Verfügbarkeit: Computed tomography

Computed tomography: from photon statistics to modern cone-beam CT

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1. Verfasser:	Buzug, Thorsten M. 1963- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2008
Schlagworte:	Computertomografie
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XIII, 521 S. zahlr. Ill., graph. Darst.
ISBN:	9783540394075

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Datensatz im Suchindex

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adam_text	This volume provides an overview of X-ray technology and the historical development of modern CT systems. The main focus of the book is a detailed derivation of reconstruction algorithms in 2D and modern 3D cone- beam systems. A thorough analysis of CT artifacts and a discussion of practical issues such as dose considerations give further insight into current CT systems. Although written mainly for graduate students of biomedical engineering, medical physics, medicine (radiology), mathematics, electrical engineering, and physics, practitioners in these fields will also benefit from this book. Buzug Computed Tomography From Photon Statistics to Modern Cone-Beam CT Contents Introduction ........................................................ 1 1.1 Computed Tomography - State of the Art ......................... 1 1.2 Inverse Problems .............................................. 2 1.3 Historical Perspective .......................................... 4 1.4 Some Examples ................................................ 7 1.5 Structure of the Book ........................................... 11 Fundamentals of X-ray Physics ........................................ 15 2.1 Introduction .................................................. 15 2.2 X-ray Generation .............................................. 15 2.2.1 X-ray Cathode .......................................... 16 2.2.2 Electron-Matter Interaction .............................. 19 2.2.3 Temperature Load ....................................... 23 2.2.4 X-ray Focus and Beam Quality ............................ 24 2.2.5 Beam Filtering .......................................... 28 2.2.6 Special Tube Designs .................................... 30 2.3 Photon-Matter Interaction ...................................... 31 2.3.1 Lambert-Beer s Law ..................................... 32 2.3.2 Mechanisms of Attenuation .............................. 34 2.4 Problems with Lambert-Beer s Law .............................. 46 2.5 X-ray Detection ............................................... 48 2.5.1 Gas Detectors ........................................... 48 2.5.2 Solid-State Scintillator Detectors .......................... 50 2.5.3 Solid-State Flat-Panel Detectors ........................... 52 2.6 X-ray Photon Statistics ......................................... 59 2.6.1 Statistical Properties of the X-ray Source ................... 60 2.6.2 Statistical Properties of the X-ray Detector ................. 64 2.6.3 Statistical Law of Attenuation ............................. 66 2.6.4 Moments of the Poisson Distribution ...................... 68 2.6.5 Distribution for a High Number of X-ray Quanta ........... 70 2.6.6 Non-Poisson Statistics ................................... 72 Contents Milestones of Computed Tomography ................................. 75 3.1 Introduction .................................................. 75 3.2 Tomosynthesis ................................................ 76 3.3 Rotation-Translation of a Pencil Beam (First Generation) ........... 79 3.4 Rotation-Translation of a Narrow Fan Beam (Second Generation) ... 83 3.5 Rotation of a Wide Aperture Fan Beam (Third Generation) ......... 84 3.6 Rotation-Fix with Closed Detector Ring (Fourth Generation) ....... 87 3.7 Electron Beam Computerized Tomography ....................... 89 3.8 Rotation in Spiral Path .......................................... 90 3.9 Rotation in Cone-Beam Geometry ............................... 91 3.10 Micro-CT ..................................................... 93 3.11 PET-CT Combined Scanners .................................... 96 3.12 Optical Reconstruction Techniques .............................. 98 Fundamentals of Signal Processing .................................... 101 4.1 Introduction .................................................. 102 4.2 Signals ........................................................ 102 4.3 Fundamental Signals ........................................... 102 4.4 Systems ....................................................... 104 4.4.1 Linearity ...............................................104 4.4.2 Position or Translation Invariance .........................105 4.4.3 Isotropy and Rotation Invariance ..........................105 4.4.4 Causality ...............................................106 4.4.5 Stability ................................................106 4.5 Signal Transmission ............................................106 4.6 Dirac s Delta Distribution .......................................109 4.7 Dirac Comb ...................................................112 4.8 Impulse Response ..............................................115 4.9 Transfer Function ..............................................116 4.10 Fourier Transform .............................................118 4.11 Convolution Theorem ..........................................124 4.12 Rayleighs Theorem .............................................125 4.13 Power Theorem ................................................125 4.14 Filtering in the Frequency Domain ...............................126 4.15 Hankel Transform .............................................128 4.16 Abel Transform ................................................132 4.17 Hubert Transform .............................................133 4.18 Sampling Theorem and Nyquist Criterion .........................135 4.19 Wiener-Khintchine Theorem ....................................141 4.20 Fourier Transform of Discrete Signals ............................144 4.21 Finite Discrete Fourier Transform ................................145 4.22 z-Transform ...................................................147 4.23 Chirp г -Transform ............................................. 148 Contents XI Two-Dimensional Fourier-Based Reconstruction Methods ............... 151 5.1 Introduction .................................................. 151 5.2 Radon Transformation ......................................... 153 5.3 Inverse Radon Transformation and Fourier Slice Theorem .......... 163 5.4 Implementation of the Direct Inverse Radon Transform ............ 167 5.5 Linogram Method ............................................. 170 5.6 Simple Backprojection .......................................... 175 5.7 Filtered Backprojection ......................................... 179 5.8 Comparison Between Backprojection and Filtered Backprojection ... 183 5.9 Filtered Layergram: Deconvolution of the Simple Backprojection .... 187 5.10 Filtered Backprojection and Radon s Solution ...................... 191 5.11 Cormack Transform ............................................ 194 Algebraic and Statistical Reconstruction Methods .......................201 6.1 Introduction ..................................................201 6.2 Solution with Singular Value Decomposition ......................207 6.3 Iterative Reconstruction with ART ...............................211 6.4 Pixel Basis Functions and Calculation of the System Matrix .........218 6.4.1 Discretization of the Image: Pixels and Blobs ...............219 6.4.2 Approximation of the System Matrix in the Case of Pixels ___221 6.4.3 Approximation of the System Matrix in the Case of Blobs ___222 6.5 Maximum Likelihood Method ...................................223 6.5.1 Maximum Likelihood Method for Emission Tomography .... 224 6.5.2 Maximum Likelihood Method for Transmission CT .........230 6.5.3 Regularization of the Inverse Problem .....................235 6.5.4 Approximation Through Weighted Least Squares ............238 Technical Implementation ............................................241 7.1 Introduction ..................................................241 7.2 Reconstruction with Real Signals ................................242 7.2.1 Frequency Domain Windowing ...........................244 7.2.2 Convolution in the Spatial Domain ........................247 7.2.3 Discretization of the Kernels ..............................252 7.3 Practical Implementation of the Filtered Backprojection ............255 7.3.1 Filtering of the Projection Signal ..........................255 7.3.2 Implementation of the Backprojection .....................258 7.4 Minimum Number of Detector Elements .........................258 7.5 Minimum Number of Projections ................................259 7.6 Geometry of the Fan-Beam System ...............................261 7.7 Image Reconstruction for Fan-Beam Geometry ....................262 7.7.1 Rebinning of the Fan Beams ..............................265 7.7.2 Complementary Rebinning ...............................270 XII Contents 7.7.3 Filtered Backprojection for Curved Detector Arrays .........272 7.7.4 Filtered Backprojection for Linear Detector Arrays ..........280 7.7.5 Discretization of Backprojection for Fan-Beam Geometry ----286 7.8 Quarter-Detector Offset and Sampling Theorem ...................293 Three-Dimensional Fourier-Based Reconstruction Methods ..............303 8.1 Introduction ..................................................303 8.2 Secondary Reconstruction Based on 2D Stacks of Tomographie Slices 304 8.3 Spiral CT .....................................................309 8.4 Exact 3D Reconstruction in Parallel-Beam Geometry ..............321 8.4.1 3D Radon Transform and the Fourier Slice Theorem .........321 8.4.2 Three-Dimensional Filtered Backprojection ................326 8.4.3 Filtered Backprojection and Radons Solution ...............327 8.4.4 Central Section Theorem .................................329 8.4.5 Orlov s Sufficiency Condition .............................335 8.5 Exact 3D Reconstruction in Cone-Beam Geometry ................336 8.5.1 Key Problem of Cone-Beam Geometry ....................339 8.5.2 Method of Grangeat .....................................341 8.5.3 Computation of the First Derivative on the Detector .........347 8.5.4 Reconstruction with the Derivative of the Radon Transform .. 348 8.5.5 Central Section Theorem and Grangeats Solution ...........350 8.5.6 Direct 3D Fourier Reconstruction with the Cone-Beam Geometry ..............................................354 8.5.7 Exact Reconstruction using Filtered Backprojection .........357 8.6 Approximate 3D Reconstructions in Cone-Beam Geometry .........366 8.6.1 Missing Data in the 3D Radon Space ......................366 8.6.2 FDK Cone-Beam Reconstruction for Planar Detectors .......371 8.6.3 FDK Cone-Beam Reconstruction for Cylindrical Detectors ... 388 8.6.4 Variations of the FDK Cone-Beam Reconstruction ..........390 8.7 Helical Cone-Beam Reconstruction Methods ......................394 Image Quality and Artifacts ..........................................403 9.1 Introduction ..................................................403 9.2 Modulation Transfer Function of the Imaging Process ..............404 9.3 Modulation Transfer Function and Point Spread Function ..........410 9.4 Modulation Transfer Function in Computed Tomography ..........412 9.5 SNR, DQE, and ROC ...........................................421 9.6 2D Artifacts ...................................................423 9.6.1 Partial Volume Artifacts .................................423 9.6.2 Beam-Hardening Artifacts ...............................425 9.6.3 Motion Artifacts ........................................432 9.6.4 Sampling Artifacts ......................................435 9.6.5 Electronic Artifacts ......................................435 9.6.6 Detector Afterglow ......................................437 9.6.7 Metal Artifacts .......................................... 438 Contents XIII 9.6.8 Scattered Radiation Artifacts .............................443 9.7 3D Artifacts ...................................................445 9.7.1 Partial Volume Artifacts .................................446 9.7.2 Staircasing in Slice Stacks ................................448 9.7.3 Motion Artifacts ........................................450 9.7.4 Shearing in Slice Stacks Due to Gantry Tilt .................451 9.7.5 Sampling Artifacts in Secondary Reconstruction ............454 9.7.6 Metal Artifacts in Slice Stacks .............................455 9.7.7 Spiral CT Artifacts ......................................456 9.7.8 Cone-Beam Artifacts ....................................458 9.7.9 Segmentation and Triangulation Inaccuracies ...............459 9.8 Noise in Reconstructed Images ..................................462 9.8.1 Variance of the Radon Transform .........................462 9.8.2 Variance of the Reconstruction ...........................464 9.8.3 Dose, Contrast, and Variance .............................467 10 Practical Aspects of Computed Tomography ............................471 10.1 Introduction ..................................................471 10.2 Scan Planning .................................................471 10.3 Data Representation ............................................475 10.3.1 Hounsfield Units ........................................475 10.3.2 Window Width and Window Level ........................476 10.3.3 Three-Dimensional Representation .......................479 10.4 Some Applications in Medicine ..................................482 11 Dose ...............................................................485 11.1 Introduction ..................................................485 11.2 Energy Dose, Equivalent Dose, and Effective Dose .................486 11.3 Definition of Specific CT Dose Measures ..........................487 11.4 Device-Related Measures for Dose Reduction .....................493 11.5 User-Related Measures for Dose Reduction .......................499 References ......................................................... 503 Subject Index ...................................................... 511
adam_txt	This volume provides an overview of X-ray technology and the historical development of modern CT systems. The main focus of the book is a detailed derivation of reconstruction algorithms in 2D and modern 3D cone- beam systems. A thorough analysis of CT artifacts and a discussion of practical issues such as dose considerations give further insight into current CT systems. Although written mainly for graduate students of biomedical engineering, medical physics, medicine (radiology), mathematics, electrical engineering, and physics, practitioners in these fields will also benefit from this book. Buzug Computed Tomography From Photon Statistics to Modern Cone-Beam CT Contents Introduction . 1 1.1 Computed Tomography - State of the Art . 1 1.2 Inverse Problems . 2 1.3 Historical Perspective . 4 1.4 Some Examples . 7 1.5 Structure of the Book . 11 Fundamentals of X-ray Physics . 15 2.1 Introduction . 15 2.2 X-ray Generation . 15 2.2.1 X-ray Cathode . 16 2.2.2 Electron-Matter Interaction . 19 2.2.3 Temperature Load . 23 2.2.4 X-ray Focus and Beam Quality . 24 2.2.5 Beam Filtering . 28 2.2.6 Special Tube Designs . 30 2.3 Photon-Matter Interaction . 31 2.3.1 Lambert-Beer's Law . 32 2.3.2 Mechanisms of Attenuation . 34 2.4 Problems with Lambert-Beer s Law . 46 2.5 X-ray Detection . 48 2.5.1 Gas Detectors . 48 2.5.2 Solid-State Scintillator Detectors . 50 2.5.3 Solid-State Flat-Panel Detectors . 52 2.6 X-ray Photon Statistics . 59 2.6.1 Statistical Properties of the X-ray Source . 60 2.6.2 Statistical Properties of the X-ray Detector . 64 2.6.3 Statistical Law of Attenuation . 66 2.6.4 Moments of the Poisson Distribution . 68 2.6.5 Distribution for a High Number of X-ray Quanta . 70 2.6.6 Non-Poisson Statistics . 72 Contents Milestones of Computed Tomography . 75 3.1 Introduction . 75 3.2 Tomosynthesis . 76 3.3 Rotation-Translation of a Pencil Beam (First Generation) . 79 3.4 Rotation-Translation of a Narrow Fan Beam (Second Generation) . 83 3.5 Rotation of a Wide Aperture Fan Beam (Third Generation) . 84 3.6 Rotation-Fix with Closed Detector Ring (Fourth Generation) . 87 3.7 Electron Beam Computerized Tomography . 89 3.8 Rotation in Spiral Path . 90 3.9 Rotation in Cone-Beam Geometry . 91 3.10 Micro-CT . 93 3.11 PET-CT Combined Scanners . 96 3.12 Optical Reconstruction Techniques . 98 Fundamentals of Signal Processing . 101 4.1 Introduction . 102 4.2 Signals . 102 4.3 Fundamental Signals . 102 4.4 Systems . 104 4.4.1 Linearity .104 4.4.2 Position or Translation Invariance .105 4.4.3 Isotropy and Rotation Invariance .105 4.4.4 Causality .106 4.4.5 Stability .106 4.5 Signal Transmission .106 4.6 Dirac's Delta Distribution .109 4.7 Dirac Comb .112 4.8 Impulse Response .115 4.9 Transfer Function .116 4.10 Fourier Transform .118 4.11 Convolution Theorem .124 4.12 Rayleighs Theorem .125 4.13 Power Theorem .125 4.14 Filtering in the Frequency Domain .126 4.15 Hankel Transform .128 4.16 Abel Transform .132 4.17 Hubert Transform .133 4.18 Sampling Theorem and Nyquist Criterion .135 4.19 Wiener-Khintchine Theorem .141 4.20 Fourier Transform of Discrete Signals .144 4.21 Finite Discrete Fourier Transform .145 4.22 z-Transform .147 4.23 Chirp г -Transform . 148 Contents XI Two-Dimensional Fourier-Based Reconstruction Methods . 151 5.1 Introduction . 151 5.2 Radon Transformation . 153 5.3 Inverse Radon Transformation and Fourier Slice Theorem . 163 5.4 Implementation of the Direct Inverse Radon Transform . 167 5.5 Linogram Method . 170 5.6 Simple Backprojection . 175 5.7 Filtered Backprojection . 179 5.8 Comparison Between Backprojection and Filtered Backprojection . 183 5.9 Filtered Layergram: Deconvolution of the Simple Backprojection . 187 5.10 Filtered Backprojection and Radon's Solution . 191 5.11 Cormack Transform . 194 Algebraic and Statistical Reconstruction Methods .201 6.1 Introduction .201 6.2 Solution with Singular Value Decomposition .207 6.3 Iterative Reconstruction with ART .211 6.4 Pixel Basis Functions and Calculation of the System Matrix .218 6.4.1 Discretization of the Image: Pixels and Blobs .219 6.4.2 Approximation of the System Matrix in the Case of Pixels _221 6.4.3 Approximation of the System Matrix in the Case of Blobs _222 6.5 Maximum Likelihood Method .223 6.5.1 Maximum Likelihood Method for Emission Tomography . 224 6.5.2 Maximum Likelihood Method for Transmission CT .230 6.5.3 Regularization of the Inverse Problem .235 6.5.4 Approximation Through Weighted Least Squares .238 Technical Implementation .241 7.1 Introduction .241 7.2 Reconstruction with Real Signals .242 7.2.1 Frequency Domain Windowing .244 7.2.2 Convolution in the Spatial Domain .247 7.2.3 Discretization of the Kernels .252 7.3 Practical Implementation of the Filtered Backprojection .255 7.3.1 Filtering of the Projection Signal .255 7.3.2 Implementation of the Backprojection .258 7.4 Minimum Number of Detector Elements .258 7.5 Minimum Number of Projections .259 7.6 Geometry of the Fan-Beam System .261 7.7 Image Reconstruction for Fan-Beam Geometry .262 7.7.1 Rebinning of the Fan Beams .265 7.7.2 Complementary Rebinning .270 XII Contents 7.7.3 Filtered Backprojection for Curved Detector Arrays .272 7.7.4 Filtered Backprojection for Linear Detector Arrays .280 7.7.5 Discretization of Backprojection for Fan-Beam Geometry ----286 7.8 Quarter-Detector Offset and Sampling Theorem .293 Three-Dimensional Fourier-Based Reconstruction Methods .303 8.1 Introduction .303 8.2 Secondary Reconstruction Based on 2D Stacks of Tomographie Slices 304 8.3 Spiral CT .309 8.4 Exact 3D Reconstruction in Parallel-Beam Geometry .321 8.4.1 3D Radon Transform and the Fourier Slice Theorem .321 8.4.2 Three-Dimensional Filtered Backprojection .326 8.4.3 Filtered Backprojection and Radons Solution .327 8.4.4 Central Section Theorem .329 8.4.5 Orlov s Sufficiency Condition .335 8.5 Exact 3D Reconstruction in Cone-Beam Geometry .336 8.5.1 Key Problem of Cone-Beam Geometry .339 8.5.2 Method of Grangeat .341 8.5.3 Computation of the First Derivative on the Detector .347 8.5.4 Reconstruction with the Derivative of the Radon Transform . 348 8.5.5 Central Section Theorem and Grangeats Solution .350 8.5.6 Direct 3D Fourier Reconstruction with the Cone-Beam Geometry .354 8.5.7 Exact Reconstruction using Filtered Backprojection .357 8.6 Approximate 3D Reconstructions in Cone-Beam Geometry .366 8.6.1 Missing Data in the 3D Radon Space .366 8.6.2 FDK Cone-Beam Reconstruction for Planar Detectors .371 8.6.3 FDK Cone-Beam Reconstruction for Cylindrical Detectors . 388 8.6.4 Variations of the FDK Cone-Beam Reconstruction .390 8.7 Helical Cone-Beam Reconstruction Methods .394 Image Quality and Artifacts .403 9.1 Introduction .403 9.2 Modulation Transfer Function of the Imaging Process .404 9.3 Modulation Transfer Function and Point Spread Function .410 9.4 Modulation Transfer Function in Computed Tomography .412 9.5 SNR, DQE, and ROC .421 9.6 2D Artifacts .423 9.6.1 Partial Volume Artifacts .423 9.6.2 Beam-Hardening Artifacts .425 9.6.3 Motion Artifacts .432 9.6.4 Sampling Artifacts .435 9.6.5 Electronic Artifacts .435 9.6.6 Detector Afterglow .437 9.6.7 Metal Artifacts . 438 Contents XIII 9.6.8 Scattered Radiation Artifacts .443 9.7 3D Artifacts .445 9.7.1 Partial Volume Artifacts .446 9.7.2 Staircasing in Slice Stacks .448 9.7.3 Motion Artifacts .450 9.7.4 Shearing in Slice Stacks Due to Gantry Tilt .451 9.7.5 Sampling Artifacts in Secondary Reconstruction .454 9.7.6 Metal Artifacts in Slice Stacks .455 9.7.7 Spiral CT Artifacts .456 9.7.8 Cone-Beam Artifacts .458 9.7.9 Segmentation and Triangulation Inaccuracies .459 9.8 Noise in Reconstructed Images .462 9.8.1 Variance of the Radon Transform .462 9.8.2 Variance of the Reconstruction .464 9.8.3 Dose, Contrast, and Variance .467 10 Practical Aspects of Computed Tomography .471 10.1 Introduction .471 10.2 Scan Planning .471 10.3 Data Representation .475 10.3.1 Hounsfield Units .475 10.3.2 Window Width and Window Level .476 10.3.3 Three-Dimensional Representation .479 10.4 Some Applications in Medicine .482 11 Dose .485 11.1 Introduction .485 11.2 Energy Dose, Equivalent Dose, and Effective Dose .486 11.3 Definition of Specific CT Dose Measures .487 11.4 Device-Related Measures for Dose Reduction .493 11.5 User-Related Measures for Dose Reduction .499 References . 503 Subject Index . 511
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id	DE-604.BV023344842
illustrated	Illustrated
index_date	2024-07-02T21:03:02Z
indexdate	2024-07-09T21:16:27Z
institution	BVB
isbn	9783540394075
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016528550
oclc_num	244035239
open_access_boolean
owner	DE-355 DE-BY-UBR DE-29T DE-92 DE-1050 DE-19 DE-BY-UBM DE-384 DE-739
owner_facet	DE-355 DE-BY-UBR DE-29T DE-92 DE-1050 DE-19 DE-BY-UBM DE-384 DE-739
physical	XIII, 521 S. zahlr. Ill., graph. Darst.
publishDate	2008
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publisher	Springer
record_format	marc
spelling	Buzug, Thorsten M. 1963- Verfasser (DE-588)129309559 aut Computed tomography from photon statistics to modern cone-beam CT Thorsten M. Buzug Berlin [u.a.] Springer 2008 XIII, 521 S. zahlr. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Computertomografie (DE-588)4113240-3 gnd rswk-swf Computertomografie (DE-588)4113240-3 s DE-604 Erscheint auch als Online-Ausgabe 978-3-540-39408-2 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016528550&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016528550&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Buzug, Thorsten M. 1963- Computed tomography from photon statistics to modern cone-beam CT Computertomografie (DE-588)4113240-3 gnd
subject_GND	(DE-588)4113240-3
title	Computed tomography from photon statistics to modern cone-beam CT
title_auth	Computed tomography from photon statistics to modern cone-beam CT
title_exact_search	Computed tomography from photon statistics to modern cone-beam CT
title_exact_search_txtP	Computed tomography from photon statistics to modern cone-beam CT
title_full	Computed tomography from photon statistics to modern cone-beam CT Thorsten M. Buzug
title_fullStr	Computed tomography from photon statistics to modern cone-beam CT Thorsten M. Buzug
title_full_unstemmed	Computed tomography from photon statistics to modern cone-beam CT Thorsten M. Buzug
title_short	Computed tomography
title_sort	computed tomography from photon statistics to modern cone beam ct
title_sub	from photon statistics to modern cone-beam CT
topic	Computertomografie (DE-588)4113240-3 gnd
topic_facet	Computertomografie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016528550&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016528550&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT buzugthorstenm computedtomographyfromphotonstatisticstomodernconebeamct

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