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Journal Abstract Search

264 related items for PubMed ID: 24144448

  • 21. Phantom and Clinical Evaluation of the Bayesian Penalized Likelihood Reconstruction Algorithm Q.Clear on an LYSO PET/CT System.
    Teoh EJ, McGowan DR, Macpherson RE, Bradley KM, Gleeson FV.
    J Nucl Med; 2015 Sep; 56(9):1447-52. PubMed ID: 26159585
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  • 23. Benefits of point-spread function and time of flight for PET/CT image quality in relation to the body mass index and injected dose.
    Akamatsu G, Mitsumoto K, Ishikawa K, Taniguchi T, Ohya N, Baba S, Abe K, Sasaki M.
    Clin Nucl Med; 2013 Jun; 38(6):407-12. PubMed ID: 23603585
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  • 24. Brain PET imaging optimization with time of flight and point spread function modelling.
    Prieto E, Martí-Climent JM, Morán V, Sancho L, Barbés B, Arbizu J, Richter JA.
    Phys Med; 2015 Dec; 31(8):948-955. PubMed ID: 26249138
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  • 28. Impact of point spread function modelling and time of flight on FDG uptake measurements in lung lesions using alternative filtering strategies.
    Armstrong IS, Kelly MD, Williams HA, Matthews JC.
    EJNMMI Phys; 2014 Dec; 1(1):99. PubMed ID: 26501457
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  • 29. Evaluation of Penalized-Likelihood Estimation Reconstruction on a Digital Time-of-Flight PET/CT Scanner for 18F-FDG Whole-Body Examinations.
    Lindström E, Sundin A, Trampal C, Lindsjö L, Ilan E, Danfors T, Antoni G, Sörensen J, Lubberink M.
    J Nucl Med; 2018 Jul; 59(7):1152-1158. PubMed ID: 29449445
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  • 31. Is the standard uptake value (SUV) appropriate for quantification in clinical PET imaging? - Variability induced by different SUV measurements and varying reconstruction methods.
    Brendle C, Kupferschläger J, Nikolaou K, la Fougère C, Gatidis S, Pfannenberg C.
    Eur J Radiol; 2015 Jan; 84(1):158-162. PubMed ID: 25467224
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  • 32. Does a novel penalized likelihood reconstruction of 18F-FDG PET-CT improve signal-to-background in colorectal liver metastases?
    Parvizi N, Franklin JM, McGowan DR, Teoh EJ, Bradley KM, Gleeson FV.
    Eur J Radiol; 2015 Oct; 84(10):1873-8. PubMed ID: 26163992
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  • 33. Improvement in PET/CT image quality in overweight patients with PSF and TOF.
    Taniguchi T, Akamatsu G, Kasahara Y, Mitsumoto K, Baba S, Tsutsui Y, Himuro K, Mikasa S, Kidera D, Sasaki M.
    Ann Nucl Med; 2015 Jan; 29(1):71-7. PubMed ID: 25258046
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  • 35. Low-dose High-resolution 18F-FDG-PET/CT Using Time-of-flight and Point-spread Function Reconstructions: A Role in the Detection of Breast Carcinoma Axillary Lymph Node Metastases.
    Ferdová E, Baxa J, Ňaršanská A, Hes O, Fínek J, Topolčan O, Ferda J.
    Anticancer Res; 2018 Jul; 38(7):4145-4148. PubMed ID: 29970542
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  • 36. Impact of Point-Spread Function Modeling on PET Image Quality in Integrated PET/MR Hybrid Imaging.
    Aklan B, Oehmigen M, Beiderwellen K, Ruhlmann M, Paulus DH, Jakoby BW, Ritt P, Quick HH.
    J Nucl Med; 2016 Jan; 57(1):78-84. PubMed ID: 26471697
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  • 37. Quantitative comparison between regularized time-of-flight and OSEM PET reconstructions for small 18F-FDG-avid lesions.
    Chism CB, Ravizzini GC, Macapinlac HA, Pan T.
    Nucl Med Commun; 2017 Jun; 38(6):529-536. PubMed ID: 28383318
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  • 38. Prognostic value of SUVmax and metabolic tumor volume on 18F-FDG PET/CT in early stage non-small cell lung cancer patients without LN metastasis.
    Yoo IeR, Chung SK, Park HL, Choi WH, Kim YK, Lee KY, Wang YP.
    Biomed Mater Eng; 2014 Jun; 24(6):3091-103. PubMed ID: 25227018
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  • 39. Prediction of occult lymph node metastasis by metabolic parameters in patients with clinically N0 esophageal squamous cell carcinoma.
    Moon SH, Kim HS, Hyun SH, Choi YS, Zo JI, Shim YM, Lee KH, Kim BT, Choi JY.
    J Nucl Med; 2014 May; 55(5):743-8. PubMed ID: 24700884
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  • 40. 18F-FDG uptake and clearance in patients with compromised renal function.
    Akers SR, Werner TJ, Rubello D, Alavi A, Cheng G.
    Nucl Med Commun; 2016 Aug; 37(8):825-32. PubMed ID: 27058366
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