Quantification of human splenic blood flow (Quantitative measurement of splenic blood flow with H2 15O and a dynamic state method: 1)
Positron emission tomography (PET) by means of a dynamic state method and H2 O was performed to quantify splenic blood flow in 20 patients who had no hepatic functional disorders. Non-linear regression analysis was applied to determine splenic blood flow. In calculating arterial input function for t...
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| Veröffentlicht in: | Annals of nuclear medicine 1993-12, Vol.7 (4), p.245-250 |
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| container_title | Annals of nuclear medicine |
| container_volume | 7 |
| creator | Oguro, Atsushi Taniguchi, Hiroki Koyama, Hiroshi Tanaka, Hiroki Miyata, Keigo Takeuchi, Kazumi Inaba, Tadashi Nakahashi, Hisamitsu Takahashi, Toshio |
| description | Positron emission tomography (PET) by means of a dynamic state method and H2 O was performed to quantify splenic blood flow in 20 patients who had no hepatic functional disorders. Non-linear regression analysis was applied to determine splenic blood flow. In calculating arterial input function for the spleen, our originalexponential method was used to facilitate computerization. Mean splenic blood flow per 100 g of spleen (SBF) was 168.0 ml/min/100 g with a standard error (SE) of 12.4 ml/min. The mean spleen-blood partition coefficient for water( rho ) was 0.767 with a SE of 0.020. Significant correlations were noted between the values for SBF obtained by theexponential method andlinear method in which individual increasing values for arterialO concentration were used rectilinearly (r=0.96, p< 0.005) and also between the values for rho obtained by the two methods (r=0.95, p< 0.005). In order to validate the application of a one compartment model to an organ with a large blood volume such as the spleen, a further experiment was performed with a water flow model simulating splenic circulation. |
| doi_str_mv | 10.1007/BF03164705 |
| format | Article |
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Non-linear regression analysis was applied to determine splenic blood flow. In calculating arterial input function for the spleen, our originalexponential method was used to facilitate computerization. Mean splenic blood flow per 100 g of spleen (SBF) was 168.0 ml/min/100 g with a standard error (SE) of 12.4 ml/min. The mean spleen-blood partition coefficient for water( rho ) was 0.767 with a SE of 0.020. Significant correlations were noted between the values for SBF obtained by theexponential method andlinear method in which individual increasing values for arterialO concentration were used rectilinearly (r=0.96, p< 0.005) and also between the values for rho obtained by the two methods (r=0.95, p< 0.005). 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Non-linear regression analysis was applied to determine splenic blood flow. In calculating arterial input function for the spleen, our originalexponential method was used to facilitate computerization. Mean splenic blood flow per 100 g of spleen (SBF) was 168.0 ml/min/100 g with a standard error (SE) of 12.4 ml/min. The mean spleen-blood partition coefficient for water( rho ) was 0.767 with a SE of 0.020. Significant correlations were noted between the values for SBF obtained by theexponential method andlinear method in which individual increasing values for arterialO concentration were used rectilinearly (r=0.96, p< 0.005) and also between the values for rho obtained by the two methods (r=0.95, p< 0.005). 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Non-linear regression analysis was applied to determine splenic blood flow. In calculating arterial input function for the spleen, our originalexponential method was used to facilitate computerization. Mean splenic blood flow per 100 g of spleen (SBF) was 168.0 ml/min/100 g with a standard error (SE) of 12.4 ml/min. The mean spleen-blood partition coefficient for water( rho ) was 0.767 with a SE of 0.020. Significant correlations were noted between the values for SBF obtained by theexponential method andlinear method in which individual increasing values for arterialO concentration were used rectilinearly (r=0.96, p< 0.005) and also between the values for rho obtained by the two methods (r=0.95, p< 0.005). In order to validate the application of a one compartment model to an organ with a large blood volume such as the spleen, a further experiment was performed with a water flow model simulating splenic circulation.</abstract><doi>10.1007/BF03164705</doi><tpages>6</tpages></addata></record> |
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| ispartof | Annals of nuclear medicine, 1993-12, Vol.7 (4), p.245-250 |
| issn | 0914-7187 1864-6433 |
| language | eng |
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| source | Alma/SFX Local Collection; SpringerLink Journals - AutoHoldings |
| title | Quantification of human splenic blood flow (Quantitative measurement of splenic blood flow with H2 15O and a dynamic state method: 1) |
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