Publications / Veröffentlichungen
Overview / Übersicht
Original scientific publication / Wissenschaftliche Originalarbeit 112
Review article, Invited publication / Übersichtsartikel, Beitrag nach Aufforderung 13
Textbook contribution / Buchkapitel 13
Proceedings volume / Buchbeitrag 168
Published abstract / Veröffentlichte Vortragskurzfassung 359
Selected Publications / Ausgewählte Veröffentlichungen
E. Baader, L. Klein, J. Maier, S. Sawall, and M. Kachelrieß. Patient radiation risk reduction by controlling the tube start angle in single and dual source spiral CT scans: A simulation study. Med. Phys. 51(10):7080-7092, October 2024. DOI
L. Duan, E. Eulig, M. Knaup, R. Adamus, M. Lell, and M. Kachelrieß. Training of a deep learning based digital subtraction angiography method using synthetic data. Med. Phys. 51(7):4793-4810, July 2024. DOI
M. Fix Martinez, L. Klein, J. Maier, L. T. Rotkopf, H.-P. Schlemmer, S.O. Schönberg, M. Kachelrieß, and S. Sawall. Potential radiation dose reduction in clinical photon‑counting CT by the small pixel effect: ultra‑high resolution (UHR) acquisitions reconstructed to standard resolution. European Radiology 34:4484–4491, 2024. DOI
S. Sawall, E. Baader, J. Wolf, J. Maier, H.-P. Schlemmer, S.O. Schönberg, I. Sechopoulos, and M. Kachelrieß. Image quality of opportunistic breast examinations in photon-counting computed tomography: A phantom study. European Journal of Medical Physics (Physica Medica) 122:103378, June 2024. DOI
J. Maier, J. Erath, S. Sawall, E. Fournié, K. Stierstorfer, and M. Kachelrieß. Raw data consistent deep learning-based field of view extension for dual-source dual-energy CT. Med. Phys. 51(3):1822-1831, March 2024. DOI
J. Magonov, J. Maier, J. Erath, J. Sunnegårdh, E. Fournié, K. Stierstorfer, and M. Kachelrieß. Reducing windmill artifacts in clinical spiral CT using a deep learning-based projection raw data upsampling: Method and robustness evaluation. Med. Phys. 51(3):1597-1616, March 2024. DOI
S. Sawall, J. Maier, S. Sen, H. Gehrig, T.-S. Kim, H.-P. Schlemmer, S.O. Schönberg, M. Kachelrieß, and Maurice Rütters. Dental imaging in clinical photon-counting CT at a quarter of DVT dose. J. of Dentistry 142(3):104859 (5 pages), March 2024. DOI
M. Lell and M. Kachelrieß. Spektrale Computertomographie in der onkologischen Diagnostik. Die Onkologie 29(12):1060-1068, Dezember 2023. DOI
T. Vöth, T. König, E. Eulig, M. Knaup, V. Wiesmann, K. Hörndler, and M. Kachelrieß. Real-time 3D reconstruction of guidewires and stents using two update x-ray projections in a rotating imaging setup. Med. Phys. 50(9):5312-5330, September 2023. DOI
M. Lell and M. Kachelrieß. Computed tomography 2.0: New detector technology, AI, and other developments. Investigative Radiology 58(8):587-601, August 2023. DOI
M. Kachelrieß. Risikominimierende Röhrenstrommodulation in der Computertomographie. Die Radiologie 63(7):523-529, July 2023. DOI
C. Amato, M. Susenburger, S. Lehr, J. Kuntz, N. Gehrke, D. Franke, T. Thüring, A. Briel, C. Brönnimann, M. Kachelrieß, and S. Sawall. Dual-contrast photon-counting micro-CT using iodine and a novel bismuth-based contrast agent. Phys. Med. Biol. 68:135001, 2023. DOI
E. Wehrse, L. Klein, L. Rotkopf, W. Stiller, M. Finke, G. Echner, C. Glowa, S. Heinze, C. Ziener, H.-P. Schlemmer, M. Kachelrieß, and S. Sawall. Ultrahigh resolution whole body photon counting computed tomography as a novel versatile tool for translational research from mouse to man. Zeitschrift für Medizinische Physik: 33:155-167, 2023. DOI
I. Maatman, S. Ypma, M. Kachelrieß, Y. Berker, E. van der Bijl, K. T. Block, J. J. Hermans, M. C. Maas, and T. W. J. Scheenen. Single-spoke binning: Reducing motion artifacts in abdominal radial stack-of-stars imaging. Magnetic Resonance in Medicine 89:1931-1944, 2023. DOI
J. A. Peña, L. Klein, J. Maier, T. Damm, H.-P. Schlemmer, K. Engelke, C.-C. Glüer, M. Kachelrieß, and S. Sawall. Dose-efficient assessment of trabecular microstructure using ultra-high-resolution photon-counting CT. Zeitschrift für Medizinische Physik 32:403-416, 2022. DOI
P. Trapp, J. Maier, M. Susenburger, S. Sawall, and M. Kachelrieß. Empirical scatter correction (ESC): CBCT scatter artifact reduction without prior information. Med. Phys. 49(7):4566-4584, July 2022. DOI
L. Klein, C. Liu, J. Steidel, L. Enzmann, M. Knaup, S. Sawall, A. Maier, M. Lell, J. Maier, and M. Kachelrieß. Patient-specific radiation risk-based tube current modulation for diagnostic CT. Med. Phys. 49(7):4391-4403, July 2022. (This paper received the Moses&Sylvia Greenfield Award for the best scientific paper on imaging in Medical Physics in 2022.) DOI
M. Rütters, S. Sen, H. Gehrig, T. Bruckner, T.-S. Kim, C. J. Lux, H.-P. Schlemmer, S. Heinze, J. Maier, M. Kachelrieß, and S. Sawall. Dental imaging using an ultra‑high resolution photon‑counting CT system. Scientific Reports 12:7125, May 2022. DOI
J. Maier, L. Klein, E. Eulig, S. Sawall, and M. Kachelrieß. Real-time estimation of patient-specific dose distributions for medical CT using the deep dose estimation. Med. Phys. 49(4):2259-2269, April 2022. DOI
S. Lebedev, E. Fournié, J. Maier, K. Stierstorfer, and M. Kachelrieß. Motion compensation for aortic valves using partial angle CT reconstructions. Med. Phys. 49(3):1495-1506, March 2022. DOI
S. Chen, X. Zhong, S. Dorn, N. Ravikumar, Q. Tao, X. Huang, M. Lell, M. Kachelrieß, and A. Maier. Improving generalization capability of multi-organ segmentation models using dual-energy CT. IEEE Trans. Rad. and Plasma Med. Sci. 6(1):79-86, January 2022. DOI
J. Steidel, J. Maier, S. Sawall, and M. Kachelrieß. Dose reduction potential in diagnostic single energy CT through patient-specific prefilters and a wider range of tube voltages. Med. Phys. 49(1):93-106, 2022. DOI
S. Zhi, M. Kachelrieß, F. Pan, and X. Mou. CycN-Net: A convolutional neural network specialized for 4D CBCT images refinement. IEEE Trans. Med. Imag. 40(11):3054-3064, November 2021. DOI
S. Zhi, M. Kachelrieß, and X. Mou. Spatiotemporal structure-aware dictionary learning-based 4D CBCT reconstruction. Med. Phys. 48(10):6421-6436, October 2021. DOI
E. Eulig, J. Maier, M. Knaup, R. Bennett, K. Hörndler, A. Wang, and M. Kachelrieß. Deep learning-based reconstruction of interventional tools and devices from four x-ray projections for tomographic interventional guidance. Med. Phys. 48(10):5837-5850, October 2021. (This paper received the Sylvia&Moses Greenfield Award for the best scientific paper on imaging in Medical Physics in 2021). DOI
J. Erath, T. Vöth, J. Maier, E. Fournié, M. Petersilka, K. Stierstorfer, and M. Kachelrieß. Deep learning-based forward and cross-scatter correction in dual source CT. Med. Phys. 48:4824–4842, July 2021. DOI
A. Byl, L. Klein, S. Sawall, S. Heinze, H.-P. Schlemmer, and M. Kachelrieß. Photon-counting normalized metal artifact (NMAR) reduction in diagnostic CT. Med. Phys. 48(7):3572-3582, July 2021. DOI
J. Maier, S. Lebedev, J. Erath, E. Eulig, S. Sawall, E. Fournié, K. Stierstorfer, M. Lell, and M. Kachelrieß. Deep learning-based coronary artery motion estimation and compensation for short-scan cardiac CT. Med. Phys. 48(7):3559-3571, July 2021. DOI
S. Sawall, C. Amato, L. Klein, E. Wehrse, J. Maier, and M. Kachelrieß. Toward molecular imaging using spectral photon-counting computed tomography? Current Opinion in Chemical Biology 63:163-170, 2021. DOI
J. N. Freedman, O. J. Gurney-Champion, S. Nill, A.-M. Shiarli, H. E. Bainbridge, H. C. Mandeville, D.-M. Koh, F. McDonald, M. Kachelrieß, U. Oelfke, and A. Wetscherek. Rapid 4D-MRI reconstruction using a deep radial convolutional neural network: Dracula. Radiotherapy and Oncology 159:209-217, April 2021. DOI
S. Sawall, L. Klein, E. Wehrse, L.T. Rotkopf, C. Amato, J. Maier, H.-P. Schlemmer, C.H. Ziener, S. Heinze, and M. Kachelrieß. Threshold-dependent iodine imaging and spectral separation in a whole-body photon-counting CT system. Eur. Radiol. 31:6631–6639, March 2021. DOI
E. Wehrse, L. Klein, L.T. Rotkopf, W.L. Wagner, M. Uhrig, C.P. Heußel, C.H. Ziener, S. Delorme, S. Heinze, M. Kachelrieß, H.-P. Schlemmer, and S. Sawall. Photon-counting detectors in computed tomography: from quantum physics to clinical practice. Der Radiologe, 2021. DOI
E. Wehrse, S. Sawall, L. Klein, P. Glemser, S. Delorme, H.-P. Schlemmer, M. Kachelrieß, M. Uhrig, C. H. Ziener and L. T. Rotkopf. Potential of ultra-high-resolution photon-counting CT of bone metastases: initial experiences in breast cancer patients. NPJ Breast Cancer 7:3 (8 pages), January 2021. DOI
C. Amato, L. Klein, E. Wehrse, L.T. Rotkopf, S. Sawall, J. Maier, C.H. Ziener, H.‐P. Schlemmer, and M. Kachelrieß. Potential of contrast agents based on high‐Z elements for contrast‐enhanced photon‐counting computed tomography. Med. Phys. 47(12):6179-6190, December 2020. DOI
T. Do, S. Sawall, S. Heinze, T. Reiner, C.H. Ziener, W. Stiller, H.-P. Schlemmer, M. Kachelrieß, H.-U. Kauczor, S. Skornitzke. A semi-automated quantitative comparison of metal artifact reduction in photon-counting computed tomography by energy-selective thresholding. Scientific Reports 10:21099, 2020. DOI
L. Taeubert, Y. Berker, B. Beuthien-Baumann, A. L. Hoffmann, E. Troost, M. Kachelrieß, and C. Gillmann. CT-based attenuation correction of whole-body radiotherapy treatment positioning devices in PET/MRI hybrid imaging. Phys. Med. Biol. 65:23NT02, November 2020. DOI
S. Sawall, J. Beckendorf, C. Amato, J. Maier, J. Backs, G. Vande Velde, M. Kachelrieß, and J. Kuntz. Coronary micro-computed tomography angiography in mice. Scientific Reports 10:16866 (9 pages), 2020. DOI
M. Buzan, A. Wetscherek, C. Rank, M. Kreuter, C. P. Heussel, M. Kachelrieß, and J. Dinkel. Delayed contrast dynamics as marker of regional impairment in pulmonary fibrosis using 5D MRI - a pilot study. Br. J. Radiol. 93(1113):20190121, July 2020. DOI
B. Tielemans, K. Dekoster, S. E. Verleden, S. Sawall, B. Leszczyński, K. Laperre, A. Vanstapel, J. Verschakelen, M. Kachelrieß, E. Verbeken, J. Swoger, and G. Vande Velde. From mouse to man and back: closing the correlation gap between imaging and histopathology for lung diseases. Diagnostics 10(9):636 (25 pages), 2020. DOI
D. Matenine, M. Kachelriess, P. Després, J.A. de Guise, and M.Schmittbuhl. Potential of iterative reconstruction for maxillofacial cone beam CT imaging. Neuroradiology 2020. DOI
A. Kofler, M. Haltmeier, T. Schaeffter, M. Kachelrieß, M. Dewey, C. Wald, and C. Kolbitsch. Neural networks-based regularization for large-scale medical image reconstruction. Phys. Med. Biol. 65:135003, 2020. DOI
S. Zhi, M. Kachelrieß, and X. Mou. High-quality initial image-guided 4D CBCT reconstruction. Med. Phys. 47(5):2099-2115, May 2020. DOI
T. Beyer, L. Bidaut, J. Dickson, M. Kachelriess, F. Kiessling, R. Leitgeb, J. Ma, L. Sundar, B. Theek, and O. Mawlawi. What scans we will read: imaging instrumentation trends in clinical oncology. Cancer Imaging 20:38, 2020. DOI
M. Kachelrieß, and M. Rehani. Is it possible to kill the radiation risk issue in computed tomography? Physica Medica 71:176-177, 2020. DOI
M. Dewey, M. Siebes, M. Kachelrieß, K. F. Kofoed, P. Maurovich-Horvat, K. Nikolaou, W. Bai, A. Kofler, R. Manka, S. Kozerke, A. Chiribiri, T. Schaeffter, F. Michallek, F. Bengel, S. Nekolla, P. Knaapen, M.Lubberink, R. Senior, M.-X. Tang, J. J. Piek, T. van de Hoef, J.Martens, and L. Schreiber. Consensus statement: Clinical quantitative cardiac imaging for the assessment of myocardial ischaemia. Nature Reviews Cardiology, 2020. DOI
S. Sawall, L. Klein, C. Amato, E. Wehrse, S. Dorn, J. Maier, S. Heinze,H.-P. Schlemmer, C. Ziener, M. Uhrig, and M. Kachelrieß. Iodine contrast-to-noise ratio improvement at unit dose and contrast mediavolume reduction in a whole-body photon-counting CT. European Journal of Radiology 126:108909, May 2020. DOI
S. Chen, X. Zhong, S. Hu, S. Dorn, M. Kachelrieß, M. Lell, and A. Maier. Automatic multi-organ segmentation in dual-energy CT (DECT) with dedicated 3D fully convolutional DECT networks. Med. Phys. 47(2):552-562, February 2020. DOI
L. Klein, S. Dorn, C. Amato, S. Heinze, M. Uhrig, H.-P. Schlemmer, M. Kachelrieß, and S. Sawall. Effects of detector sampling on noise reduction in a clinical photon counting whole-body CT. Investigative Radiology 55(2):111-119, February 2020. DOI
M.M. Lell and M. Kachelriess. Recent and upcoming technological developments in computed tomography: High speed, low dose, deep learning, multienergy. Investigative Radiology 55(1):8-19, January 2020. DOI
T. Do, C. Melzig, D.F. Vollherbst, P.L. Pereira, H.-U. Kauczor, M. Kachelrieß, and C.M. Sommer. The value of iterative metal artifact reduction algorithms during antenna positioning for CT-guided microwave ablation. Int. J. Hyperthermia 36(1):1223-1232, December 2019. DOI
S. Lebedev, E. Fournie, K. Stierstorfer, and M. Kachelrieß. Stack transition artifact removal (STAR) for cardiac CT. Med. Phys. 46(11):4777-4791, November 2019. DOI
M. Skaarup, J. M. Edmund, S. Dorn, M. Kachelriess, and I. R. Vogelius. Dual-energy material decomposition for cone-beam computed tomography in image-guided radiotherapy. Acta Oncologica 58(10):1483-1488, 2019. DOI
J.N. Freedman, H.E. Bainbridge, S. Nill, D.J. Collins, M. Kachelrieß, M.O. Leach, F. McDonald, U. Oelfke, and A. Wetscherek. Synthetic 4D-CT of the thorax for treatment plan adaptation on MR-guided radiotherapy systems. Phys. Med. Biol. 64:115005 (12pp), 2019. DOI
D. Grob, L. Oostveen, J. Rühaak, S. Heldmann, B. Mohr, K. Michielsen, S. Dorn, M. Prokop, M. Kachelrieß, M. Brink, and I. Sechopoulos. Accuracy of registration algorithms in subtraction CT of the lungs: A digital phantom study. Med. Phys. 46(5):2265-2274, May 2019. DOI
K. Dolde, P. Naumann, C. Dávid, M. Kachelrieß, A.J. Lomax, D.C. Weber, N. Saito, L.N. Burigo, A. Pfaffenberger, and Y. Zhant. Comparing the effectiveness and efficiency of various gating approaches for PBS proton therapy of pancreatic cancer using 4D-MRI datasets. Phys. Med. Biol. 64:085011 (11pp), 2019. DOI
K. Dolde, Y. Zhang, N. Chaudhri, C. Dávid, M. Kachelrieß, A.J. Lomax, P. Naumann, N. Saito, D.C. Weber, and A. Pfaffenberger. 4DMRI-based investigation on the interplay effect for pencil beam scanning proton therapy of pancreatic cancer patients. Rad. Oncol. 14:30, February 2019. DOI
J. Maier, E. Eulig, T. Vöth, M. Knaup, J. Kuntz, S. Sawall, and M. Kachelrieß. Real‐time scatter estimation for medical CT using the deep scatter estimation (DSE): Method and robustness analysis with respect to different anatomies, dose levels, tube voltages and data truncation. Med. Phys. 46(1):238-249, January 2019. DOI
S. Sawall, A. Hahn, J. Maier, J. Kuntz, and M. Kachelrieß. Intrinsic rawdata-based CT misalignment correction without redundant data. Med. Phys. 46(1):173-179, January 2019. DOI
M. Menten, M. Fast, A. Wetscherek, C. Rank, M. Kachelriess, D. Collins, S. Nill, and U. Oelfke. The impact of 2D cine MR imaging parameters on automated tumor and organ localization for MR-guided real-time adaptive radiotherapy. Phys. Med. Biol. 63(23):235005, 16 pages, November 2018. DOI
S. Dorn, S. Chen, S. Sawall, J. Maier, M. Knaup, M. Uhrig, H.-P. Schlemmer, A. Maier, M. Lell, and M. Kachelrieß. Towards context-sensitive CT imaging – Organ-specific image formation for single (SECT) and dual energy computed tomography (DECT). Med. Phys. 45(10):4541-4557, October 2018. DOI
F. Pisana, H. Haubenreisser, T. Henzler, S. Schönberg, and M. Kachelrieß. Singular value-guided similarity filter improves detection of vessels in low-dose dynamic CT angiography: application to DIEP flap studies. Phys. Med. Biol. 63:165003, 10 pages, August 2018. DOI
A. Hahn, M. Knaup, M. Brehm, S. Sauppe, and M. Kachelrieß. Two methods for reducing moving metal artifacts in cone-beam CT. Med. Phys. 45(8):3671-3680, August 2018. DOI
N. Waltrich, S. Sawall, J. Maier, J. Kuntz, K. Stannigel, K. Lindenberg, and M. Kachelrieß. Effect of detruncation on the accuracy of Monte Carlo-based scatter estimation in truncated CBCT. Med. Phys. 45(8):3574-3590, August 2018. DOI
K. Dolde, P. Naumann, C. Dávid, R. Gnirs, M. Kachelrieß, A.J. Lomax, N. Saito, D.C. Weber, A. Pfaffenberger, and Y. Zhang. 4D dose calculation for pencil beam scanning proton therapy of pancreatic cancer using repeated 4DMRI datasets. Phys. Med. Biol. 63:165005, 10 pages, 2018. DOI
J. Maier, S. Sawall, M. Knaup, and M. Kachelrieß. Deep scatter estimation (DSE): Accurate real-time scatter estimation for X-ray CT using a deep convolutional neural network. Journal of Nondestructive Evaluation 37:57, 9 pages, July 2018. DOI
S. Sauppe, J. Kuhm, M. Brehm, P. Paysan, D. Seghers, and M. Kachelrieß. Motion vector field phase-to-amplitude resampling for 4D motion-compensated cone-beam CT. Phys. Med. Biol. 63:035032, Februray 2018. DOI
C. Leinweber, J. Maier, and M. Kachelrieß. X-ray spectrum estimation for accurate attenuation simulation. Med. Phys. 44(12):6183-6194, December 2017. DOI
J. Hahn, H. Bruder, C. Rohkohl, T. Allmendinger, K. Stierstorfer, T. Flohr, and M. Kachelrieß. Motion compensation in the region of the coronary arteries based on partial angle reconstructions from short-scan CT data. Med. Phys. 44(11):5795-5813, November 2017. DOI
S. Sawall, D. Franke, A. Kraupner, J. Beckendorf, J. Kuntz, J. Maier, A. Kirchherr, J. Backs, A. Briel, and M. Kachelrieß. In vivo quantification of myocardial infarction in mice using micro-CT and a novel blood pool agent. Contrast Media and Molecular Imaging:2617047 (7 pages), October 2017. DOI
M. Freitag, M. Fenchel, P. Bäumer, T. Heußer, C. Rank, M. Kachelrieß, D. Paech, K. Kopka, S. Bickelhaupt, A. Dimitrakopoulou-Strauss, K. Maier-Hein, R. Floca, M. Ladd, H.P. Schlemmer, F. Maier. Improved clinical workflow for simultaneous whole-body PET/MRI using high-resolution CAIPIRINHA-accelerated MR-based attenuation correction. European Journal of Radiology 96:12-20, September 2017. DOI
B. Bier, M. Berger, A. Maier, M. Kachelrieß, L. Ritschl, K.Müller, J.-H. Choi, and R. Fahrig. Scatter correction using a primary modulator on a clinical angiography C-arm CT system. Med. Phys. 44(9):e125-e137, September 2017. DOI
S. Lebedev, S. Sawall, M. Knaup, and M. Kachelrieß. Optimization of the alpha image reconstruction – an iterative CT image reconstruction with well-defined image quality metrics. Z. Med. Phys. 27(3):180-192, September 2017. DOI
A. Afshar-Oromieh, M. Wolf, U. Haberkorn, M. Kachelrieß, R. Gnirs, K. Kopka, H.-P. Schlemmer, and M. Freitag. Effects of arm truncation on the appearance of the halo artefact in 68Ga-PSMA-11 (HBED-CC) PET/MRI. Eur. J. of Nucl. Med. and Mol. Imag. 44(10):1636-1646, September 2017. DOI
T. Heußer, P. Mann, C. Rank, M. Schäfer, A. Dimitrakopoulou-Strauss, H.-P. Schlemmer, B. Hadaschik, K. Kopka, P. Bachert, M. Kachelrieß, and M. Freitag. Investigation of the halo-artifact in 68Ga-PSMA-11-PET/MRI. PLOS ONE 12(8):e0183329, August 2017. DOI
S. Sawall, J. Maier, C. Leinweber, C. Funck, J. Kuntz, and M. Kachelrieß. Model-based sphere localization (MBSL) in x-ray projections. Phys. Med. Biol. 62:6486-6496, July 2017. DOI
F. Pisana, T. Henzler, S. Schönberg, E. Klotz, B. Schmidt, and M. Kachelrieß. Noise reduction and functional maps image quality improvement in dynamic CT perfusion using a new K-means clustering guided bilateral filter (KMGB). Med. Phys 44(7):3464-3482, June 2017. DOI
J. Maier, C. Leinweber, S. Sawall, H. Stoschus, F. Ballach, T. Müller, M. Hammer, R. Christoph, and M. Kachelrieß. Simulation-based artifact correction (SBAC) for metrological computed tomography. Meas. Sci. Technol. 28(6):065011, May 2017. DOI
M. Freitag, J. Radtke, A. Afshar-Oromieh, M. Roethke, B. Hadaschik, M. Gleave, D. Bonekamp, K. Kopka, M. Eder, T. Heußer, M. Kachelrieß, K. Wieczorek, C. Sachpekidis, P. Flechsig, F. Giesel, M. Hohenfellner, U. Haberkorn, H.-P. Schlemmer., and A. Dimitrakopoulou-Strauss. Local recurrence of prostate cancer after radical prostatectomy is at risk to be missed in 68Ga-PSMA-11-PET of PET/CT and PET/MRI: comparison with mpMRI integrated in simultaneous PET/MRI. Eur. J. Nucl. Med. Mol. Imaging. 44:776-787, May 2017. DOI
J. Freedman, D. Collins, H. Bainbridge, C. Rank, S. Nill, M. Kachelrieß, U. Ölfke, M. Leach, and A. Wetscherek. T2-weighted 4D magnetic resonance imaging for application in magnetic resonance-guided radiotherapy treatment planning. Investigative Radiology 52(10):563-573, October 2017. DOI
T. Heußer, C. Rank, Y. Berker, M. Freitag, and M. Kachelrieß. MLAA-based attenuation correction of flexible hardware components in hybrid PET/MR imaging. EJNMMI Physics 4:12, March 2017. DOI
C. M. Rank, T. Heußer, M. T. A. Buzan, A. Wetscherek, M. T. Freitag, J. Dinkel, and M. Kachelrieß. 4D respiratory motion-compensated image reconstruction of free-breathing radial MR data with very high undersampling. Magn. Reson. Med. 77(3):1170-1183, 2017. DOI
C. Rank, T. Heußer, A. Wetscherek, M. Freitag, O. Sedlaczek, H.-P. Schlemmer, and M. Kachelrieß. Respiratory motion compensation for simultaneous PET/MR based on highly undersampled MR data. Med. Phys. 43(12):6234-6245, December 2016. DOI
T. Heußer, C. M. Rank, M. T. Freitag, A. Dimitrakopoulou-Strauss, H.-P. Schlemmer, T. Beyer, and M. Kachelrieß. MR-consistent simultaneous reconstruction of attenuation and activity for non-TOF PET/MR. IEEE Trans. Nucl. Sci. 63(5):2443-2451, October 2016. DOI
C. Kolb, A. Wetscherek, M. T. Buzan, R. Werner, C. Rank, M. Kachelrieß, M. Kreuter, J. Dinkel, C. P. Heußel, K. Maier-Hein. Regional Lung Ventilation Analysis Using Temporally Resolved Magnetic Resonance Imaging. Journal of Computer Assisted Tomography, 8 pages (published online ahead), 2016. DOI
S. Faby, J. Maier, S. Sawall, D. Simons, H.-P. Schlemmer, M. Lell, and M. Kachelrieß. An efficient computational approach to model statistical correlations in photon counting x-ray detectors. Med. Phys. 43(7):3945-3960, July 2016. DOI
M. Uhrig, D. Simons, M. Kachelrieß, F. Pisana, S. Kuchenbecker, and H.-P. Schlemmer. Advanced abdominal imaging with dual energy CT is feasible without increasing radiation dose. Cancer Imaging 16:15, 8 pages, June 2016. DOI
J. Kuntz, L. Ritschl, M. Knaup, and M. Kachelrieß. The rotate-plus-shift C-arm trajectory. Part II. Exact reconstruction from less than 180° rotation. Med. Phys. 43(5):2303-2310, May 2016. DOI
L. Ritschl, J. Kuntz, C. Fleischmann, and M. Kachelrieß.The rotate-plus-shift C-arm trajectory. Part I. Complete data with less than 180° rotation. Med. Phys. 43(5):2295-2302, May 2016. (This paper received the Sylvia&Moses Greenfield Award for the best scientific paper on imaging in Medical Physics in 2016). DOI
A. Schwahofer, E. Bär, S. Kuchenbecker, J.G. Grossmann, M. Kachelrieß, and F. Sterzing. The application of metal artifact reduction (MAR) in CT scans for radiation oncology by monoenergetic extrapolation with a DECT scanner. Zeitschrift für Medizinische Physik 25(4):314-325, December 2015. DOI
M. Lell, J. Wildberger, H. Alkadhi, J. Damilakis, and M. Kachelrieß. Evolution in computed tomography: The battle for speed and dose. Investigative Radiology 50(9):629-644, September 2015. DOI
S. Faby, S. Kuchenbecker, S. Sawall, D. Simons, H.-P. Schlemmer, M. Lell, and M. Kachelrieß. Performance of today’s dual energy CT and future multienergy CT in virtual noncontrast imaging and in iodine quantification: A simulation study. Med. Phys. 42(7):4349-4366, July 2015. DOI
M. Brehm, S. Sawall, J. Maier, S. Sauppe, and M. Kachelrieß. Cardiorespiratory motion-compensated micro-CT image reconstruction using an artifact model-based motion estimation. Med. Phys. 42(4):1948-1958, April 2015. DOI
S. Kuchenbecker, S. Faby, S. Sawall, M. Lell, and M. Kachelrieß. Dual Energy CT: How well can pseudo-monochromatic imaging reduce metal artifacts? Med. Phys. 42(2):1023-1036, February 2015. DOI
S. Schüller, S. Sawall, K. Stannigel, M. Hülsbusch, J. Ulrici, E. Hell, and M. Kachelrieß. Segmentation-free empirical beam hardening correction for CT. Med. Phys. 42(2):794-803, February 2015. DOI
L. Ritschl, R. Fahrig, M. Knaup, J. Maier, and M. Kachelrieß. Robust primary modulation-based scatter estimation for cone-beam CT. Med. Phys. 42(1):469-478, January 2015. DOI
B. Flach, M. Brehm, S. Sawall, and M. Kachelrieß. Deformable 3D–2D registration for CT and its application to low dose tomographic fluoroscopy. Phys. Med. Biol. 59:7865-7887, November 2014. DOI
F. Pfanner, T. Allmendinger, B. Bohn, T. Flohr, and M. Kachelrieß. Monitoring cardiac motion in CT using a continuous wave radar embedded in the patient table. Med. Phys. 41(8):081908, 10 pages, August 2014. DOI
C. Hofmann, S. Sawall, M. Knaup, and M. Kachelrieß. Alpha image reconstruction (AIR): A new iterative CT image reconstruction approach using voxel-wise alpha blending. Med. Phys. 41:061914, 14 pages, June 2014. DOI
J. Maier, S. Sawall, and M. Kachelrieß. Assessment of dedicated low-dose cardiac micro-CT reconstruction algorithms using the left ventricular volume of small rodents as a performance measure. Med. Phys. 41:051908, 10 pages, May 2014. DOI
M. Socher, J. Kuntz, S. Sawall, S. Bartling, and M. Kachelrieß.The retrobulbar sinus is superior to the lateral tail vein for the injection of contrast media in small animal cardiac imaging.Laboratory Animals 48:105-113, April 2014. DOI
D. Simons, M. Kachelrieß, and H.-P. Schlemmer. Recent developments of dual-energy CT in oncology. European Radiology 24(4):930-939, April 2014. DOI
T. Heußer, M. Brehm, L. Ritschl, S. Sawall, and M. Kachelrieß. Prior-based artifact correction (PBAC) in computed tomography. Med. Phys. 41:021906, 16 pages, February 2014. DOI
C. Hofmann, M. Knaup, and M. Kachelrieß. Effects of ray profile modeling on resolution recovery in clinical CT. Med. Phys. 41:021907, 14 pages, February 2014. DOI
M. Brehm, P. Paysan, M. Oelhafen, and M. Kachelrieß. Artifact-resistant motion estimation with a patient-specific artifact model for motion-compensated cone-beam CT. Med. Phys. 40:101913, 13 pages, October 2013. DOI
B. Flach, J. Kuntz, M. Brehm, R. Kueres, S. Bartling, and M. Kachelrieß. Low dose tomographic fluoroscopy: 4D intervention guidance with running prior. Med. Phys. 40:101909, 11 pages, October 2013. DOI
F. Pfanner, J. Maier, T. Allmendinger, T. Flohr, and M. Kachelrieß. Monitoring internal organ motion with continuous wave radar in CT. Med. Phys. 40:091915, 16 pages, September 2013. DOI
J. Kuntz, B. Flach, R. Kueres, W. Semmler, M. Kachelrieß, and S. Bartling. Constrained reconstructions for 4D intervention guidance. Phys. Med. Biol. 58(10):3283-3300, April 2013. DOI
M. Kachelrieß. Iterative reconstruction techniques: What do they mean for cardiac CT? Current Cardiovascular Imaging Reports 6:268-281, April 2013. DOI
M. Lell, E. Meyer, M. Schmid, R. Raupach, S. May, M. Uder, and M. Kachelrieß. Frequency split metal artefact reduction in pelvic computed tomography. European Radiology 23:2137-2145, March 2013. DOI
J. Kuntz, R. Gupta, S.O. Schönberg, W. Semmler, M. Kachelrieß, S. Bartling. Real-time X-ray-based 4D image guidance of minimally invasive interventions. European Radiology, 23:1669-1677, January 2013. DOI
M. Kachelrieß. Interesting detector shapes for third generation CT scanners. Med. Phys. 40:031101, 14 pages, March 2013. DOI
M. Brehm, P. Paysan, M. Oelhafen, P. Kunz, and M. Kachelrieß. Self-adapting cyclic registration for motion-compensated cone-beam CT in image-guided radiation therapy. Med. Phys. 39(12):7603-7618, December 2012. DOI
S. Sawall, J. Kuntz, M. Socher, M. Knaup, A. Hess, S. Bartling, and M. Kachelrieß. Imaging of cardiac perfusion of free-breathing small animals using dynamic phase-correlated micro-CT. Med. Phys. 39(12):7499-7506, December 2012. DOI
M. Baer and M. Kachelrieß. Hybrid scatter correction for CT imaging. Phys. Med. Biol. 57(21):6849-6867, October 2012. DOI
S. Sawall, M. Knaup, and M. Kachelrieß. A robust geometry estimation method for spiral, sequential and circular cone-beam CT. Med. Phys. 39(9):5384-5392, September 2012. DOI
M. Lell, E. Meyer, M. Küfner, M. May, R. Raupach, M. Uder, and M. Kachelrieß. Normalized metal artifact reduction in head and neck computed tomography. Investigative Radiology: 47(7):415-421, July 2012. DOI
E. Meyer, R. Raupach, M. Lell, B. Schmidt, and M. Kachelrieß. Frequency split metal artifact reduction (FSMAR) in CT. Med. Phys. 39(4):1904-1916, April 2012. DOI
L. Ritschl, S. Sawall, M. Knaup, A. Hess, and M. Kachelrieß. Iterative 4D cardiac micro-CT image reconstruction using an adaptive spatio-temporal sparsity prior. Phys. Med. Biol. 57 (6):1517-1525, 2012. DOI
R. Grimmer, R. Fahrig, W. Hinshaw, H. Gao, and M. Kachelrieß. Empirical cupping correction for CT scanners with primary modulation (ECCP). Med. Phys. 39(2):825-831, February 2012. DOI
C. Maaß, M. Baer, M. Kachelrieß. CT image reconstruction with half precision floating-point values. Med. Phys. 38(7):S95-S105, 2011. DOI
C. Maaß, M. Knaup, M. Kachelrieß. New approaches to region of interest computed tomography. Med. Phys. 38(5), 2868, 2011. DOI
R. Grimmer, M. Kachelrieß. Empirical binary tomography calibration (EBTC) for the precorrection of beam hardening and scatter for flat panel CT . Med. Phys. 38(4): 2234-2240, 2011. DOI
S. Sawall , F. Bergner , M. Karolczak, M. Kachelrieß, R. Lapp, M. Mronz, A. Hess. Low-dose cardio-respiratory phase-correlated cone-beam micro-CT of small animals. Med Phys 38(3), 1416-1424, 2011. DOI
L. Ritschl, F. Bergner, C. Fleischmann, and M. Kachelrieß. Improved total variation-based CT image reconstruction applied to clinical data. Phys. Med. Biol. 56:1545-1561, 2011. DOI
C. Maaß, E. Meyer, and M. Kachelrieß. Exact dual energy material decomposition from inconsistent rays (MDIR). Med Phys. 38(2), 691-701, 2011. DOI
D. Prell, Y. Kyriakou, M. Kachelrieß, and W.A. Kalender. Reducing metal artifacts in computed tomography caused by hip endoprostheses using a physics-based approach. Investigative Radiology 45(11):1-8, November 2010. DOI
E. Meyer, R. Raupach, M. Lell, B. Schmidt, and M. Kachelrieß. Normalized metal artifact reduction (NMAR) in computed tomography. Med. Phys. 37(10):5482-5493, October 2010. DOI
Y. Kyriakou, E. Meyer, D. Prell, and M. Kachelrieß. Empirical beam hardening correction (EBHC) for CT. Med. Phys. 37(10):5179-5187, October 2010. DOI
F. Bergner, T. Berkus, M. Oelhafen, P. Kunz, T. Pan, R. Grimmer, L. Ritschl, and M. Kachelrieß. An investigation of 4D cone-beam CT algorithms for slowly rotating scanners. Med. Phys. 37(9):5044-5053, September 2010. DOI
H. Braun, Y. Kyriakou, M. Kachelrieß, and W.A. Kalender. The influence of the heel effect in cone-beam computed tomography: artifacts in standard and novel geometries and their correction. Phys. Med. Biol. 55: 6005-6021, September 2010. DOI
L. Ritschl, F. Bergner, C. Fleischmann, and M. Kachelrieß. Water calibration for CT scanners with tube voltage modulation. Phys. Med. Biol. 55:4107-4117, July 2010. DOI
P. Stenner, B. Schmidt, T. Allmendinger, T. Flohr, and M. Kachelrieß. Dynamic iterative beam hardening correction (DIBHC) in myocardial perfusion imaging using contrast-enhanced computed tomography. Investigative Radiology 45(6):314-323, June 2010. DOI
M. Knaup, C. Maaß, and M. Kachelrieß. Simple ROI cone-beam computed tomography. Conference Program of the 1st International Conference on Image Formation in X-Ray Computed Tomography:194-199, June 2010. pdf
R. Lapp, M. Kachelrieß, D. Ertel, Y. Kyriakou, and W.A. Kalender. Cardiac phase-correlated image reconstruction and advanced image processing in pulmonary CT imaging. European Radiology, 19:1035-1042, 2009. DOI
M. Kachelrieß. Branchless vectorized median filtering. IEEE Medical Imaging Conference Record, Workshop on High Performance Medical Imaging, HP3-5, 4099-4105, October 2009. DOI
C. Maaß, M. Baer, and M. Kachelrieß. Image-based dual energy CT using optimized precorrection functions: A practical new approach of material decomposition in image domain. Med. Phys. 2009: 36(8): 3818-3829. DOI
F. Bergner, T. Berkus, M. Oelhafen, P. Kunz, T. Pan, M. Kachelrieß. Autoadaptive phase-correlated (AAPC) reconstruction for 4D CBCT. Med. Phys. 2009: 36(12): 5695-5706. DOI
P. Stenner, B. Schmidt, H. Bruder, T. Allmendinger, U. Haberland, T. Flohr, M. Kachelrieß. Partial scan artifact reduction (PSAR) for the assessment of cardiac perfusion in dynamic phase-correlated CT. Med. Phys. 2009: 36(12): 5863-5694. DOI
R. Grimmer, M. Oelhafen, U. Elstrøm, and M. Kachelrieß. Cone-beam CT image reconstruction with extended z-range. Med. Phys.2009; 36(7): 3363-3370. DOI
S. Steckmann, M. Knaup, M. Kachelrieß. High performance cone-beam spiral backprojection with voxel-specific weighting. Phys Med Biol . 2009 Jun 21;54(12):3691-3708. DOI
D. Ertel, T. Pflederer, S. Achenbach, M. Kachelrieß, Y. Kyriakou, and W.A. Kalender. Technical Note: Rawdata-based Approach to Identify the Optimal Reconstruction Phase in Coronary CT Angiography. Journal of Computer Assisted Tomography, 33(1):26-31, 2009. DOI
C. Maaß, M. Knaup, R. Lapp, M. Karolczak, W.A. Kalender, M. Kachelrieß. A new weighting function to achieve high temporal resolution in circular cone-beam CT with shifted detectors. Med. Phys. 2008; 35(12): 5898-5909. DOI
P. Stenner, M. Kachelrieß. Dual energy exposure control (DEEC) for computed tomography: Algorithm and simulation study. Med. Phys. 2008; 35(11): 5054-5060. DOI
S. Steckmann, M. Knaup, M. Kachelrieß. Hyperfast general-purpose cone-beam spiral backprojection with optional voxel-specific weighting. High-Performance Medical Image Computing & Computer Aided Intervention HP-MICCAI Conference Record, September 2008. (This paper was awarded the best paper of the workshop High-Performance Medical Image Computing & Computer Aided Intervention at the 2008 MICCAI meeting). pdf
R. Lapp, Y. Kyriakou, M. Kachelrieß, S. Wilharm, and W.A. Kalender. Interactively variable isotropic resolution in computed tomography. Phys. Med. Biol. 53:2693-2713, 2008. DOI
D. Ertel, T. Pflederer, S. Achenbach, M. Kachelrieß, P. Steffen, and W.A. Kalender. Validation of a raw data-based synchronization signal (kymogram) for phase-correlated cardiac image reconstruction. European Radiology, 18(2):253-262, February 2008. DOI
P. Stenner, T. Berkus, M. Kachelriess. Empirical dual energy calibration (EDEC) for cone-beam computed tomography. Med. Phys. 2007; 34(9): 3630-3641. (This work received the Werner von Siemens Excellence Award 2008) DOI
Kachelrieß M, Knaup M, Bockenbach O. Hyperfast parallel-beam and cone-beam backprojection using the cell general purpose hardware. Med. Phys. 2007; 34(4): 1474-1486. DOI
M. Kachelrieß, M. Knaup, O. Bockenbach. Hyperfast Parallel Beam Backprojection. IEEE Medical Imaging Conference 2006. DOI
M. Kachelrieß, T. Berkus, P. Stenner, W. A. Kalender. Empirical dual energy calibration (EDEC) for cone-beam computed tomography. IEEE Medical Imaging Conference 2006. DOI
M. Kachelrieß, M. Knaup, O. Bockenbach. Hyperfast Perspective Cone Beam Backprojection. IEEE Medical Imaging Conference 2006. DOI
M. Kachelrieß, M. Knaup, and W.A. Kalender. Multithreaded cardiac CT. Med. Phys. 33(7): 2435-2447, July 2006. DOI
M. Kachelrieß, M. Knaup, C. Penßel, and W.A. Kalender. Flying Focal Spot (FFS) in Cone-Beam CT. IEEE Transactions on Nuclear Science 53(3), June 2006. DOI
Y. Kyriakou, M. Kachelrieß, M. Knaup, J. Krause, and W.A. Kalender. Impact of the z-flying focal spot on resolution and artifact behavior for a 64-slice spiral CT scanner. European Radiology, 1206-1215, June 2006. DOI
M. Kachelrieß, K. Sourbelle, and W. A. Kalender. Empirical cupping correction: A first-order raw data precorrection for cone-beam computed tomography. Med. Phys. 33(5): 1269-1274, May 2006. DOI
M. Kachelrieß, W. A. Kalender. Optimizing detector size in X-ray imaging. IEEE Medical Imaging Conference 2005. DOI
M. Kachelrieß, W. A. Kalender. Improving PET/CT attenuation correction with iterative CT beam hardening correction. IEEE Medical Imaging Conference 2005. DOI
K. Sourbelle, M. Kachelrieß, and W. A. Kalender. Empirical water precorrection for cone-beam computed tomography. IEEE Medical Imaging Conference 2005. DOI
Kachelrieß M, Kalender WA . Optimizing Detector Size in X-Ray CT Imaging. International Conference of Medical Physics 2005. Biomedizinische Technik 2005, Vol.50, Suppl.vol.1, Part 2: 1160-1161. pdf
M. Kachelrieß, M. Knaup, C. Penßel, and W.A. Kalender. Flying focal spot (FFS) in cone-beam CT. Records of the 2004 IEEE Medical Imaging Conference, 3759-3763, 2005. DOI
M. Kachelrieß, M. Knaup, and W.A. Kalender. Phase-correlated imaging from multi-threaded spiral cone-beam CT scans of the heart. Proc. of the 2005 Int. Meeting on Fully 3D Image Reconstruction:159-162, July 2005. pdf
M. Kachelrieß and W.A. Kalender. Presampling, algorithm factors, and noise: Considerations for CT in particular and for medical in general. Med. Phys. 32(5): 1321-1334, May 2005. DOI
K. Sourbelle, M. Kachelrieß, and W.A. Kalender. Reconstruction from truncated projections in CT using adaptive detruncation. European Radiology, 15(5):1008-1014, May 2005. DOI
T. Böhm, H. Alkadhi, D.-A. Sennst, T. Schertler, M. Kachelrieß, W.A. Kalender, B. Marincek, and S. Wildermuth. Image quality of volume rendering of the bronchial tree: Kymogram-gated versus retrospectively ECG-gated and non-gated multi-row detector CT. Acad. Radiol, 12:173-181, 2005. DOI
L. Smekal, M. Kachelrieß, E. Stepina, and W.A. Kalender. Geometric misalignment and calibration in cone-beam tomography. Med. Phys., 31(12):3242-3266, December 2004. DOI
M. Kachelrieß, M. Knaup, and W.A. Kalender. Extended parallel backprojection for standard three-dimensional and phase-correlated four-dimensional axial and spiral cone-beam CT with arbitrary pitch, arbitrary cone-angle, and 100% dose usage. Med. Phys. 31(6): 1623-1641, June 2004. DOI
M. Kachelrieß. Phase-correlated dynamic CT. 2004. pdf
M. Kachelrieß, T. Berkus, and W.A. Kalender. Quality of statistical reconstruction in medical CT. Records of the 2003 IEEE Medical Imaging Conference, M10-325, 5 pages, April 2004. DOI
M. Kachelrieß, M. Knaup, and W.A. Kalender. 4D reconstruction for wide cone-angle medical CT. Records of the 2003 IEEE Medical Imaging Conference, M15-5, 5 pages, April 2004. DOI
D.-A. Sennst, M. Kachelrieß, C. Leidecker, B. Schmidt, O. Watzke, and W.A. Kalender. Syngo Explorer: An extensible software-based platform for reconstruction and evaluation of CT images. RadioGraphics 24:601-612, March 2004. DOI
M. Kachelrieß and W.A. Kalender. Extended Parallel Backprojection (EPBP) for Arbitrary Cone Angle and Arbitrary Pitch 3D and Phase Correlated 4D CT Reconstruction. Proc. of the 7th Int. Meeting on Fully 3D Image Reconstruction, June 2003. pdf
S. Achenbach, T. Giesler, D. Ropers, S. Ulzheimer, K. Anders, E. Wenkel, K. Pohle, M. Kachelrieß, H. Derlien, W.A. Kalender, W.G. Daniel, W. Bautz, U. Baum. Comparison of image quality in contrast-enhanced coronary-artery visualization by electron beam tomography and retrospectively electrocardiogram-gated multislice spiral computed tomography. Investigative Radiology. 38(2):119-128, February 2003. DOI
M. Kachelrieß, D.-A. Sennst, W. Maxlmoser, and W.A. Kalender. Kymogram detection and kymogram-correlated image reconstruction from subsecond spiral computed tomography scans of the heart. Med. Phys. 29(7): 1489-1503, July 2002. DOI
M. Kachelrieß. Image quality and dose in CT: Current practice, new developments and optimization. Refresher Course, Wien 4.3.2002 European Radiology, 12 Suppl. 1: 92, February 2002 (Invited Lecture).
M. Kachelrieß. Single-Slice, Multi-Slice and Cone-Beam Spiral CT: Technical Aspects and Clinical Applications. JRF Highlighted Lecture, Wien 2.3.2002 European Radiology, 12 Suppl. 1: 44, February 2002. (Invited Lecture).
M. Kachelrieß. Neue Methoden der Herzbildgebung mit Spiral CT. Öffentliche Antrittsvorlesung am 18.02.2002 in Erlangen. pdf
M. Kachelrieß, T. Fuchs, S. Schaller, and W.A. Kalender. Advanced single-slice rebinning for tilted spiral cone-beam CT. Med. Phys., 28(6): 1033-1041, June 2001. DOI
M. Kachelrieß, O. Watzke, and W.A. Kalender. Generalized multi-dimensional adaptive filtering (MAF) for conventional and spiral single-slice, multi-slice and cone-beam CT. Med. Phys., 28(4): 475-490, April 2001. (This paper received the Walter Friedrich Award of the Deutsche Röntgengesellschaft in 2001). DOI
M. Kachelrieß, T. Fuchs, R. Lapp, D.-A. Sennst, S. Schaller, and W.A. Kalender. Image to volume weighting generalized ASSR for arbitrary pitch 3D and phase-correlated 4D spiral cone-beam CT reconstruction. Proc. of the 2001 Int. Meeting on Fully 3D Image Reconstruction, 179-182, November 2001. pdf
S. Achenbach, U. Baum, S. Ulzheimer, M. Kachelrieß, D. Ropers, T. Giesler, W.A. Bautz, W.G. Daniel, W.A. Kalender, and W. Moshage. Visualization of the coronary artery lumen by contrast-enhanced multi-detector spiral CT with retrospective ECG gating. Circulation, 102(18):II-398, October 2000. DOI
T. Fuchs, M. Kachelrieß, and W.A. Kalender. Comparison of a xenon and a solid state CT detector system: Measurements under working conditions. IEEE Transactions on Medical Imaging, 19(9):941-948, September 2000. DOI
M. Kachelrieß, S. Ulzheimer, and W.A. Kalender. ECG-correlated imaging of the heart with subsecond multislice CT. IEEE Transactions on Medical Imaging, 19(9): 888-901, September 2000. DOI
H. Bruder, M. Kachelrieß, S. Schaller, K. Stierstorfer, and T. Flohr. Single-slice rebinning reconstruction in spiral cone-beam computed tomography. IEEE Transactions on Medical Imaging, 19(9):873-887, September 2000. DOI
M. Kachelrieß, S. Ulzheimer, and W.A. Kalender. ECG-correlated image reconstruction from subsecond multi-slice spiral CT scans of the heart. Med. Phys., 27(8): 1881-1902, August 2000. DOI
M. Kachelrieß, S. Schaller, and W.A. Kalender. Advanced single-slice rebinning in cone-beam spiral CT: Theoretical considerations and medical applications. SPIE Medical Imaging Conference Proc., 3979: 494-505, February 2000. DOI
M. Kachelrieß, S. Schaller, and W.A. Kalender. Advanced single-slice rebinning in cone-beam spiral CT. Med. Phys., 27(4): 754-772, April 2000. (This paper received the Sylvia Sorkin Greenfield Award for the best scientific paper on imaging in Medical Physics during 2000). DOI
M. Kachelrieß and W.A. Kalender. Electrocardiogram-correlated image reconstruction from subsecond spiral computed tomography scans of the heart. Med. Phys., 25(12): 2417-2431, December 1998. (This paper received the Sylvia Sorkin Greenfield Award for the best scientific paper on imaging in Medical Physics during 1998). DOI
M. Kachelrieß and W.A. Kalender. Imaging of the heart by ECG-oriented reconstruction from subsecond spiral multi-row detector CT scans. Radiology, 209(P): 323, November 1998.
M. Kachelrieß. Reduction of Metal Artifacts in X-Ray Computed Tomography. PhD Thesis, Friedrich-Alexander-Universität Erlangen-Nürnberg, 1998. pdf
M. Kachelrieß M. and W.A. Kalender. ECG-based phase-oriented reconstruction from subsecond spiral CT scans of the heart. Radiology 205(P): 215, 1997.