S CHEENU KAPPADATH

TitleAssociate Professor
InstitutionMD Anderson
DepartmentImaging Physics
Address1155 Pressler St
Houston TX 77030-3721
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    Publications listed below are automatically derived from MEDLINE/PubMed and other sources, which might result in incorrect or missing publications. Faculty can login to make corrections and additions.
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    PMC Citations indicate the number of times the publication was cited by articles in PubMed Central, and the Altmetric score represents citations in news articles and social media. (Note that publications are often cited in additional ways that are not shown here.) Fields are based on how the National Library of Medicine (NLM) classifies the publication's journal and might not represent the specific topic of the publication. Translation tags are based on the publication type and the MeSH terms NLM assigns to the publication. Some publications (especially newer ones and publications not in PubMed) might not yet be assigned Field or Translation tags.) Click a Field or Translation tag to filter the publications.
    1. Pan T, Einstein SA, Kappadath SC, Grogg KS, Lois Gomez C, Alessio AM, Hunter WC, El Fakhri G, Kinahan PE, Mawlawi OR. Performance evaluation of the 5-Ring GE Discovery MI PET/CT system using the national electrical manufacturers association NU 2-2012 Standard. Med Phys. 2019 Jul; 46(7):3025-3033. PMID: 31069816.
      Citations: 4     Fields:    Translation:Humans
    2. Kappadath SC, Mikell J, Balagopal A, Baladandayuthapani V, Kaseb A, Mahvash A. Hepatocellular Carcinoma Tumor Dose Response After 90Y-radioembolization With Glass Microspheres Using 90Y-SPECT/CT-Based Voxel Dosimetry. Int J Radiat Oncol Biol Phys. 2018 10 01; 102(2):451-461. PMID: 30191875.
      Citations: 6     Fields:    Translation:Humans
    3. Meier J, Kappadath SC. Characterization of the energy response and backscatter contribution for two electronic personal dosimeter models. J Appl Clin Med Phys. 2015 11 08; 16(6):423–434. PMID: 26699565.
      Citations:    Fields:    Translation:HumansPHPublic Health
    4. Mikell JK, Mahvash A, Siman W, Mourtada F, Kappadath SC. Comparing voxel-based absorbed dosimetry methods in tumors, liver, lung, and at the liver-lung interface for (90)Y microsphere selective internal radiation therapy. EJNMMI Phys. 2015 Dec; 2(1):16. PMID: 26501817.
      Citations:    
    5. Wait JM, Cody D, Jones AK, Rong J, Baladandayuthapani V, Kappadath SC. Performance Evaluation of Material Decomposition With Rapid-Kilovoltage-Switching Dual-Energy CT and Implications for Assessing Bone Mineral Density. AJR Am J Roentgenol. 2015 Jun; 204(6):1234-41. PMID: 26001233.
      Citations: 3     Fields:    Translation:Humans
    6. Siman W, Silosky M, Kappadath SC. A revised monitor source method for practical deadtime count loss compensation in clinical planar and SPECT studies. Phys Med Biol. 2015 Feb 07; 60(3):1199-216. PMID: 25591740.
      Citations: 2     Fields:    Translation:Humans
    7. Hulme KW, Kappadath SC. Implications of CT noise and artifacts for quantitative 99mTc SPECT/CT imaging. Med Phys. 2014 Apr; 41(4):042502. PMID: 24694155.
      Citations: 3     Fields:    Translation:Humans
    8. Silosky M, Johnson V, Beasley C, Kappadath SC. Characterization of the count rate performance of modern gamma cameras. Med Phys. 2013 Mar; 40(3):032502. PMID: 23464339.
      Citations: 5     Fields:    
    9. Siman W, Kappadath SC. Performance characteristics of a new pixelated portable gamma camera. Med Phys. 2012 Jun; 39(6):3435-44. PMID: 22755723.
      Citations: 5     Fields:    
    10. Tenna AM, Kappadath S, Stansby G. Diagnostic tests and strategies in venous thromboembolism. Phlebology. 2012; 27 Suppl 2:43-52. PMID: 22457304.
      Citations: 4     Fields:    Translation:Humans
    11. Kappadath SC. Effects of voxel size and iterative reconstruction parameters on the spatial resolution of 99mTc SPECT/CT. J Appl Clin Med Phys. 2011 Nov 15; 12(4):3459. PMID: 22089002.
      Citations: 2     Fields:    Translation:Humans
    12. Mathieu KB, Kappadath SC, White RA, Atkinson EN, Cody DD. An empirical model of diagnostic x-ray attenuation under narrow-beam geometry. Med Phys. 2011 Aug; 38(8):4546-55. PMID: 21928626.
      Citations: 3     Fields:    Translation:Humans
    13. Hulme KW, Rong J, Chasen B, Chuang HH, Cody DD, Wong FC, Kappadath SC. A CT acquisition technique to generate images at various dose levels for prospective dose reduction studies. AJR Am J Roentgenol. 2011 Feb; 196(2):W144-51. PMID: 21257855.
      Citations: 4     Fields:    Translation:Humans
    14. Kappadath SC, Erwin WD, Wendt RE. A novel method to evaluate gamma camera rotational uniformity and sensitivity variation. Med Phys. 2009 Jun; 36(6):1947-55. PMID: 19610283.
      Citations:    Fields:    
    15. Kappadath SC, Shaw CC. Dual-energy digital mammography for calcification imaging: noise reduction techniques. Phys Med Biol. 2008 Oct 07; 53(19):5421-43. PMID: 18765887.
      Citations: 4     Fields:    Translation:Animals
    16. Kappadath SC, Erwin WD, Wendt RE. Observed inter-camera variability of clinically relevant performance characteristics for Siemens Symbia gamma cameras. J Appl Clin Med Phys. 2006 Nov 28; 7(4):74-80. PMID: 17533358.
      Citations: 3     Fields:    
    17. Kappadath SC, Shaw CC. Dual-energy digital mammography for calcification imaging: scatter and nonuniformity corrections. Med Phys. 2005 Nov; 32(11):3395-408. PMID: 16372415.
      Citations: 9     Fields:    Translation:Humans
    18. Lai CJ, Shaw CC, Whitman GJ, Johnston DA, Yang WT, Selinko V, Arribas E, Dogan B, Kappadath SC. Visibility of simulated microcalcifications--a hardcopy-based comparison of three mammographic systems. Med Phys. 2005 Jan; 32(1):182-94. PMID: 15719969.
      Citations: 5     Fields:    Translation:Humans
    19. Kappadath SC, Shaw CC. Quantitative evaluation of dual-energy digital mammography for calcification imaging. Phys Med Biol. 2004 Jun 21; 49(12):2563-76. PMID: 15272674.
      Citations: 7     Fields:    Translation:Humans
    20. Kappadath SC, Shaw CC. Dual-energy digital mammography: calibration and inverse-mapping techniques to estimate calcification thickness and glandular-tissue ratio. Med Phys. 2003 Jun; 30(6):1110-7. PMID: 12852535.
      Citations: 5     Fields:    Translation:HumansCells
    21. Lemacks MR, Kappadath SC, Shaw CC, Liu X, Whitman GJ. A dual-energy subtraction technique for microcalcification imaging in digital mammography--a signal-to-noise analysis. Med Phys. 2002 Aug; 29(8):1739-51. PMID: 12201421.
      Citations: 12     Fields:    Translation:Humans
    22. Weidenspointner G, Bennett K, van Dijk R, Kappadath SC, Lockwood J, Morris D, Schonfelder V, Varendorff M. The local neutron flux at low Earth-orbiting altitudes. Adv Space Res. 1998; 21(12):1781-4. PMID: 11542899.
      Citations:    Fields:    Translation:PHPublic Health
    23. The CDG spectrum from 0.8-30 MeV measured with COMPTEL based on a physical model of the instrumental background. Astrophysical Letters and Communications. 39:193-196.
    24. The preliminary cosmic diffuse γ-ray spectrum from 800 keV to 30 MeV measured with COMPTEL. Astronomy and Astrophysics Supplement Series. 120:619-622.
    25. Practical reconstruction protocol for quantitative 90Y bremsstrahlung SPECT/CT. Medical Physics. 43:5093-5103.
    26. Coded-aperture x-ray/gamma-ray telescope for arc-minute localization of gamma-ray bursts. 539-551.
    27. Dual-energy digital mammography for calcification imaging. 1342-1350.
    28. Cone beam breast CT with a flat panel detector- Simulation, implementation and demonstration. 4461-4464.
    29. Dual-energy digital mammography for calcification imaging. 751-760.
    30. The COMPTEL instrumental line background. Astronomy and Astrophysics. 368:347-368.
    31. Prompt cosmic-ray-induced background in the orbiting Compton telescope COMPTEL. 13-16.
    32. The local neutron flux at low Earth-orbiting altitudes. Astronomy and Astrophysics Supplement Series. 120:631-634.
    33. Effects of voxel size and iterative reconstruction parameters on the spatial resolution of 99mTc SPECT/CT. Journal of Applied Clinical Medical Physics. 12:210-220.
    34. Development and testing of a fiber/multianode photomultiplier system for use on FiberGLAST. 156-165.
    35. Comparing voxel-based absorbed dosimetry methods in tumors, liver, lung, and at the liver-lung interface for 90Y microsphere selective internal radiation therapy. EJNMMI Physics. 2:1-14.
    36. Slot scanning versus anti-scatter grid in digital mammography-comparison of low contrast performance using contrast-detail measurement. 734-742.
    37. Evaluation of a deterministic grid-based Boltzmann solver (GBBS) for voxel-level absorbed dose calculations in nuclear medicine. Physics in Medicine and Biology. 61:4564-4582.
    38. A multicentre comparison of quantitative <sup>90</sup>Y PET/CT for dosimetric purposes after radioembolization with resin microspheres. European Journal of Nuclear Medicine and Molecular Imaging. 42:1202-1222.
    39. Factors affecting quantification in PET/CT imaging. Current Medical Imaging Reviews. 4:34-45.
    40. Analysis of the dependence of PET/CT quantification on iterative reconstruction parameters. 4406-4409.
    41. Contrast-to-noise and exposure measurements of an aSi. 826-832.
    42. Comparison of two detector systems for cone beam CT small animal imaging - A preliminary study.
    43. Cone-beam CT breast imaging with a flat panel detector - A simulation study. 943-951.
    44. The cosmic background at 0.75-30 mev. Astrophysical Letters and Communications. 39:213-216.
    45. Margie - Minute of Arc resolution hard X-ray/gamma ray imaging telescope for an ultra long duration balloon mission. Advances in Space Research. 30:1321-1332.
    46. Selective Internal Radiation Therapy With Yttrium-90 Glass Microspheres. International Journal of Radiation Oncology Biology Physics. 96:888-896.
    47. An accurate scatter measurement and correction technique for cone beam breast CT imaging using scanning sampled measurement (SSM) technique.
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