Srinivasan Vedantham to Cone-Beam Computed Tomography
This is a "connection" page, showing publications Srinivasan Vedantham has written about Cone-Beam Computed Tomography.
Connection Strength
5.291
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Tseng HW, Fu Z, Vedantham S. Simultaneous reduction of radiation dose and scatter-to-primary ratio using a truncated detector and advanced algorithms for dedicated cone-beam breast CT. Biomed Phys Eng Express. 2025 Mar 03; 11(2).
Score: 0.891
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Fu Z, Tseng HW, Vedantham S. An attenuation field network for dedicated cone beam breast CT with short scan and offset detector geometry. Sci Rep. 2024 01 03; 14(1):319.
Score: 0.822
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Vedantham S, Tseng HW, Fu Z, Chow HS. Dedicated Cone-Beam Breast CT: Reproducibility of Volumetric Glandular Fraction with Advanced Image Reconstruction Methods. Tomography. 2023 11 02; 9(6):2039-2051.
Score: 0.812
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Tseng HW, Karellas A, Vedantham S. Cone-beam breast CT using an offset detector: effect of detector offset and image reconstruction algorithm. Phys Med Biol. 2022 04 07; 67(8).
Score: 0.729
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Vedantham S, Tseng HW, Konate S, Shi L, Karellas A. Dedicated cone-beam breast CT using laterally-shifted detector geometry: Quantitative analysis of feasibility for clinical translation. J Xray Sci Technol. 2020; 28(3):405-426.
Score: 0.623
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Vedantham S. Contrast-enhanced breast computed tomography: can lymph node metastasis be predicted from primary tumor? Eur Radiol. 2024 Apr; 34(4):2574-2575.
Score: 0.203
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Tseng HW, Karellas A, Vedantham S. Dedicated cone-beam breast CT: Data acquisition strategies based on projection angle-dependent normalized glandular dose coefficients. Med Phys. 2023 Mar; 50(3):1406-1417.
Score: 0.191
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Tseng HW, Vedantham S, Karellas A. Cone-beam breast computed tomography using ultra-fast image reconstruction with constrained, total-variation minimization for suppression of artifacts. Phys Med. 2020 May; 73:117-124.
Score: 0.159
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Deng L, Yasar S, Ahmed MF, Jayarathna S, Feng P, Wei B, Vedantham S, Karellas A, Cho SH. Investigation of transmission computed tomography (CT) image quality and x-ray dose achievable from an experimental dual-mode benchtop x-ray fluorescence CT and transmission CT system. J Xray Sci Technol. 2019; 27(3):431-442.
Score: 0.145
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Shi L, Vedantham S, Karellas A, Zhu L. The role of off-focus radiation in scatter correction for dedicated cone beam breast CT. Med Phys. 2018 Jan; 45(1):191-201.
Score: 0.135
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O'Connell AM, Karellas A, Vedantham S, Kawakyu-O'Connor DT. Newer Technologies in Breast Cancer Imaging: Dedicated Cone-Beam Breast Computed Tomography. Semin Ultrasound CT MR. 2018 Feb; 39(1):106-113.
Score: 0.133
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Shi L, Vedantham S, Karellas A, Zhu L. X-ray scatter correction for dedicated cone beam breast CT using a forward-projection model. Med Phys. 2017 Jun; 44(6):2312-2320.
Score: 0.129
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Shi L, Vedantham S, Karellas A, Zhu L. Library based x-ray scatter correction for dedicated cone beam breast CT. Med Phys. 2016 Aug; 43(8):4529.
Score: 0.123
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van der Bom IM, Hou SY, Puri AS, Spilberg G, Ruijters D, van de Haar P, Carelsen B, Vedantham S, Gounis MJ, Wakhloo AK. Reduction of coil mass artifacts in high-resolution flat detector conebeam CT of cerebral stent-assisted coiling. AJNR Am J Neuroradiol. 2013 Nov-Dec; 34(11):2163-70.
Score: 0.099
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Shi L, Vedantham S, Karellas A, O'Connell AM. Technical note: Skin thickness measurements using high-resolution flat-panel cone-beam dedicated breast CT. Med Phys. 2013 Mar; 40(3):031913.
Score: 0.097