Interpolated Average CT for Attenuation Correction in PET—A Simulation Study

Previously, we proposed using an interpolated average CT (IACT) method for attenuation correction (AC) in positron emission tomography (PET), which is a good, low-dose approximation of cine average CT (CACT) to reduce misalignments and improve quantification in PET/CT. This study aims to evaluate the performance of IACT for different motion amplitudes. We used the digital four-dimensional (4-D) extended cardiac-torso phantom (XCAT) to simulate maximum of 2, 3, and 4 cm respiratory motions. The respiratory cycle was divided into 13 phases, with average activity and attenuation maps to represent 18F-fluorodeoxyglucose (18F-FDG) distributions with average respiratory motions and CACT, respectively. The end-inspiration, end-expiration, and midrespiratory phases of the XCAT attenuation maps represented three different helical CTs (i.e., HCT-1, HCT-5, and HCT-8). The IACTs were generated using: 1) 2 extreme + 11 interpolated phases (IACT2o); 2) 2 phases right after the extreme phases + 11 interpolated phases (IACT2s); 3) 4 original + 9 interpolated phases (IACT4o). A spherical lesion with a target-to-background ratio (TBR) of 4:1 and a diameter of 25 mm was placed in the base of right lung. The noise-free and noisy sinograms with attenuation modeling were generated and reconstructed with different noise-free and noisy AC maps (CACT, HCTs, and IACTs) by Software for Tomographic Image Reconstruction, respectively, using ordered subset expectation maximization(OS-EM) with up to 300 updates. Normalized mean-square error, mutual information (MI), TBR, image profile, and noise-contrast tradeoff were analyzed. The PET reconstructed images with AC using CACT showed least difference as compared to the original phantom, followed by IACT 4o, IACT2o , IACT2s, HCT-5, HCT-8, and HCT-1. Significant artifacts were observed in the reconstructed images using HCTs for AC. The MI differences betweenIACT 2o and IACT4o/CACT were <;0.41% and <;2.17%, respectively.With a slight misplacement of the two extreme phases, IACT2s was still comparable to IACT 2o with MI difference of <;2.23%. The IACT is a robust and accurate low-dose alternate to CACT.

[1]  T. Ruddy,et al.  Single-Phase CT Aligned to Gated PET for Respiratory Motion Correction in Cardiac PET/CT , 2010, The Journal of Nuclear Medicine.

[2]  Chi Liu,et al.  Myocardial perfusion SPECT using a rotating multi-segment slant-hole collimator. , 2010, Medical physics.

[3]  Geoffrey G. Zhang,et al.  Attenuation correction of PET images with interpolated average CT for thoracic tumors , 2011, Physics in medicine and biology.

[4]  E Yorke,et al.  Four-dimensional (4D) PET/CT imaging of the thorax. , 2004, Medical physics.

[5]  A J Reader,et al.  List-mode-based reconstruction for respiratory motion correction in PET using non-rigid body transformations , 2007, Physics in medicine and biology.

[6]  Kris Thielemans,et al.  Quiescent period respiratory gating for PET/CT. , 2010, Medical physics.

[7]  John W. Clark,et al.  A motion-incorporated reconstruction method for gated PET studies , 2006, Physics in medicine and biology.

[8]  Jonathon A Nye,et al.  Minimizing artifacts resulting from respiratory and cardiac motion by optimization of the transmission scan in cardiac PET/CT. , 2007, Medical physics.

[9]  S Senan,et al.  Multiple "slow" CT scans for incorporating lung tumor mobility in radiotherapy planning. , 2001, International journal of radiation oncology, biology, physics.

[10]  R. Lecomte,et al.  Respiratory gating for 3-dimensional PET of the thorax: feasibility and initial results. , 2004, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[11]  Gig S Mageras,et al.  Effect of motion on tracer activity determination in CT attenuation corrected PET images: A lung phantom study. , 2005, Medical physics.

[12]  T. Pan,et al.  Reducing Radiation Dose in Rest–Stress Cardiac PET/CT by Single Poststress Cine CT for Attenuation Correction: Quantitative Validation , 2008, Journal of Nuclear Medicine.

[13]  J. Wong,et al.  The use of active breathing control (ABC) to reduce margin for breathing motion. , 1999, International journal of radiation oncology, biology, physics.

[14]  Gustav K. von Schulthess,et al.  Clinical evaluation of a breathing protocol for PET/CT , 2004, European Radiology.

[15]  Geoffrey G. Zhang,et al.  Semi-automated CT segmentation using optic flow and Fourier interpolation techniques , 2006, Comput. Methods Programs Biomed..

[16]  G. Mok,et al.  Low dose interpolated average CT for PET/CT attenuation correction using an active breathing controller (ABC) , 2012, 2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC).

[17]  N Grotus,et al.  Fully 4D list-mode reconstruction applied to respiratory-gated PET scans. , 2009, Physics in medicine and biology.

[18]  Heiko Schöder,et al.  Deep-inspiration breath-hold PET/CT of the thorax. , 2007, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[19]  Heiko Schöder,et al.  Deep-Inspiration Breath-Hold PET/CT: Clinical Findings with a New Technique for Detection and Characterization of Thoracic Lesions , 2007, Journal of Nuclear Medicine.

[20]  Cyrill Burger,et al.  Accuracy of image coregistration of pulmonary lesions in patients with non-small cell lung cancer using an integrated PET/CT system. , 2002, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[21]  G. Mok,et al.  Techniques for respiration-induced artifacts reductions in thoracic PET/CT. , 2012, Quantitative imaging in medicine and surgery.

[22]  Tinsu Pan,et al.  Frequent Diagnostic Errors in Cardiac PET/CT Due to Misregistration of CT Attenuation and Emission PET Images: A Definitive Analysis of Causes, Consequences, and Corrections , 2007, Journal of Nuclear Medicine.

[23]  Tong Yue,et al.  Segmentation of contrast enhanced CT images for attenuation correction of PET/CT data , 2004, IEEE Symposium Conference Record Nuclear Science 2004..

[24]  Berthold K. P. Horn,et al.  Determining Optical Flow , 1981, Other Conferences.

[25]  G Bosmans,et al.  Respiratory-gated CT as a tool for the simulation of breathing artifacts in PET and PET/CT. , 2006, Medical physics.

[26]  Brian F Hutton,et al.  A novel method for incorporating respiratory-matched attenuation correction in the motion correction of cardiac PET–CT studies , 2011, Physics in medicine and biology.

[27]  Geoffrey G. Zhang,et al.  Low-dose interpolated average CT for attenuation correction in cardiac PET/CT , 2010 .

[28]  Kris Thielemans,et al.  STIR: Software for Tomographic Image Reconstruction Release 2 , 2006 .

[29]  Yuji Nakamoto,et al.  Clinically significant inaccurate localization of lesions with PET/CT: frequency in 300 patients. , 2003, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[30]  Paul Kinahan,et al.  Cine CT for Attenuation Correction in Cardiac PET/CT , 2007, Journal of Nuclear Medicine.

[31]  Ting-Yim Lee,et al.  Respiration-Averaged CT for Attenuation Correction in Canine Cardiac PET/CT , 2007, Journal of Nuclear Medicine.

[32]  Geoffrey G. Zhang,et al.  Dose mapping: Validation in 4D dosimetry with measurements and application in radiotherapy follow-up evaluation , 2008, Comput. Methods Programs Biomed..

[33]  Geoffrey G. Zhang,et al.  Use of three‐dimensional (3D) optical flow method in mapping 3D anatomic structure and tumor contours across four‐dimensional computed tomography data , 2008, Journal of applied clinical medical physics.

[34]  Valerie Treyer,et al.  CT vs 68Ge attenuation correction in a combined PET/CT system: evaluation of the effect of lowering the CT tube current , 2002, European Journal of Nuclear Medicine and Molecular Imaging.

[35]  Tinsu Pan,et al.  Attenuation correction of PET cardiac data with low-dose average CT in PET/CT. , 2006, Medical physics.

[36]  Lei Xing,et al.  Model-based image reconstruction for four-dimensional PET. , 2006, Medical physics.

[37]  R. Castillo,et al.  Attenuation correction of PET images with respiration-averaged CT images in PET/CT. , 2005, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[38]  G. Cook,et al.  Pitfalls and artifacts in 18FDG PET and PET/CT oncologic imaging. , 2004, Seminars in nuclear medicine.

[39]  Wolfgang Enghardt,et al.  Attenuation correction of four dimensional (4D) PET using phase-correlated 4D-computed tomography. , 2008, Physics in medicine and biology.

[40]  Bruno De Man,et al.  Ultra-low dose CT attenuation correction for PET/CT , 2011, Physics in medicine and biology.

[41]  A. Pevsner,et al.  The CT motion quantitation of lung lesions and its impact on PET-measured SUVs. , 2004, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[42]  Cyrill Burger,et al.  PET-CT image co-registration in the thorax: influence of respiration , 2002, European Journal of Nuclear Medicine and Molecular Imaging.