim 3, as unpatentable over Schondorf and Padjen. Accordingly, we sustain the rejection of claims 1 and 3 under 35 U.S.C. Â§ 103(a) as unpatentable over Schondorf and Padjen. DECISION The Examiner's decision rejecting claims 1 and 3 under 35 U.S.C. Â§ 103(a) as unpatentable over Charters and Padjen is AFFIRMED. The Examiner's decision rejecting claims 1 and 3 under 35 U.S.C. Â§ 103(a) as unpatentable over Schondorf and Padjen is AFFIRMED. 10 Appeal2018-007266 Application 14/272,637 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). See 37 C.F.R. Â§ 1.136(a)(l )(iv). AFFIRMED 11