PURPOSE: Misalignment artifacts are a serious problem in medical flat-detector computed tomography. Generally, the geometrical parameters, which are essential for reconstruction, are provided by preceding calibration routines. These procedures are time consuming and the later use of stored parameters is sensitive toward external impacts or patient movement. The method of choice in a clinical environment would be a markerless online-calibration procedure that allows flexible scan trajectories and simultaneously corrects misalignment and motion artifacts during the reconstruction process. Therefore, different image features were evaluated according to their capability of quantifying misalignment. METHODS: Projections of the FORBILD head and thorax phantoms were simulated. Additionally, acquisitions of a head phantom and patient data were used for evaluation. For the reconstruction different sources and magnitudes of misalignment were introduced in the geometry description. The resulting volumes were analyzed by entropy (based on the gray-level histogram), total variation, Gabor filter texture features, Haralick co-occurrence features, and Tamura texture features. The feature results were compared to the back-projection mismatch of the disturbed geometry. RESULTS: The evaluations demonstrate the ability of several well-established image features to classify misalignment. The authors elaborated the particular suitability of the gray-level histogram-based entropy on identifying misalignment artifacts, after applying an appropriate window level (bone window). CONCLUSIONS: Some of the proposed feature extraction algorithms show a strong correlation with the misalignment level. Especially, entropy-based methods showed very good correspondence, with the best of these being the type that uses the gray-level histogram for calculation. This makes it a suitable image feature for online-calibration.
PURPOSE: Misalignment artifacts are a serious problem in medical flat-detector computed tomography. Generally, the geometrical parameters, which are essential for reconstruction, are provided by preceding calibration routines. These procedures are time consuming and the later use of stored parameters is sensitive toward external impacts or patient movement. The method of choice in a clinical environment would be a markerless online-calibration procedure that allows flexible scan trajectories and simultaneously corrects misalignment and motion artifacts during the reconstruction process. Therefore, different image features were evaluated according to their capability of quantifying misalignment. METHODS: Projections of the FORBILD head and thorax phantoms were simulated. Additionally, acquisitions of a head phantom and patient data were used for evaluation. For the reconstruction different sources and magnitudes of misalignment were introduced in the geometry description. The resulting volumes were analyzed by entropy (based on the gray-level histogram), total variation, Gabor filter texture features, Haralick co-occurrence features, and Tamura texture features. The feature results were compared to the back-projection mismatch of the disturbed geometry. RESULTS: The evaluations demonstrate the ability of several well-established image features to classify misalignment. The authors elaborated the particular suitability of the gray-level histogram-based entropy on identifying misalignment artifacts, after applying an appropriate window level (bone window). CONCLUSIONS: Some of the proposed feature extraction algorithms show a strong correlation with the misalignment level. Especially, entropy-based methods showed very good correspondence, with the best of these being the type that uses the gray-level histogram for calculation. This makes it a suitable image feature for online-calibration.
Authors: Alexander Preuhs; Andreas Maier; Michael Manhart; Markus Kowarschik; Elisabeth Hoppe; Javad Fotouhi; Nassir Navab; Mathias Unberath Journal: Int J Comput Assist Radiol Surg Date: 2019-07-12 Impact factor: 2.924
Authors: Jang-Hwan Choi; Andreas Maier; Andreas Keil; Saikat Pal; Emily J McWalter; Gary S Beaupré; Garry E Gold; Rebecca Fahrig Journal: Med Phys Date: 2014-06 Impact factor: 4.071
Authors: M W Jacobson; M Ketcha; A Uneri; J Goerres; T De Silva; S Reaungamornrat; S Vogt; G Kleinszig; J H Siewerdsen Journal: Proc SPIE Int Soc Opt Eng Date: 2017-03
Authors: H Huang; J H Siewerdsen; W Zbijewski; C R Weiss; M Unberath; T Ehtiati; A Sisniega Journal: Phys Med Biol Date: 2022-06-16 Impact factor: 4.174
Authors: M W Jacobson; M D Ketcha; S Capostagno; A Martin; A Uneri; J Goerres; T De Silva; S Reaungamornrat; R Han; A Manbachi; J W Stayman; S Vogt; G Kleinszig; J H Siewerdsen Journal: Phys Med Biol Date: 2018-01-16 Impact factor: 3.609