10902263 (B.P.A.I. Mar. 29, 2012)

Ex Parte Wollin

Board of Patent Appeals and InterferencesMar 29, 2012

10902263 (B.P.A.I. Mar. 29, 2012)

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. 10/902,263 07/30/2004 Ernest Wollin 024829-0124 1401 22428 7590 03/30/2012 FOLEY AND LARDNER LLP SUITE 500 3000 K STREET NW WASHINGTON, DC 20007 EXAMINER TOWA, RENE T ART UNIT PAPER NUMBER 3736 MAIL DATE DELIVERY MODE 03/30/2012 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 BOARD OF PATENT APPEALS AND INTERFERENCES __________ Ex parte ERNEST WOLLIN __________ Appeal 2011-007488 Application 10/902,263 Technology Center 3700 __________ Before TONI R. SCHEINER, DONALD E. ADAMS, and ERICA A. FRANKLIN, Administrative Patent Judges. SCHEINER, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134 from the final rejection of claims 1-5, 7-10, 12-33, 35-37, 44, and 45, directed to a medical imaging method. The claims have been rejected as obvious. We have jurisdiction under 35 U.S.C. § 6(b). We reverse. Appeal 2011-007488 Application 10/902,263 2 STATEMENT OF THE CASE The Specification discloses “a non-invasive, non-contrast, non- ionizing radiation imaging method for screening a [human subject] for cancer by providing an attachment to existing magnetic resonance („MRI‟) machines” (Spec. ¶ 5). The attachment comprises a Faraday shield device. The Faraday shield device comprises two electrode arrays, wherein each electrode array forms a Faraday shield and wherein each electrode array is separately embedded or placed within an insulating material (id. at ¶¶ 6, 32, 33). The Faraday shield device is connected to a time-varying voltage source, and is oriented perpendicular to the main magnetic field of the MRI device. The disclosed method involves applying a time varying potential difference to the Faraday shield device so as to produce a time-varying electric field about the Faraday shield device, which in turn, creates a current distribution in a human subject being screened in an MRI device, where the current is essentially orthogonal to the main magnetic static field of the MRI device (id. at ¶¶ 28-33). The time-varying current field in the human subject creates a periodic magnetic field superimposed on the main magnetic static field, which periodically varies the phase of the spins within the human subject (id. at ¶¶ 28, 29), and produces local periodic alterations in the ambient magnetic field at sites associated with focal aberrations in complex permittivity, complex conductivity, and/or electrical impedance, i.e., possible sites of pathology (id. at ¶¶ 30, 31). According to the Specification, using the disclosed attachment with existing MRI devices allows “the nature, extent, and distribution of Appeal 2011-007488 Application 10/902,263 3 pathology . . . [to] be better estimated . . . without the use of ionizing radiation . . . [or] magnetic resonance contrast agents” (id. at ¶ 31). Claims 1-5, 7-10, 12-33, 35-37, 44, and 45 are pending and on appeal. Claim 1 is representative of the subject matter on appeal: 1. A method of detecting and evaluating sample spatially ordered pathology, comprising: placing an in-vivo human tissue sample to be evaluated within a magnetic resonance imaging device in proximity to a Faraday shield device, wherein the Faraday shield device comprises Faraday shields oriented so as not to significantly affect a radio frequency field generated within the magnetic resonance imaging device, and an insulating material that insulates the in-vivo human tissue sample from the Faraday shields, whereby the Faraday shield device is configured to apply a time varying potential difference to the in-vivo human tissue sample; applying a time varying potential difference to the Faraday shield device, so as to create a time varying electric field in the in-vivo human tissue sample and a local time varying current field in the in-vivo human tissue sample essentially orthogonal to the main magnetic field generated by the magnetic resonance imaging device which results in a periodic aberration in a local magnetic field that periodically varies a phase of spins within the in-vivo human tissue sample; and imaging at least one of a complex permittivity, a complex conductivity, and an electrical impedance of the in-vivo human tissue sample. The Examiner relies on the following evidence: Domeier et al. US 3,324,848 Jun. 13, 1967 Rollwitz US 4,608,991 Sep. 2, 1986 Ono et al. US 4,758,789 Jul. 19, 1988 Friedrich US 5,755,667 May 26, 1998 Pearlman US 5,810,742 Sep. 22, 1998 Wollin US 6,166,540 Dec. 26, 2000 Eyuboglu et al. US 6,397,095 B1 May 28, 2002 Haskell et al. US 2003/0081370 A1 May 1, 2003 Kawaguchi et al. US 2003/0160024 A1 Aug. 28, 2003 Appeal 2011-007488 Application 10/902,263 4 The claims stand rejected as follows: Claims 1, 15, 29, 31-33, and 45 under 35 U.S.C. § 103(a) as unpatentable over Eyuboglu, Ono, and Domeier (Ans. 3-7); claims 2, 3, 13, 14, 17, 30, 32, 33, and 35-37 as unpatentable over Eyuboglu, Ono, Domeier and Pearlman (id. at 7-12); claims 7, 18, and 23-28 as unpatentable over Eyuboglu, Ono, Domeier and Friedrich (id. at 12-13); claim 16 as unpatentable over Eyuboglu, Ono, Domeier and Wollin (id. at 14-16); claims 8-10, 12, and 19-22 as unpatentable over Eyuboglu, Ono, Domeier, Friedrich, and Wollin (id. at 16-18); and claims 4, 5, and 44 as unpatentable over Eyuboglu, Ono, Domeier and Haskell (id. at 19-20). Principles of Law A rejection on the ground of obviousness must include “articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.” In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006). “[T]his analysis should be made explicit” and it “can be important to identify a reason that would have prompted a person of ordinary skill in the relevant field to combine the elements in the way the claimed new invention does.” KSR Int’l Co., v. Teleflex Inc., 550 U.S. 398, 418 (2007). Discussion All of the method claims require, in relevant part, placing a human subject within a magnetic resonance imaging device in proximity to a Faraday shield device (wherein the Faraday shield device comprises (1) Faraday shields oriented so as not to significantly affect a radio frequency field generated within the magnetic resonance imaging device, and (2) an insulating material that insulates the human subject from the Faraday Appeal 2011-007488 Application 10/902,263 5 shields), and applying a time varying potential difference to the Faraday shield device to create a time varying electric field in the human subject essentially orthogonal to the main magnetic field generated by the magnetic resonance imaging device (see e.g., claims 1 and 15). Similarly, the claims directed to a corresponding imaging system require at least these same structures, in the same orientation, together with a voltage source configured to create a current in the human subject essentially orthogonal to the main magnetic field generated by the magnetic resonance imaging device (see e.g., claims 18 and 29). There are six rejections of the claims, but all are premised on the Examiner‟s proposed combination of Eyuboglu, Ono, and Domeier to meet these limitations, so we will discuss the rejections together. Essentially, the Examiner finds that Eyuboglu discloses “a method and a system for detecting and evaluating sample spatially order[ed] pathology” (Ans. 3) “wherein a plurality of electrodes apply an electrical signal around a human body to measure an impedance thereof while simultaneously applying a magnetic field around the human body to measure a magnetic image thereof” (id. at 5-6). According to the Examiner, Eyuboglu‟s method, as elucidated by the Examiner on pages 3-4 of the Answer, meets all the requirements of claim 1, with the exception of “explicitly teach[ing] a Faraday shield device” (id. at 5). However, the Examiner cites Ono as evidence that “it is known to provide a[n] [insulated] Faraday shield device . . . in order to reduce or eliminate the potentially large dielectric loss of the in-vivo human tissue sample in a static magnetic field” (id.). Similarly, the Examiner cites Domeier as evidence that “it is known to provide a Faraday shield device . . . Appeal 2011-007488 Application 10/902,263 6 surrounding a plurality of electrodes . . . which in turn surround an in-vivo human tissue sample to screen the system from external disturbances and to eliminate the emittance of high frequency radiation” (id.). The Examiner concludes that it would have been obvious for one of ordinary skill in the art to provide Eyuboglu‟s device, which “combines electrical impedance measurements with magnetic resonance” (id. at 6), with a Faraday shield, “in order to reduce or eliminate the potentially large dielectric loss of the in-vivo human tissue” as taught by Ono, and “to screen the system from external disturbances and to eliminate the emittance of high frequency radiation” (id. at 6-7). Appellant contends that the present invention, unlike Ono and/or Domeier, “appl[ies] a potential difference [to the Faraday shield], while not significantly affecting the radio frequency field intrinsic to convention[al] magnetic resonance devices” (App. Br. 19). Appellant contends that “neither of Domeier or Ono teach, suggest, or disclose the „Faraday shield‟ feature as claimed” (id.). Specifically, Appellant contends that “the Faraday shield of Ono . . . allow[s] a magnetic field to leak to the surface of the specimen while at the same time inhibiting the electric field from leaking to the surface of the specimen” (id. at 19-20). Thus, Appellant contends that “the function of [Ono‟s] Faraday shield is to shield the specimen from the electric field while simultaneously allowing application of the magnetic field” (id. at 20). Similarly, Appellant contends that Domeier is directed to a capacitance respirometer, in which “a Faraday shield [is used] to suppress unwanted electric fields, while using the Faraday shield as one electrode of a capacitor” (id.). Appeal 2011-007488 Application 10/902,263 7 We agree with Appellant that the Examiner has not adequately explained what reason one of ordinary skill in the art would have had to apply a time varying potential difference to the Faraday shield device in the first place, 1 much less in a manner that creates a time varying electric field in a human subject essentially orthogonal to the main magnetic field generated by the magnetic resonance imaging portion of Eyuboglu‟s device, and without interfering with the radio frequency field intrinsic to the main magnetic field. Therefore, the Examiner has not provided an adequate factual or rational basis to support a legal conclusion of obviousness. 1 We note that the Examiner “takes official notice that it is known to apply a time varying potential to a Faraday shield” (Ans. 7), and cites Kawaguchi as corroboration, but the Examiner has not explained how Kawaguchi‟s application of current to a Faraday shield in an entirely different context (i.e., a plasma etching process) is relevant to the present invention. Appeal 2011-007488 Application 10/902,263 8 SUMMARY The rejections of claims 1-5, 7-10, 12-33, 35-37, 44, and 45, whether based in whole or in part on the combined teachings of Eyuboglu, Ono, and Domeier, are reversed. REVERSED cdc