Abstract
The proliferation ability of central immunological organ cells such as bone marrow cells and thymus cells, which were internally exposed to the fission products, {sup 147}Pm and {sup 134}Cs, has been studied. The retention process of {sup 147}Pm in the whole body was fitted by an equation with least square method. That is R(t) = 0.199e{sup -0.1452t} + 0.812e{sup -0.0008t}. It consists of two components, fast and slow. The fast component is T{sub 1} = 4.77 d and the slow component is T{sub 2} = 866.3 d. For {sup 134}Cs, the equation is R(t) = 18.04e{sup -9.317t} + 45.13e{sup -0.0423t}. The fast component is T{sub 1} = 0.07 d and the slow component is T{sub 2} = 16.14 d. When the dose of internal irradiation of {sup 147}Pm was 0.185 {approx} 0.74 kBq/g and `1{sup 34}Cs was 0.37 {approx} 0.85 kBq/g the proliferation ability of bone marrow cells and thymus cells were remarkably excited.
Citation Formats
Shoupeng, Zhu, Zhunshan, Yang, and Fen, Xia.
Proliferation ability of central immunological organ cells treated with low doses by different radiators.
China: N. p.,
1993.
Web.
Shoupeng, Zhu, Zhunshan, Yang, & Fen, Xia.
Proliferation ability of central immunological organ cells treated with low doses by different radiators.
China.
Shoupeng, Zhu, Zhunshan, Yang, and Fen, Xia.
1993.
"Proliferation ability of central immunological organ cells treated with low doses by different radiators."
China.
@misc{etde_10152688,
title = {Proliferation ability of central immunological organ cells treated with low doses by different radiators}
author = {Shoupeng, Zhu, Zhunshan, Yang, and Fen, Xia}
abstractNote = {The proliferation ability of central immunological organ cells such as bone marrow cells and thymus cells, which were internally exposed to the fission products, {sup 147}Pm and {sup 134}Cs, has been studied. The retention process of {sup 147}Pm in the whole body was fitted by an equation with least square method. That is R(t) = 0.199e{sup -0.1452t} + 0.812e{sup -0.0008t}. It consists of two components, fast and slow. The fast component is T{sub 1} = 4.77 d and the slow component is T{sub 2} = 866.3 d. For {sup 134}Cs, the equation is R(t) = 18.04e{sup -9.317t} + 45.13e{sup -0.0423t}. The fast component is T{sub 1} = 0.07 d and the slow component is T{sub 2} = 16.14 d. When the dose of internal irradiation of {sup 147}Pm was 0.185 {approx} 0.74 kBq/g and `1{sup 34}Cs was 0.37 {approx} 0.85 kBq/g the proliferation ability of bone marrow cells and thymus cells were remarkably excited.}
place = {China}
year = {1993}
month = {Feb}
}
title = {Proliferation ability of central immunological organ cells treated with low doses by different radiators}
author = {Shoupeng, Zhu, Zhunshan, Yang, and Fen, Xia}
abstractNote = {The proliferation ability of central immunological organ cells such as bone marrow cells and thymus cells, which were internally exposed to the fission products, {sup 147}Pm and {sup 134}Cs, has been studied. The retention process of {sup 147}Pm in the whole body was fitted by an equation with least square method. That is R(t) = 0.199e{sup -0.1452t} + 0.812e{sup -0.0008t}. It consists of two components, fast and slow. The fast component is T{sub 1} = 4.77 d and the slow component is T{sub 2} = 866.3 d. For {sup 134}Cs, the equation is R(t) = 18.04e{sup -9.317t} + 45.13e{sup -0.0423t}. The fast component is T{sub 1} = 0.07 d and the slow component is T{sub 2} = 16.14 d. When the dose of internal irradiation of {sup 147}Pm was 0.185 {approx} 0.74 kBq/g and `1{sup 34}Cs was 0.37 {approx} 0.85 kBq/g the proliferation ability of bone marrow cells and thymus cells were remarkably excited.}
place = {China}
year = {1993}
month = {Feb}
}