Поисковый запрос: (<.>S=ТКАНЕВОЙ ФОН<.>) |
Общее количество найденных документов : 18
Показаны документы с 1 по 18
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1.
| {8}{1}{m}Kr equilibrium radionuclide ventriculography for the assessment of right heart function // Eur. J. Nucl. Med., 1990. Vol. 16, N 2.-С.89-95
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2.
| Gandsman E.J. The nature of the background in radionuclide ventriculography: Deductions from the mathematical behaviour of the ejection fraction // Phys. Med. and Biol., 1990. Vol. 35, N 11.-С.1467-1476
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3.
| Thakorc K. The effect of different ROIS for background correction on relative renal function in patients with unilateral nephrectomy // J. Nucl. Med., 1993. Vol. 34, N 5 Suppl..-С.87
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4.
| Decostre Philippe L. Temporal behavior of peripheral organ distribution volume in mammillary systems II: Application to background correction in separate glomerular filtration rate estimation in man // J. Nucl. Med., 1990. Vol. 31, N 10.-С.1710-1716
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5.
| Quantification of coronary arterial calcium by dual energy digital subtraction fluoroscopy // Med. Phys., 1991. Vol. 18, N 2.-С.295-298
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6.
| Sydoff Quantification of activity concentration in vivo using planar gamma camera images // International Conference "Radiation Interaction with Material and its Use in Technologies 2006", Kaunas, 28-30 Sept., 2006. -Kaunas, 2006.-С.260
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7.
| Optimizing background correction when calculating diferential renal function in the presence of hydroureteronephrosis using {99}Tc{m}-DTPA // Nucl. Med. Commun., 1998. Vol. 19, N 3.-С.251-255
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8.
| Optimizing background correction when calculating diferential renal function in the presence of hydroureteronephrosis using {99}Tc{m}-DTPA // Nucl. Med. Commun., 1998. Vol. 19, N 3.-С.251-255
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9.
| Optimizing background correction when calculating diferential renal function in the presence of hydroureteronephrosis using {99}Tc{m}-DTPA // Nucl. Med. Commun., 1998. Vol. 19, N 3.-С.251-255
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10.
| Wilson M.J. Interpolative background substraction using soap films - а practical implementation // Nucl. Med. Commun., 1990. Vol. 11, N 3.-С.219
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11.
| Smith T. Influence of background correction in the estimation of myocardial uptake of {99m}Tc labelled perfusion imaging agents // Phys. Med. and Biol., 1998. Vol. 43, N 9.-С.2695-2702
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12.
| Smith T. Influence of background correction in the estimation of myocardial uptake of {99m}Tc labelled perfusion imaging agents // Phys. Med. and Biol., 1998. Vol. 43, N 9.-С.2695-2702
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13.
| Buijs W.C.A.M. Estimation of absolute organ activity using five different methods of background correction: A phantom study // Eur. J. Nucl. Med., 1997. Vol. 24, N 8.-С.931
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14.
| Elimination of background and kidney-depth corrections in renal uptake rate measurement with Tc-99m DMSA using compartment modeling approach // J. Nucl. Med., 1992. Vol. 33, N 5 Suppl..-С.1004
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15.
| Background substraction and split renal function in Tc-99m ethylenedicysteine renography // Eur. J. Nucl. Med., 2000. Vol. 27, N 8.-С.996
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16.
| Background correction in factor analysis of dynamic scintigraphic studies: Necessity and implementation // Phys. Med. and Biol., 1990. Vol. 35, N 11.-С.1477-1485
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17.
| Peters A.M. Appropriate background subtraction for pulmonary radioaerosol clearance // J. Nucl. Med., 1992. Vol. 33, N 5 Suppl..-С.836
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18.
| Aperture optimization in emission imaging using ideal observers for joint detection and localization // Phys. Med. and Biol., 2008. Vol. 53, N 8.-С.2019-2034
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