Your search keyword '"Pavlo Baturin"' showing total 2 results

1. Spectral CT imaging of vulnerable plaque with two independent biomarkers

Author

Pavlo Baturin, Sabee Molloi, and Yahya Alivov

Subjects

Photon, Materials science, Calibration curve, Metal Nanoparticles, computer.software_genre, medicine.disease_cause, Imaging phantom, Voxel, medicine, Humans, Radiology, Nuclear Medicine and imaging, Radiological and Ultrasound Technology, Phantoms, Imaging, business.industry, Macrophages, Attenuation, Detector, Vulnerable plaque, Plaque, Atherosclerotic, Calcium, Gold, Tomography, Tomography, X-Ray Computed, Nuclear medicine, business, computer, Biomarkers, Biomedical engineering

Abstract

The purpose of this paper is to investigate the feasibility of a novel four-material decomposition technique for assessing the vulnerability of plaque with two contrast materials spectral computer tomography (CT) using two independent markers: plaque's inflammation and spotty calcification. A simulation study was conducted using an energy-sensitive photon-counting detector for k-edge imaging of the coronary arteries. In addition to detecting the inflammation status, which is known as a biological marker of a plaque's vulnerability, we use spotty calcium concentration as an independent marker to test a plaque's vulnerability. We have introduced a new method for detecting and quantifying calcium concentrations in the presence of two contrast materials (iodine and gold), calcium and soft tissue background. In this method, four-material decomposition was performed on a pixel-by-pixel basis, assuming there was an arbitrary mixture of materials in the voxel. The concentrations of iodine and gold were determined by the k-edge material decomposition based on the maximum likelihood method. The calibration curves of the attenuation coefficients, with respect to the concentrations of different materials, were used to separate the calcium signal from both contrast materials and different soft tissues in the mixtures. Three different materials (muscle, blood and lipid) were independently used as soft tissue. The simulations included both ideal and more realistic energy resolving detectors to measure the polychromatic photon spectrum in single slice parallel beam geometry. The ideal detector was used together with a 3 cm diameter digital phantom to demonstrate the decomposition method while a more realistic detector and a 33 × 24 cm(2) digital chest phantom were simulated to validate the vulnerability assessment technique. A 120 kVp spectrum was generated to produce photon flux sufficient for detecting contrast materials above the k-edges of iodine (33.2 keV) and gold (80.7 keV). By performing simulations on a 3 cm diameter digital phantom, we successfully identified four materials that were simultaneously present in the mixture at different proportions and in multiple locations on the phantom. Quantitative analysis with a chest digital phantom showed that the results for iodine, gold and calcium were highly correlated with the known concentrations. The analysis revealed a potentially powerful technique for assessing a plaque's vulnerability with two independent markers. High correlation and low relative errors between calculated and known materials' concentrations showed that the method is feasible. This technique can potentially have a high clinical impact.

Published

2012

2. Binding Energy of7ΛHe and Test of Charge Symmetry Breaking in the ΛN Interaction Potential

Author

V. Tvaskis, K. J. Lan, M. Elaasar, W. U. Boeglin, Neven Simicevic, Joerg Reinhold, Y. Li, N. Perez, L. Gan, M. Osaka, Hiroshi Nomura, A. Daniel, T. Miyoshi, S. N. Nakamura, L. Cole, Yoichi Sato, V Tadevosyan, T. Takahashi, A Ahmidouch, Masayuki Oyamada, A Mkrtchyan, Rolf Ent, A Gasparian, Y. Song, S. Randeniya, Miroslav Furić, Pavlo Baturin, T. Horn, B. S. Hu, Brian Raue, Osamu Hashimoto, Seigo Kato, W. F. Vulcan, P. Pamela, S. Wells, Darko Androić, A. Matsumura, Y. Fujii, K. Johnston, M. E. Christy, O. K. Baker, P. Bosted, V. M. Rodriguez, R. D. Carlini, H. C. Fenker, Fatiha Benmokhtar, A. Acha, M I Niculescu, D. Kawama, F. Kato, N. Maruyama, J. Roche, R. Rivera, Laird Kramer, G. Niculescu, S Zamkochian, A Asaturyan, M. Sumihama, S. A. Wood, R Asaturyan, C. Yan, Tomislav Petković, W. Luo, K Egiyan, T. Seva, Y. Okayasu, R. Halkyard, D. J. Mack, Pete Markowitz, C. E. Keppel, S Danagoulian, H Mkrtchyan, L. G. Tang, M. Ispiryan, N. Kalantarians, T Navasardyan, A Margaryan, D. Gaskell, G Marikyan, M. K. Jones, Ed V. Hungerford, L. Yuan, G. R. Smith, Paul Gueye, D. Honda, K. Nonaka, Hirokazu Tamura, E. F. Gibson, A. Ohtani, and Masashi Kaneta

Subjects

Physics, hypernuclear, electroproduction, kaon spectrometer, electron spectrometer, charge symmetry, History, Binding energy, Charge (physics), Lambda, Potential energy, Computer Science Applications, Education, Interaction potential, Cluster (physics), Symmetry breaking, Atomic physics, Spectroscopy

Abstract

The binding energy of 7ΛHe has been obtained for the first time with reaction spectroscopy using the (e, e'K+) reaction at Jefferson Lab's Hall C. A comparison among the binding energies of the A = 7 T = l iso-triplet hypernuclei, 7ΛHe, 7ΛLi*and 7ΛBe, is made and possible charge symmetry breaking (CSB) in the ΛN potential is discussed. For 7ΛHe and 7ΛBe, the shifts in binding energies are opposite to those predicted by a recent cluster model calculation, which assumes that the unexplained part of the binding energy difference between 4ΛH and 4ΛHe, is due to the CSB of the ΛN potential. Further examination of CSB in light hypernuclear systems is required both experimentally and theoretically.

Published

2011