Ex Parte Boese et alDownload PDFPatent Trial and Appeal BoardNov 20, 201211398883 (P.T.A.B. Nov. 20, 2012) Copy Citation 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. 11/398,883 04/06/2006 Jan Boese 2005P02334US 1227 22116 7590 11/20/2012 SIEMENS CORPORATION INTELLECTUAL PROPERTY DEPARTMENT 170 WOOD AVENUE SOUTH ISELIN, NJ 08830 EXAMINER TUNG, KEE M ART UNIT PAPER NUMBER 2677 MAIL DATE DELIVERY MODE 11/20/2012 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 PATENT TRIAL AND APPEAL BOARD ________________ Ex parte JAN BOESE and NORBERT RAHN ________________ Appeal 2010-004754 Application 11/398,883 Technology Center 2600 ________________ Before ERIC S. FRAHM, KRISTEN L. DROESCH, and JASON V. MORGAN, Administrative Patent Judges. MORGAN, Administrative Patent Judge. DECISION ON APPEAL Appeal 2010-004754 Application 11/398,883 2 STATEMENT OF THE CASE Introduction This is an appeal under 35 U.S.C. § 134(a) from the Examiner’s Final Rejection of claims 13, 17 – 19, and 22 – 24. Claims 1 – 12, 14 – 16, 20, and 21 are canceled. App. Br. 2. We have jurisdiction under 35 U.S.C. § 6(b)(1). We affirm. Invention The invention relates to a method for representing preoperatively recorded three-dimensional image data when recording two-dimensional X- ray images. See Abstract. Exemplary Claims (Emphases Added) 13. A method of displaying preoperatively recorded three- dimensional image data of a patient while recording two- dimensional X-ray images during an operation of the patient subsequent to the pre-operative recording of the three- dimensional data, the method comprising: preoperatively recording the three-dimensional image data of the patient with a first imaging device in a diagnostic device while performing a pre-operative diagnosis; subsequent to the pre-operative recording of the three- dimensional data, recording a plurality of two-dimensional X- ray images using an X-ray device having recording parameters, wherein the X-ray device and the first imaging device comprise different imaging devices and further wherein the three- dimensional image data recorded with the first imaging device and the two-dimensional X-ray images recorded with the X-ray device are generated independently from one another; determining two-dimensional representations of the three- dimensional image data; Appeal 2010-004754 Application 11/398,883 3 interrelating the recording parameters to the two- dimensional representations of the three-dimensional image data, said interrelating based on at least one rotation of the three-dimensional image data recorded with the first imaging device so that a resulting rotated three-dimensional image data correspond to a recording position of a respective two- dimensional X -ray image recorded under specific recording parameters, wherein the interrelating of the recording parameters to the two-dimensional representations further comprises interrelating the specific recording parameters to the two-dimensional representations determined from the rotated three-dimensional image data, wherein the interrelating of the recording parameters to the two-dimensional representations includes a determination of a spatial orientation of the three- dimensional image data relative to the X-ray image recorded under the specific recording parameters, wherein said spatial orientation is based on a measurement indicative of spatial registration between the three-dimensional image data and the X-ray image recorded under the specific recording parameters; and displaying the two-dimensional representations obtained from the three-dimensional image data pre-operatively recorded with the first imaging device while recording the two- dimensional X-ray images during the subsequent operation of the patient, wherein the two-dimensional representations are adjusted and the adjusted two-dimensional representations displayed if the recording parameters are adjusted while recording the two-dimensional X-ray images, the adjusted two- dimensional representations determined based on the measurement indicative of spatial registration between the rotated three-dimensional image data and the X-ray image recorded under the specific recording parameters. 19. An X-ray imaging system, comprising: a controller for adjusting a position of image-generating device parts, the device parts provided for recording at least one two-dimensional image at the position, said at least one two- dimensional image generated with the X-ray imaging system; Appeal 2010-004754 Application 11/398,883 4 an image processing system for processing three- dimensional image data originating from a second imaging device in a diagnostic device while performing a pre-operative diagnosis, the three-dimensional image data from the second imaging device generated independently from the two- dimensional image generated by the X-ray system, wherein the X-ray imaging device and the second imaging device comprise different imaging devices, the three-dimensional image data fed to the X-ray imaging system from the diagnostic device to generate two-dimensional representations of the three- dimensional image data originated from the second imaging device, wherein the controller and the image processing system are connected such that the two-dimensional representations are displayed relative to the position of the image-generating device parts; and an input device configured to: adjust the three-dimensional image data originated from the second imaging device by rotating the three- dimensional image data such that the adjusted three- dimensional image data correspond to an X-ray image recorded at a specific position; and interrelate the adjusted three-dimensional image data to the X-ray image recorded at the specific position; wherein, as the three-dimensional image originated from the second imaging device is rotated, the image processing system is configured to determine a spatial orientation of the three-dimensional image data originated from the second imaging device relative to the X-ray image recorded at the specific position, said spatial orientation based on a measurement indicative of spatial registration between the three-dimensional image data originated from the second imaging device and the X-ray image recorded at the specific position. Appeal 2010-004754 Application 11/398,883 5 Rejections The Examiner rejects claims 13, 17 – 19, and 22 under 35 U.S.C. § 103(a) as being unpatentable over Ichihashi (US 2002/0045817 A1; Apr. 18, 2002) and Hastings (US 2005/0256398 A1; Nov. 17, 2005; filed May 12, 2004). Ans. 3 – 14. The Examiner rejects claims 23 and 24 under 35 U.S.C. § 103(a) as being unpatentable over Ichihashi, Hastings, and Gotoh (US 2004/0081285; Apr. 29, 2004). Ans. 14. ISSUES 1. Did the Examiner err in finding that Ichihashi teaches or suggests “displaying the two-dimensional representations obtained from the three- dimensional image data pre-operatively recorded with the first imaging device while recording the two-dimensional X-ray images during the subsequent operation of the patient . . . ,” as recited in claim 13? 2. Did the Examiner err in finding that Ichihashi teaches or suggests “wherein the controller and the image processing system are connected such that the two-dimensional representations are displayed relative to the position of the image-generating device parts . . . ,” as recited in claim 19? ANALYSIS We only consider those arguments that Appellant actually raise in the Briefs. See 37 C.F.R. § 41.37(c)(1)(vii) (2008). Arguments in the Reply Brief that could have been presented in the Appeal Brief to rebut rejections made in the Final Office Action are waived and are not considered. See Ex parte Borden, 93 USPQ2d 1473, 1474 (BPAI 2010) (informative decision) (“[T]he reply brief [is not] an opportunity to make arguments that could Appeal 2010-004754 Application 11/398,883 6 have been made in the principal brief on appeal to rebut the Examiner’s rejections, but were not.”). Claim 13 Claim 13 recites “displaying the two-dimensional representations obtained from the three-dimensional image data pre-operatively recorded with the first imaging device while recording the two-dimensional X-ray images during the subsequent operation of the patient.” The Examiner finds that Ichihashi, which is directed to a radiographic image diagnosis device, teaches or suggests this display of two-dimensional representations obtained from three-dimensional data. See Ans. 7 – 8 (citing Ichihashi ¶ [0050]). Appellants contend that the Examiner erred, arguing that “Ichihashi merely describes displaying a 3D image,” App. Br. 6, but that an artisan of ordinary skill would “appreciate that although the 3D image of Ichihashi may be based on 2D projections (as any 3D image is), the basic point remains that image 62 is a 3D image (volume data),” App. Br. 7. Appellants do not provide arguments or evidence persuasively distinguishing between a two-dimensional projection of a three-dimensional volume data and “two- dimensional representations obtained from . . . three-dimensional image data.” Even when the underlying image has a three-dimensional appearance, a two-dimensional projection of the three-dimensional image is still a two- dimensional representation. See, e.g., Ichihashi fig. 3 (illustrating a two- dimensional representation of a cube). Moreover, Ichihashi teaches that the image at issue “may be displayed as a surface display image projected by a maximum intensity projection (MIP) technique [or] minimum intensity projection (MinIP) technique.” Ichihashi ¶ [0045]. A surface display image Appeal 2010-004754 Application 11/398,883 7 obtained from three-dimensional data is also a two-dimensional representation of three-dimensional data. Therefore, we agree with the Examiner that Ichihashi teaches or suggests “displaying the two-dimensional representations obtained from the three-dimensional image data pre- operatively recorded with the first imaging device while recording the two- dimensional X-ray images during the subsequent operation of the patient,” as recited in claim 13. Accordingly, we affirm the Examiner’s 35 U.S.C. § 103(a) rejection of claim 13, and of claims 17 and 18, which depend thereon and which are not argued separately. Claim 19 Claim 19 recites “wherein the controller and the image processing system are connected such that the two-dimensional representations are displayed relative to the position of the image-generating device parts.” The Examiner finds that Ichihashi’s generation of projection image data on the basis of the position and angle of a controller teaches or suggests the claimed controller and image processing system connection. See Ans. 11 (citing Ichihashi fig. 2 and ¶¶ [0050] – [0051]). Appellants contend that the Examiner erred, arguing that Ichihashi depicts a window on a display unit “displaying operation buttons for the rotation (e.g., icon 65a), movement, enlargement/reduction, and the like of the 3D image 62.” App. Br. 9 (citing, e.g., Ichihashi fig. 6). Appellants argue that this illustrates that “the rotation of image 62 occurs in response to an input from the operator,” as opposed to displaying two-dimensional representations “based on the position of the image-generating parts (e.g., Appeal 2010-004754 Application 11/398,883 8 the position of X-ray C-arm).” See App. Br. 10. However, the Examiner correctly finds that Ichihashi teaches: angle/position information and distance information are supplied from the C-arm position/angle detecting mechanism 17, X-ray detector position measuring mechanism 18, and bed top position measuring mechanism 19 to the image acquisition unit 20 . . . [and] the display direction and position of the 3D image (2D projected image) 62 displayed on the display unit 40 are updated on the basis of these pieces of information. That is, the position of the 3D image (20 projection image) 62 displayed on the display unit relatively coincides with that of the photographed real-time fluoroscopic image 61. Ans. 21 (citing Ichihashi ¶ [0050]). In other words, when the image-generating device parts (C-arm, X-ray detector, and bed top) are moved in Ichihashi, the two-dimensional representation (2D projected image) is displayed relative to the position of the image-generating device parts (i.e., is adjusted to relatively coincide with that of the photographed real-time fluoroscopic image). We agree with the Examiner that this teaches or suggests “wherein the controller and the image processing system are connected such that the two-dimensional representations are displayed relative to the position of the image-generating device parts,” as recited in claim 19. Accordingly, we affirm the Examiner’s 35 U.S.C. § 103(a) rejection of claim 19, and of claims 22 – 24, which are not argued separately with sufficient specificity. See App. Br. 11. DECISION The Examiner’s decision to reject claims 13, 17 – 19, and 22 – 24 is affirmed. Appeal 2010-004754 Application 11/398,883 9 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED ke Copy with citationCopy as parenthetical citation
