11913494 - (D) (P.T.A.B. Jun. 4, 2019)

Ex Parte Boone et al

Patent Trials and Appeals BoardJun 4, 2019

11913494 - (D) (P.T.A.B. Jun. 4, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 11/913,494 11/02/2007 20350 7590 06/06/2019 KILPATRICK TOWNSEND & STOCKTONLLP Mailstop: IP Docketing - 22 1100 Peachtree Street Suite 2800 Atlanta, GA 30309 John M. Boone 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. 081906-191910US-0755171 5573 EXAMINER IP,JASONM ART UNIT PAPER NUMBER 3793 NOTIFICATION DATE DELIVERY MODE 06/06/2019 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): ipefiling@kilpatricktownsend.com KTSDocketing2@kilpatrick.foundationip.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte JOHN M. BOONE and THOMAS R. NELSON 1 Appeal2018-005458 Application 11/913,494 Technology Center 3700 Before DONALD E. ADAMS, ERIC B. GRIMES, and MICHAEL J. FITZPATRICK, Administrative Patent Judges. GRIMES, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. Â§ 134 involving claims to a method and apparatus for generating a simulated mammogram based on x-ray computed tomography data, which have been rejected as obvious and lacking adequate written description. We have jurisdiction under 35 U.S.C. Â§ 6(b ). We reverse. 1 Appellants identify the Real Parties in Interest as Regents of the University of California, Isotropic Imaging Corporation and Izotropic Corporation. Appeal Br. 3. Appeal2018-005458 Application 11/913,494 STATEMENT OF THE CASE "X-ray computed tomography (CT) allows the internal structure of tissue to be clearly imaged without the need to flatten or otherwise distort the tissue as is done in mammography." Spec. ,r 9. "One drawback to ... breast CT machines, in instances where a suspicious lesion is found and a biopsy is required, is that compression of the breast in a standard mammography fixture and possibly re-imaging of the breast may be required to provide the necessary guidance for the biopsy procedure." Id. ,r 10. The Specification states that, "in one aspect of the invention, a simulated mammogram is created from CT data by employing an algorithm for compressing the volume data of the breast and projecting it into a two- dimensional image." Id. ,r 16. Claims 1-5, 7, 8, 40-53, and 56-63 are on appeal. Claims 1 and 49 are the independent claims and read as follows (emphasis added): 1. A method for breast imaging, comprising the steps of: generating, based on data produced by an x-ray computed tomography (CT) scanner, a three-dimensional volume data set of at least a portion of a breast, wherein a voxel in the three-dimensional volume data set is generated based on x-ray attenuation of a plurality of breast tissue types corresponding to the voxel; generating a model of the breast using voxels of the three-dimensional volume data set by assigning biomechanical properties to the plurality of breast tissue types in each voxel of the three-dimensional volume data set; generating a compressed volume data set by applying a compression algorithm to the three-dimensional volume data set in a first direction to simulate compression of the breast in the first direction; and generating a simulated radiographic compression mammogram projection image corresponding to the three-dimensional volume data set of at least the portion of the breast using cone beam projection on the compressed volume data set, wherein the simulated radiographic compression mammogram projection image is two dimensional 2 Appeal2018-005458 Application 11/913,494 mammographic image of the compressed volume data set produced by the compression algorithm based on the biomechanical properties of the plurality of breast tissue types from the three dimensional volume data set produced by the x-ray CT scanner, wherein the value of a pixel of the simulated radiographic compression mammogram projection image is the result of a summation along a projection path of a ray of the cone beam projection passing through the voxels of the compressed volume data set, wherein at least one value is associated with each voxel of the compressed volume data set, the generating further including: transforming contrast property of at least one voxel of the three- dimensional volume data set of at least the portion of the breast to simulate contrast properties of actual radiographic compression mammogram projection images, wherein the contrast property of the at least one voxel is transformed by using linear attenuation coefficients based on composition of the at least one voxel in the three-dimensional volume data set. 49. An apparatus for generating imaging of a breast comprising: a table supporting a patient in a prone position with the breast; an x-ray computed tomography (CT) scanner comprising an x-ray source and detector positioned to acquire a CT projection set about a horizontal axis around the breast; and a positron emission tomography (PET) detector positioned to acquire PET data of the breast, and a computer receiving data from the x-ray computed tomography (CT) scanner and the PET detector programmed to: generate, based on data produced by the x-ray computed tomography (CT) scanner and the PET data acquired by the PET detector, a three-dimensional volume data set of at least a portion of a breast, wherein a voxel in the three-dimensional volume data set is generated based on x-ray attenuation of a plurality of breast tissue types corresponding to the voxel; generate a model of the breast using voxels of the three- dimensional volume data set by assigning biomechanical properties to the plurality of breast tissue types in each voxel of the three- dimensional volume data set; 3 Appeal2018-005458 Application 11/913,494 generate a compressed volume data set by applying a compression algorithm to the three-dimensional volume data set in a first direction to simulate compression of the breast in the first direction; and generate a simulated radiographic compression mammogram projection image corresponding to the three-dimensional volume data set of at least the portion of the breast using cone beam projection on the compressed volume data set, wherein the simulated radiographic compression mammogram projection image is two dimensional mammographic image of the compressed volume data set produced by the compression algorithm based on the biomechanical properties of the plurality of breast tissue types from the three dimensional volume data set produced by the x-ray CT scanner and the PET detector, wherein the value of a pixel of the simulated radiographic compression mammogram projection image is the result of a summation along a projection path of a ray of the cone beam projection passing through the voxels of the compressed volume data set, wherein at least one value is associated with each voxel of the compressed volume data set, the generating further including: transforming contrast property of at least one voxel of the three-dimensional volume data set of at least the portion of the breast to simulate contrast properties of actual radiographic compression mammogram projection images, wherein the contrast property of the at least one voxel is transformed by using linear attenuation coefficients based on composition of the at least one voxel in the three-dimensional volume data set. The claims stand rejected as follows: Claims 1-5, 7, 8, 40-53, and 56-63 under 35 U.S.C. Â§ 112, first paragraph, for lack of adequate written description (Ans. 2); 4 Appeal2018-005458 Application 11/913,494 Claims 1-3 and 46 under 35 U.S.C. Â§ I03(a) as obvious based on Yin,2 Bakic, 3 and Tomai4 (Ans. 3--4); Claims 4 and 42--44 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, and Tanner5 (Ans. 7); Claims 5, 40, and 41 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, Tanner, and Berger6 (Ans. 8); Claims 7 and 8 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, and Amon7 (Ans. 8); Claim 45 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, Ning, 8 Beyer,9 and Bar-Shalom 1Â° (Ans. 9); 2 Yin et al., "ImageParser: a tool for finite element generation from three- dimensional medical images," 3 (31) Bio Medical Engineering OnLine 1-9 (2004). 3 Bakic et al., "Mammogram synthesis using a 3D simulation. I. Breast tissue model and image acquisition simulation," 29 Medical Physics. 2131- 2139 (2002). 4 Tomai et al., US 2002/0143249 Al, published October 3, 2002. 5 C. Tanner et al., "A Method for the Comparison of Biomechanical Breast Models," IEEE Workshop 11-18 (2001). A copy of Tanner was made of record on Dec. 4, 2014. 6 Berger et al., US 5,912,720, issued June 15, 1999. 7 Amon, US 7,292,719 B2, issued November 6, 2007. 8 Ning, US 6,480,565 Bl, issued November 12, 2002. 9 T. Beyer et al., "Acquisition Protocol Considerations for Combined PET/CT Imaging," 45 Journal of Nuclear Medicine 25S-35S (2004). 10 R. Bar-Shalom et al., "Clinical Performance of PET/CT in Evaluation of Cancer: Additional Value Diagnostic Imaging and Patient Management," 44(8) Journal of Nuclear Medicine 1200-1209 (2003). 5 Appeal2018-005458 Application 11/913,494 Claim 63 11 under 35 U.S.C. Â§ 103(a) as obvious based on Yin, Bakic, Tomai, and Toth 12 (Ans. 10); Claim 48 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, and Heuscher13 (Ans. 11 ); Claims 49-53 and 56-61 14 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, and Kennedy 15 (Ans. 11); Claim 62 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, Kennedy, and Heuscher (Ans. 15-16); and Claim 63 under 35 U.S.C. Â§ I03(a) as obvious based on Yin, Bakic, Tomai, Kennedy, and Toth (Ans. 16). I The Examiner has rejected all of the claims on appeal on the basis that certain limitations of the independent claims are not adequately described in the Specification. Ans. 2-3. With respect to both claim 1 and claim 49, the Examiner finds that "[t]he compression algorithm, which has been admitted to be a proprietary algorithm, is not described in a reasonable way." Id. at 2, 3. 11 The statement of the rejection refers to claim 48 but the body of the rejection addresses claim 63. Ans. 10. We understand the rejection to apply to claim 63. 12 Toth et al., US 6,310,938 Bl, issued October 30, 2001. 13 Heuscher et al., US 2003/0007593 Al, published January 9, 2003. 14 The statement of the rejection includes claims 49-61 but the body of the rejection only addresses claims 49-53 and 56-61. Ans. 11-15. Claims 54 and 55 were cancelled. Advisory Action mailed Aug. 16, 2017. 15 Kennedy, US 7,205,546 B 1, issued April 17, 2007. 6 Appeal2018-005458 Application 11/913,494 Appellants argue that the compression algorithm is described in Figure 7 and paragraphs 40 and 85-93 of the Specification. Appeal Br. 9, 12. See also Reply Brief 2-3: [S]tep 6 of FIG. 7 refers to "finite element compression algorithm" and is an element of Appellants' claimed compression algorithm, which includes all 10 steps illustrated on FIG. 7. One of ordinary skill in the art will be familiar with the finite element compression algorithm without requiring further description. In contrast, the overall steps of the claimed compression algorithm are illustrated in FIG. 7 and described in detail at paragraphs [0085] - [0093] of Appellants' specification. The examiner "bears the initial burden ... of presenting a prima facie case of unpatentability." In re Oetiker, 977 F.2d 1443, 1445, 24 USPQ2d 1443, 1444 (Fed. Cir. 1992). Insofar as the written description requirement is concerned, that burden is discharged by "presenting evidence or reasons why persons skilled in the art would not recognize in the disclosure a description of the invention defined by the claims." In re Alton, 76 F.3d 1168, 1175 (Fed. Cir. 1996). If "the specification contains a description of the claimed invention, albeit not in ipsis verbis (in the identical words), then the examiner ... , in order to meet the burden of proof, must provide reasons why one of ordinary skill in the art would not consider the description sufficient." Id. We conclude that the Examiner has not adequately explained why a person of ordinary skill in the art would not recognize that Appellants were in possession of the recited compression algorithm at the time the application was filed. As Appellants point out, the Specification describes all of the steps of the algorithm (Appeal Br. 9, 12), including the step in which "a model of the breast is constructed, for example using finite element 7 Appeal2018-005458 Application 11/913,494 techniques." Spec. ,r 86. Appellants have argued that those skilled in the art would be familiar with the finite element compression algorithm (Reply Br. 2). The Examiner has not provided any basis for doubting Appellants' position. See Ans. 18. We therefore reverse the rejection of claim 1, and this basis for the rejection of claim 49, under 35 U.S.C. Â§ 112, first paragraph. With respect to claim 49, the Examiner finds that the claim recites "[t]he acquisition and use of PET data in generating a model, but the Specification fails to describe how this is done." Ans. 3. Appellants argue that "i-f [O 167] of the publication of the present application explains how PET data is used in generating a model." Appeal Br. 12. "Appellants submit[] that the foregoing section of the specification reasonably conveys to one skilled in the relevant art that the inventor( s ), at the time the application was filed, had possession of the claimed invention." Id. The Examiner responds that "paragraph [0167] only speaks of overlaying PET data onto CT images. There are no details on how PET data is used in the actual creation of the model using image data." Ans. 20. The Examiner does not, however, challenge Appellants' position that the Specification's description would have conveyed, to those of skill in the art, that Appellants were in possession of the disputed limitation at the time of filing, or explain why the claim language requires anything more than overlaying PET data onto a model made based on CT data. We therefore reverse this basis for the rejection of claim 49. Also with respect to claim 49, the Examiner finds that "[t]he exact procedure for generating a model of the breast using voxel data from the CT 8 Appeal2018-005458 Application 11/913,494 is not described in a reasonable way." Ans. 3. Finally, with respect to claim 49, the Examiner finds that "[t]he process of simulating the compression by way of summing along a projection path of a cone beam projection, is merely stated, but not described in a reasonable way." Id. Appellants argue that "i-f [0086] of the publication of the present application describes in detail the model of the breast. Appellants submits that the foregoing sections of the specification reasonably conveys to one skilled in the relevant art that the inventor( s ), at the time the application was filed, had possession of the claimed invention." Appeal Br. 12. Appellants also argue that "i-f [0088] of the publication of the present application describes in detail the summing along a projection path of a cone beam projection." Id. at 13. Appellants argue that "the foregoing section of the specification reasonably conveys to one skilled in the relevant art that the inventor( s ), at the time the application was filed, had possession of the claimed invention." Id. The Examiner does not respond to Appellants' arguments on either of these points. See Ans. 18-20. Thus, the Examiner does not challenge Appellants' position that the Specification's description would have conveyed, to those of skill in the art, that Appellants were in possession of the disputed limitations at the time of filing. We therefore reverse these bases for the rejection of claim 49. In summary, we reverse the rejection of claims 1-5, 7, 8, 40-53, and 56-63 under 35 U.S.C. Â§ 112, first paragraph, for lack of adequate written description. 9 Appeal2018-005458 Application 11/913,494 II The Examiner has rejected claims 1-5, 7, 8, 40-46, 48-53, and 56-63 as obvious based on Yin, Bakic, and Tomai, by themselves or combined with other references. The same issue is dispositive for all of the rejections. The Examiner finds that Yin and Bakic teach certain limitations of claim 1. Ans. 4--5. The Examiner finds that "[n]either Yin et al nor Bakic explicitly disclose[ s] the use of a cone beam projection. However, Tomai et al teach the use of a cone beam x-ray system ([0061])." Id. at 5. The Examiner concludes that "it would have been obvious to one of ordinary skill in the art to apply the cone beam system of Tomai et al to the system of Yin et al and Bakic, as to provide a well-known projection scheme." Id. Appellants argue, among other things, that "in the claimed invention, the cone beam projection is used on the compressed volume data set, as opposed to the actual breast. The claimed invention considers a ray of the cone beam projection passing through the voxels of the compressed volume data set, as opposed to the ray passing through the patient's breast." Appeal Br. 17. Appellants argue that Id. the section of Tomai clearly recites that "in order to accommodate the short focal length cone-beam x-ray system, as well as help avoid physical interference with the torso, the PET detectors may have different or variable RORs at different projection viewing angles." See Tomai, ,r [0061]. Accordingly, in Tomai, the cone beam x-ray system is used on the patient, the rays passing through the patient's torso. We agree with Appellants that the section of Tomai that the Examiner cites as meeting the "cone beam projection" limitation of claim 1 discloses a "cone-beam x-ray system" that is used on a patient, not on voxels of a 10 Appeal2018-005458 Application 11/913,494 compressed volume data set, as required by claim 1. Tomai states that its Figures 12A and 13A show a gantry system that includes SPECT and PET emission and x-ray transmission imaging systems. Tomai ,r 61. As relevant to the rejection, Tomai states that "[t]he 'X' within the breast 414 designates the axis-of-rotation; note that the central ray of the x-ray CT system 312,313 does not intersect the AOR [axis-of-rotation]." Id. Tomai also states that the PET detectors are designed to accommodate the cone beam x-ray system and to avoid physical interference with the torso of a patient. Id. Thus, Tomai's cone beam x-ray system is used on a patient, not on voxels of a compressed volume data set. The Examiner responds that "Tomai's cone-beam configuration would be easily simulated by one possessing ordinary skill in the art on a model." Ans. 21. The Examiner cites no evidence to support this position but even assuming that a skilled artisan could simulate Tomai's cone-beam x- ray configuration on the voxels of a compressed volume data set, the Examiner has not presented any reason why a skilled artisan would find it obvious to do so. "[R]ejections on obviousness grounds cannot be sustained by mere conclusory statements; instead, there must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness." KSR Int'! Co. v. Teleflex Inc., 550 U.S. 398,418 (2007) (quoting In re Kahn, 441 F.3d 977,988 (Fed. Cir. 2006)). Here, the Examiner has not articulated any reasoning with rational underpinning to support a conclusion that the cited references would have made obvious at least the "cone beam projection" limitation of claim 1. We 11 Appeal2018-005458 Application 11/913,494 therefore reverse the rejection of claim 1 under 35 U.S.C. Â§ 103(a) based on Yin, Bakic, and Tomai. The rejection of claim 49 under 35 U.S.C. Â§ 103(a) based on Yin, Bakic, Tomai, and Kennedy relies on the same disclosure in Tomai with respect to the cone beam projection limitation. Ans. 11-13. We therefore reverse theÂ§ 103(a) rejection of claim 49 for the reason discussed above. Claims 2-5, 7, 8, 40-46, 48, 50-53, and 56-63 depend from either claim 1 or claim 49; theÂ§ 103(a) rejections of these claims is therefore reversed as well. SUMMARY We reverse all of the rejections on appeal. REVERSED 12