Source: http://www.google.com.tw/patents/US7601966
Timestamp: 2013-05-21 07:42:29
Document Index: 610701800

Matched Legal Cases: ['Application No. 03810570', 'Application No. 03810570', 'Application No. 158442', 'Application No. 154323', 'Application No. 10', 'Application No. 03810570', 'Application No. 02716285', 'Application No. 0']

�M�Q US7601966 - Imaging techniques for reducing blind spots - Google �M�Q�j�M �Ϥ� �a�� Play YouTube �s�D Gmail ���ݵw�� ��h »�i���M�Q�j�M | �������� | �n�J�i���M�Q�j�M�M�QAn imaging system is provided for radioimaging a region of interest (ROI) of a subject. The system includes a housing, a support structure, which is movably coupled to the housing, and at least one motor assembly, coupled to the housing and the support structure, and configured to move the support structure...http://www.google.com.tw/patents/US7601966?utm_source=gb-gplus-share�M�Q US7601966 - Imaging techniques for reducing blind spots���}��US7601966 B2�X���������v�ӽЮѽs��11/769,826�o�G���2009�~10��13���ӽФ��2007�~6��28�� �u���v���2006�~6��28����L���}�M�Q��US7838838US20080001090US20100001200�o��HShlomo Ben-HaimSajed Haj-YahyaHaim MelmanMichael NaglerBenny RoussoYoel Zilberstien��M�Q�v�HSpectrum Dynamics Llc ���M�Q������250/394��ڱM�Q������G01T1/00 �X�@����G01T1/1648 �ڬw������G01T1/164B9�ѦҤ��m�M�Q�ޥ� (101)�D�M�Q�ޥ� (97)�~���s�����M�Q�ӼЧ� ���M�Q�ӼЧ��M�Q����T�� �ڬw�M�Q��Imaging techniques for reducing blind spotsUS 7601966 B2�K�n An imaging system is provided for radioimaging a region of interest (ROI) of a subject. The system includes a housing, a support structure, which is movably coupled to the housing, and at least one motor assembly, coupled to the housing and the support structure, and configured to move the support structure with respect to the housing. The system also includes at least two detector assemblies, fixed to the support structure, and comprising respective radiation detectors and angular orientators. A control unit drives the motor assembly to position the support structure in a plurality of positions with respect to the housing, and, while the support structure is positioned in each of the plurality of positions, drives the orientators to orient the respective detectors in a plurality of rotational orientations with respect to the ROI, and to detect radiation from the ROI at the rotational orientations. Other embodiments are also described.
CROSS-REFERENCES TO RELATED APPLICATIONS The present application claims the benefit of U.S. Provisional Application 60/816,970, filed Jun. 28, 2006, entitle ��Imaging techniques for reducing blind spots,�� which is assigned to the assignee of the present application and is incorporated herein by reference.
In an embodiment of the present invention, camera 22 comprises a plurality of detector assemblies 30, each of which comprises a detector 32 coupled to an angular orientator 34. Each of the detectors comprises a plurality of gamma ray sensors, such as a pixelated array of crystals, e.g., CZT crystals, and at least one collimator. For example, the array may comprise 16��64 pixels, arranged in sub-arrays of 16��16 pixels. Detector assemblies 30 are arranged at least partially around a region of interest (ROI) of subject 36.
For each of detectors 32, FIG. 2 shows a ray 42, which schematically represents the fill angular range of photon detection of the detector, as determined by the angular orientations in which the detector's orientator 34 orients the detector, and the collimation of the detector. Each ray 42 schematically represents the combination of the plurality of distinct angular orientations at which the corresponding detector is oriented during an imaging procedure. For example, a detector may be oriented at 60 distinct angular orientations, each of which is separated by one degree, with a dwell time of one or two seconds at each orientation, such that the total angular range is 60 degrees, and the total scan time is 60 or 120 seconds, respectively. Alternatively, a detector may be oriented at fewer or greater than 60 distinct angular orientations, which are separated by less or more than one degree, with a dwell time of any number of seconds at each orientation. For some applications, camera 22 is configured to individually set a total angular range of each of detectors 32 responsively to the detector's orientation with respect to ROI 40. For example, techniques may be used that are described in an international patent application filed May 11, 2006, entitled, ��Unified management of radiopharmaceuticals dispensing, administration, and imaging,�� which is assigned to the assignee of the present application and is incorporated herein by reference. For some applications, the detector is oriented at each of the distinct angular orientations as the detector sweeps in a single direction. Alternatively, the detector is oriented at only a portion, e.g., half, of the distinct angular orientations as the detector sweeps in a first direction, and the detector is orientated at the remaining distinct angular orientations as the detector sweeps back in a second direction opposite the first direction.
For some applications, fewer than all of detector assemblies 30 are configured for translatory motion. For example, one or more of the detector closer to the ROI (a ��proximal detector�� or an ��inner detector��) may be configured for translatory motion, while one or more of the detectors further from the ROI (a ��distal detector�� or an ��outer detector��) may be configured for only rotational motion.
For some applications in which each of the detectors comprises a plurality of gamma ray sensors, such as a pixelated array of crystals, e.g., CZT crystals, each of the detectors comprises a square array of pixels, e.g., a 16��16 array, as shown in FIG. 7A. For these applications, assembly 100 may comprise, for example, two detectors 114A and two detectors 114B. Alternatively, for some applications, each of the arrays comprises a rectangular array of pixels, for example, an array having a longitudinal length L that is equal to twice a width W of the array e.g., a 32��16 array, as shown in FIG. 7B. Further alternatively, the ratio of the length L to the width W is greater than 2:1, such as 4:1, e.g., a 64��16 array (configuration not shown).
an international patent application filed May 11, 2006, entitled, ��Unified management of radiopharmaceutical dispensing, administration, and imaging��;
U.S. Provisional Patent Application 60/800,845, filed May 17, 2006, entitled, ��Radioimaging camera for dynamic studies��;
U.S. Provisional Patent Application 60/800,846 filed May 17, 2006, entitled, ��Radioimaging protocols��;
�M�Q�ޥ� �ޥΪ��M�Q�ӽФ���o�G��� �ӽЪ��M�Q�W��US33408661964�~7��1��1967�~9��12��Gunter Noller HansIngestible ph responsive radio transmitterUS34469651966�~8��10��1969�~5��27��Mallinckrodt Chem. WorksGeneration and containerization of radioisotopesUS35350851967�~8��7��1970�~10��20��Mallinckrodt Chem. WorksClosed system generation and containerization of radioisotopesUS36848871970�~3��26��1972�~8��15��Schlumberger Technology Corp.Apparatus for inspecting tubular goods having an automatic shutterUS36903091970�~8��5��1972�~9��12��Albert Ivanovich FilatovRadiocapsule for registering ionizing radiation in the cavities of human bodiesUS37191831970�~3��5��1973�~3��6��Schwartz H,UsMethod for detecting blockage or insufficiency of pancreatic exocrine functionUS37392791971�~6��30��1973�~6��12��Corning Glass Works,UsRadio capsule oscillator circuitUS39713621972�~10��27��1976�~7��27��The United States Of America As Represented By The Administrator Of The National Aeronautics And Space AdministrationMiniature ingestible telemeter devices to measure deep-body temperatureUS40155921975�~6��12��1977�~4��5��Bradley-Moore; Patrick RalphNuclear medicine system for imaging radiationUS42780771979�~7��24��1981�~7��14��Olympus Optical Co., Ltd.Medical camera systemUS42967851979�~7��9��1981�~10��27��Mallinckrodt, Inc.System for generating and containerizing radioisotopesUS43643771981�~2��2��1982�~12��21��Walker Scientific, Inc.Magnetic field hemostasisUS44763811982�~2��24��1984�~10��9��Rubin Martin I.Patient treatment methodUS45216881983�~1��21��1985�~6��4��The United States Of America As Represented By The Administrator Of The National Aeronautics And Space AdministrationThree-dimensional and tomographic imaging device for x-ray and gamma-ray emitting objectsUS45950141983�~10��18��1986�~6��17��University Patents, Inc.Imaging probe and methodUS46791421984�~7��2��1987�~7��7��E.I. Du Pont De Nemours And CompanyRadioactive material billing system and methodUS46890411985�~10��9��1987�~8��25��Eliot CordayRetrograde delivery of pharmacologic and diagnostic agents via venous circulationUS46896211986�~3��31��1987�~8��25��The United States Of America As Represented By The Administrator Of The National Aeronautics And Space AdministrationTemperature responsive transmitterUS47734301986�~1��6��1988�~9��27��Yissim Research Development CompanyMethod and apparatus for the localization of bleeding in the gastrointestinal tractUS48288411987�~11��5��1989�~5��9��Colorcon, Inc.Maltodextrin coatingUS48440671988�~2��9��1989�~7��4��Bio Materials Universe, Inc.Sucrose fatty acid ester coated sutureUS48440761988�~8��26��1989�~7��4��The Johns Hopkins UniversityIngestible size continuously transmitting temperature monitoring pillUS48535461987�~9��16��1989�~8��1��Ube Industries, Ltd.Automatic radioisotope filling apparatusUS49282501986�~7��2��1990�~5��22��Hewlett-Packard CompanySystem for deriving radiation imagesUS49298321988�~12��27��1990�~5��29��Ledley; Robert S.Methods and apparatus for determining distributions of radioactive materialsUS49516531988�~3��2��1990�~8��28��Laboratory Equipment, Corp.Ultrasound brain lesioning systemUS49953961988�~12��8��1991�~2��26��Olympus Optical Co., Ltd.Radioactive ray detecting endoscopeUS50327291989�~10��18��1991�~7��16��Biospace LabProcess and device for determining the spatial distribution of electrons emerging from the surface of a radioactive bodyUS50339981990�~3��20��1991�~7��23��Zoll Circulation, Inc.Retrograde delivery of pharmacologic and diagnostic agents via venous circulationUS50398631989�~11��13��1991�~8��13��Ube Industries, Ltd.Automatic radioisotope filling apparatusUS50884921990�~10��9��1992�~2��18��Olympus Optical Co., Ltd.Radioactive ray detecting endoscopeUS51799831991�~5��3��1993�~1��19��Block Medical, Inc.Apparatus for filling multiple reservoir infusion systemsUS52076421989�~4��28��1993�~5��4��Baxter International Inc.Closed multi-fluid delivery system and methodUS52439881992�~8��7��1993�~9��14��Scimed Life Systems, Inc.Intravascular imaging apparatus and methods for use and manufactureUS52491241991�~4��16��1993�~9��28��Siemens Gammasonics, Inc.Multi-isotope imaging using energy-weighted acquisition for, e.g., myocardial perfusion studiesUS52528301992�~1��22��1993�~10��12��Frederick M. MakoDedicated apparatus and method for emission mammographyUS52796071991�~5��30��1994�~1��18��Gastrotarget Corp.Telemetry capsule and processUS52992531992�~4��10��1994�~3��29��Akzo N.V.Alignment system to overlay abdominal computer aided tomography and magnetic resonance anatomy with single photon emission tomographyUS53041651991�~12��9��1994�~4��19��Habley Medical Technology CorporationSyringe-filling medication dispenserUS53099591992�~8��24��1994�~5��10��British Nuclear Fuels PlcDispensing apparatusUS53175061992�~5��12��1994�~5��31��Abbott LaboratoriesInfusion fluid management systemUS53299761992�~9��21��1994�~7��19��Habley Medical Technology CorporationSyringe-filling and medication mixing dispenserUS53491901991�~12��2��1994�~9��20��Adac LaboratoriesAdjustable triple-detector image data acquisition systemUS53650691993�~11��24��1994�~11��15��The State Of Israel, Atomic Energy Commission, Soreq Nuclear Research CenterLight weight �^-camera head and �^-camera assemblies containing itUS53953661994�~1��10��1995�~3��7��Gastrotarget Corp.Sampling capsule and processUS54151811993�~12��1��1995�~5��16��The Johns Hopkins UniversityAM/FM multi-channel implantable/ingestible biomedical monitoring telemetry systemUS54752321994�~4��21��1995�~12��12��Syncor International Corp.Method for elution of a radioisotope according to an elution run scheduleUS54799691993�~8��13��1996�~1��2��British Nuclear Fuels PlcApparatus for dispensing substances which are biologically hazardousUS54811151993�~12��20��1996�~1��2��University Of Utah, TheElectronic calibration of single photon emission computed tomography camerasUS54843841994�~10��11��1996�~1��16��Med Institute, Inc.Minimally invasive medical device for providing a radiation treatmentUS54897821994�~3��24��1996�~2��6��Imaging Laboratory, Inc.Method and apparatus for quantum-limited data acquisitionUS54935951994�~6��2��1996�~2��20��Schoolman Scientific Corp.Stereoscopically displayed three dimensional medical imagingUS54938051993�~1��25��1996�~2��27��Precision Dynamics CorporationMemory chip holder and method of using sameUS55074121994�~6��14��1996�~4��16��Dragerwerk AgCentralized multichannel fluid delivery systemUS55192211994�~6��20��1996�~5��21��Frederick M. MakoDedicated apparatus and method for emission mammographyUS55199311994�~3��16��1996�~5��28��Syncor International CorporationContainer and method for transporting a syringe containing radioactive materialUS55369451995�~6��7��1996�~7��16��Syncor International CorporationContainer and method for transporting a syringe containing radioactive materialUS55474701994�~9��27��1996�~8��20��Abbott LaboratoriesAutomated drug infusion systemUS55729991995�~1��26��1996�~11��12��International Business Machines CorporationRobotic system for positioning a surgical instrument relative to a patient's bodyUS55797661995�~7��31��1996�~12��3��Board Of Regents, The University Of Texas SystemMethod of predicting carcinomic metastasesUS55805411992�~4��30��1996�~12��3��Mallinkrodt Medical, Inc.Method of conveying liquid materials and device for the automated elution of a radionuclidic generatorUS55875851994�~6��10��1996�~12��24��State Of Israel, Atomic Energy Commission, Soreq Nuclear Research Center, TheLight weight gamma-camera head and gamma-camera assemblies containing itUS56045311995�~1��17��1997�~2��18��State Of Israel, Ministry Of Defense, Armament Development AuthorityIn vivo video camera systemUS56178581995�~7��28��1997�~4��8��Vingmed Sound A/SApparatus for endoscopic or gastroscopic examinationUS56577591995�~1��6��1997�~8��19��Synectics Medical, IncorporatedMeasurement of gastric emptying and gastrointestinal outputUS56728771996�~3��27��1997�~9��30��Adac LaboratoriesCoregistration of multi-modality data in a medical imaging systemUS56906911996�~5��8��1997�~11��25��The Center For Innovative TechnologyGastro-intestinal pacemaker having phased multi-point stimulationUS56926401995�~12��5��1997�~12��2��Caulfield; Arthur E.Syringe content identification systemUS56949331995�~4��28��1997�~12��9��Care Wise Medical Products CorporationApparatus and methods for determining spatial coordinates of radiolabelled tissue using gamma-rays and associated characteristic X-raysUS57165951994�~8��22��1998�~2��10��Immunomedics, Inc.Intraperative, intravascular and endoscopic tumor and lesion detection and therapy with monovalent antibody fragmentsUS57275541996�~9��19��1998�~3��17��University Of Pittsburgh Of The Commonwealth System Of Higher EducationApparatus responsive to movement of a patient during treatment/diagnosisUS57291291995�~6��7��1998�~3��17��Biosense, Inc.Magnetic location system with feedback adjustment of magnetic field generatorUS57570061997�~1��30��1998�~5��26��Siemens Medical Systems, Inc.Articulating detector array for a gamma cameraUS57814421995�~5��15��1998�~7��14��Alaris Medical Systems, Inc.System and method for collecting data and managing patient careUS58065191995�~9��22��1998�~9��15��Medrad, Inc.Total system for contrast deliveryUS58118141996�~2��12��1998�~9��22��Cordis CorporationRadiation measuring catheter apparatus and methodUS58139851995�~7��31��1998�~9��29��Care Wise Medical Products CorporationApparatus and methods for providing attenuation guidance and tumor targeting for external beam radiation therapy administrationUS58140151995�~2��24��1998�~9��29��Harvard Clinical Technology, Inc.Infusion pump for at least one syringeUS58180501997�~4��7��1998�~10��6��Brookhaven Science Associates LlcCollimator-free photon tomographyUS58215411997�~1��15��1998�~10��13��Nova R&D, Inc.Method and apparatus for radiation detectionUS58280731997�~5��30��1998�~10��27��Syncor International CorporationDual purpose shielded container for a syringe containing radioactive materialUS58336031996�~3��13��1998�~11��10��Lipomatrix, Inc.Implantable biosensing transponderUS58400261994�~9��21��1998�~11��24��Medrad, Inc.Patient specific dosing contrast delivery systems and methodsUS58429771996�~7��23��1998�~12��1��The Johns Hopkins UniversityMulti-channel pill with integrated optical interfaceUS58710131995�~12��13��1999�~2��16��Elscint Ltd.Registration of nuclear medicine imagesUS58804751997�~6��3��1999�~3��9��Mitsubishi Denki Kabushiki KaishaScintillation fiber type radiation detectorUS58823381994�~4��28��1999�~3��16��Zeneca LimitedSyringes and syringe pumpsUS58844571997�~2��5��1999�~3��23��Smithkline Beecham CorporationMethod and apparatus for automatically producing a plurality of sterile liquid filled delivery devicesUS58852161997�~8��28��1999�~3��23��Medrad, Inc.Total system for contrast deliveryUS58933971996�~1��12��1999�~4��13��Bioject Inc.Medication vial/syringe liquid-transfer apparatusUS59005331995�~8��3��1999�~5��4��Trw Inc.System and method for isotope ratio analysis and gas detection by photoacousticsUS59112521997�~4��29��1999�~6��15��Cassel; DouglasAutomated syringe filling system for radiographic contrast agents and other injectable substancesUS59200541997�~10��3��1999�~7��6��Medrad, Inc.Closed loop information path for medical fluid delivery systemsUS59273511997�~5��30��1999�~7��27��Syncor International Corp.Drawing station system for radioactive materialUS59397241996�~12��18��1999�~8��17��State Of Israel, The, Atomic Energy Commission, Soreo Nuclear Research CenterLight weight-camera head and-camera assemblies containing itUS59441901997�~5��30��1999�~8��31��Mallinckrodt Inc.Radiopharmaceutical capsule safeUS59479351997�~11��25��1999�~9��7��Medrad, Inc.Syringes, syringe plungers and injector systemsUS59614571996�~5��3��1999�~10��5��The Regents Of The University Of MichiganMethod and apparatus for radiopharmaceutical-guided biopsyUS59735981998�~9��9��1999�~10��26��Precision Dynamics CorporationRadio frequency identification tag on flexible substrateUS62427431998�~8��11��2001�~6��5��Mosaic Imaging Technology, Inc.Non-orbiting tomographic imaging systemUSH121983�~3��11��1986�~1��7��The United States Of America As Represented By The United States Department Of EnergyNuclear medicine imaging system�D�M�Q�ޥ��ѦҤ��m1"Keeping Pace with Targeted Therapies in Lung Cancer" Highlights from ASCO 2006 Annual Meeting.2Aoi et al. "Absolute Quantitation of Regional Myocardial Blood Flow of Rats Using Dynamic Pinhole SPECT", IEEE Nuclear Science Symposium and Medical Imaging Conference Record, 3: 1780-1783, 2002. Abstract, Figs.3Babich JW et al., "Localization of radiolabeled chemotactic peptide as focal sites of Escherichia coli infection in rabbits: evidence for a receptor-specific mechanism", J Nucl Med 38(8):1316-22 (an abstract).4Communication pursuant to Article 96(2) Epc Dated Aug. 30, 2007 From the European Patent Office Re.: Application No. 03810570.6.5Communication Pursuant to Article 96(2) Epc Dated Jun. 19, 2006 From the European Patent Office Re.: Application No. 03810570.6.6Communication Relating to the Results of the Partial International Search Dated Apr. 18, 2007 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/1L2006/001291.7Communication Relating to the Results of the Partial International Search Dated May 21, 2008 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL2007/001588.8Fischman AJ et al., "Infection imaging with technetium-99m-labeled chemotactic peptide analogs", Semin Nucl Med 24(2) :154-68, 1994 (an abstract).9Gambhir SS, "Molecular imaging of cancer with positron emission tomography", Nature Reviews 2:683-693, 2002.10Hassan et al. "A Radiotelemetry Pill for the Measurement of Ionising Radiation Using A Mercuric Iodide Detector", Physics in Medicine and Biology, 23(2): 302-308, 1978.11Hoffman et al. "Intraoperative Probes and Imaging Probes", European Journal of Nuclear Medicine, 26(8): 913-935, 1999.12International Search Report Dated 26 Mar. 2007 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL05/00394.13International Search Report Dated Aug. 3, 2006 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL05/001173.14International Search Report Dated Feb. 1, 2006 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL05/00048.15International Search Report Dated Jul. 1, 2008, From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL06/00834.16International Search Report Dated Jul. 11, 2008 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL06/01511.17International Search Report Dated Jul. 2, 2007 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL2006/001291 .18International Search Report Dated Jul. 25, 2008 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL2007/001588.19International Search Report Dated Mar. 18, 2004 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL03/00917.20International Search Report Dated Mar. 23, 2006 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL05/00572.21International Search Report Dated May 11, 2006 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL05/001215 .22International Search Report Dated Nov. 1, 2007 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL06/00840.23International Search Report Dated Sep. 11, 2002 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL01/00638.24International Search Report May 24, 2007 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL05/00575.25International Search Report Sep. 12, 2002 From the International Searching Authority of the Patent Cooperation Treaty Re.: Application No. PCT/IL02/00057.26Kinahan et al. "Attenuation Correction for a Combined 3D Pet/Ct Scanner", Medical Physics, 25(10): 2046-2053, Oct. 1998.27Massoud TF et al., "Molecular imaging in living subjects: seeing fundamental biological processes in a new light", Genes & development 17:545-580, 2003.28Official Action Dated Apr. 20, 2006 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 10/240,239.29Official Action Dated Apr.15, 2008 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 09/641,973.30Official Action Dated Aug. 10, 2007 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 10/836,223.31Official Action Dated Dec. 13, 2007 From the US Patent and Trademark Office Re.: U.S. Appl. No. 10/616,301.32Official Action Dated Dec. 15, 2006 From the US Patent Office Re.: U.S. Appl. No. 10/616,301.33Official Action Dated Dec. 2, 2007 From the Israeli Patent Office Re.: Application No. 158442.34Official Action Dated Feb. 15, 2008 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 10/343,792.35Official Action Dated Jan. 07, 2009 From the US Patent and Trademark Office Re.: U.S. Appl. No. 10/616,307.36Official Action Dated Jan. 17, 2006 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 11/034,007.37Official Action Dated Jul. 12, 2007 From the US Patent and Trademark Office Re.: U.S. Appl. No. 10/616,301.38Official Action Dated Jul. 15, 2008 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 09/641,973.39Official Action Dated Jul. 17, 2007 From the Israeli Patent Office Re.: Application No. 154323.40Official Action Dated Jun. 1, 2006 From the United States Patent and Trademark Office Re.: Application No. 10/686,536.41Official Action Dated Mar. 15, 2004 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 09/725,316.42Official Action Dated May 3, 2007 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 10/240,239.43Official Action Dated Oct. 7, 2008 From the US Patent Office Re.: U.S. Appl. No. 10/616,301.44Official Action Dated Sep. 4, 2008 From the US Patent and Trademark Office Re.: U.S. Appl. No. 10/533,568.45Official Action Dated Sep. 5, 2002 From the United States Patent and Trademark Office Re.: U.S. Appl. No. 12/084,559.46PCT Patent Application No. PCT/IL2005/000572.47PCT Patent Application No. PCT/IL2005/000575.48PCT Patent Application No. PCT/IL2005/001173.49PCT Patent Application No. PCT/IL2005/001215.50PCT Patent Application No. PCT/IL2006/000059.51PCT Patent Application No. PCT/IL2006/000562.52PCT Patent Application No. PCT/IL2006/001511.53Rao PS et al., "99mTc-peptide-peptide nucleic acid probes for imaging oncogene mRNAs in tumours", Nuclear Medicine Communications 24(8):857-863, 2003 (an abstract).54Summons to Attend Oral Proceedings Pursuant to Rule 115(1) EPC Dated Jan. 16, 2009 From the European Patent Office Re.: Application No. 03810570.6.55Supplementary Partial European Search Report Dated Nov. 20, 2007 From the European Patent Office Re.: Application No. 02716285.8.56Supplementary Partial European Search Report Dated Sep. 04, 2007 From the European Patent Office Re.: Application No. 0 2716285.8.57Takahashi et al. "Attenuation Correction of Myocardial Spect Images With X-Ray Ct: Effects of Registration Errors Between X-Ray Ct and Spect", Annals of Nuclear Medicine, 16(6): 431-435, Sep. 2002.58U.S. Appl. No. 09/641,973, filed Aug. 21, 2000.59U.S. Appl. No. 10/533,568 filed Nov. 4, 2003.60U.S. Appl. No. 11/034,007, filed Jan. 13, 2005.61U.S. Appl. No. 11/607,075 filed Dec. 1, 2006.62U.S. Appl. No. 11/656,548 filed Jan. 13, 2005.63U.S. Appl. No. 11/750,057 filed May 17, 2007.64U.S. Appl. No. 60/625,971.65U.S. Appl. No. 60/628,105.66U.S. Appl. No. 60/630,561.67U.S. Appl. No. 60/632,236.68U.S. Appl. No. 60/632,515.69U.S. Appl. No. 60/635,630.70U.S. Appl. No. 60/636,088.71U.S. Appl. No. 60/640,215.72U.S. Appl. No. 60/648,385.73U.S. Appl. No. 60/648,690.74U.S. Appl. No. 60/675,892.75U.S. Appl. No. 60/691,780.76U.S. Appl. No. 60/700,299.77U.S. Appl. No. 60/700,317.78U.S. Appl. No. 60/700,318.79U.S. Appl. No. 60/700,752.80U.S. Appl. No. 60/700,753.81U.S. Appl. No. 60/702,979.82U.S. Appl. No. 60/720,034.83U.S. Appl. No. 60/720,541.84U.S. Appl. No. 60/720,652.85U.S. Appl. No. 60/750,287.86U.S. Appl. No. 60/750,334.87U.S. Appl. No. 60/750,597.88U.S. Appl. No. 60/800,845.89U.S. Appl. No. 60/800,846.90U.S. Appl. No. 60/816,970.91Van Den Bossche B et al., "Receptor Imaging in Oncology by Means of Nuclear Medicine: Current Status", Journal of Clinical Oncology 22(17); 3593-3607, 2004 (an abstract).92Van der Laken CJ et al., "Technetium-99m-labeled chemotactic peptides in acute infection and sterile inflammation"J Nucl Med 38(8):1310-5, 1997 (an abstract).93Yao D et al., "The utility of monoclonal antibodies in the imaging of prostate cancer", Semin Urol Oncol 20(3):211-8, 2002 (an abstract).94Yu et al. "Using Correlated Ct Images in Compensation for Attenuation in Pet Image Reconstruction", Proceedings of the Spie, Applications of Optical Engineering: Proceedings of OE/Midwest '90, 1396: 56-58, 1991.95Zaidi et al. "Magenetic Resonance Imaging-Guided Attenuation and Scatter Corrections in Three-Dimensional Brain Positron Emission Tomography", Medical Physics, 30(5): 937-948, May 2003.96Zaidi et al. "Mri-Guided Attenuation Correction in 3D Brain Pet", Neuroimage Human Brain Mapping 2002 Meeting, 16(2): Abstract 504, Jun. 2002.97Zhang et al. "An Innovative High Efficiency and High Resolution Probe for Prostate Imaging", The Journal of Nuclear Medicine, 68: 18, 2000. Abstract.������l�Ϥ�Google ���� - Sitemap - USPTO �j�q�U�� - ���p�v�F�� - �A�ȱ�� - ���� Google �M�Q - �N���^�X��ƬO�Ѭ��ӷ~�M�Q��Ʈw (IFI CLAIMS Patent Services) ����©2012 Google