更多"单室模型静脉滴注给药、停止滴注后的C-t关系式可求()"的相关试题:
[单项选择]单室模型静脉滴注给药、停止滴注后的C-t关系式可求()
A. 消除速度常数K
B. 吸收速度常数Ka
C. 多剂量函数
D. A和B
E. B和C
[单项选择]单室模型单剂量血管外给药的C-t关系式可求()
A. 消除速度常数K
B. 吸收速度常数Ka
C. 多剂量函数
D. A和B
E. B和C
[单项选择]单室模型静脉滴注给药达稳态后停止滴注血药浓度随时间变化的关系式()
A. logX=(-K/2.303)t+logX0
B. logC=(-K/2.303)t+logC0
C. logC′=(-K/2.303)t′+log(K0/VK)
D. logC′=(-K/2.303)t′+log[K0(1-e-KT)/VK]
E. C=K0(1-e-KT)/KV
[单项选择]单室模型静脉滴注给药达稳态前停止滴注血药浓度随时间变化的关系式()
A. logX=(-K/2.303)t+logX0
B. logC=(-K/2.303)t+logC0
C. logC′=(-K/2.303)t′+log(K0/VK)
D. logC′=(-K/2.303)t′+log[K0(1-e-KT)/VK]
E. C=K0(1-e-KT)/KV
[单项选择]单室模型静脉滴注给药达稳态后停止滴注血药浓度随时间变化的关系式为( )。
A. logX=(-K/2.303)t+logX0
B. 10gC=(-K/2.303)t+logC0
C. logC′=(-K/2.303)t′+log(K0/VK)
D. 10gC′=(-K/2.303)t′+log[K0(1-e-KT)/VK]
E. C=K0(1-e-Kt)/KV
[单项选择]单室模型静脉滴注给药达稳态前停止滴注血药浓度随时间变化的关系式为( )。
A. logX=(-K/2.303)t+logX0
B. 10gC=(-K/2.303)t+logC0
C. logC′=(-K/2.303)t′+log(K0/VK)
D. 10gC′=(-K/2.303)t′+log[K0(1-e-KT)/VK]
E. C=K0(1-e-Kt)/KV
[单项选择]单室模型静脉滴注给药,达稳态前停止滴注,血药浓度随时间变化关系式为().
A. C=k0(1-e-kt)/VK
B. logC’=(-k/2.303)t’+log(k0/VK)
C. logC’=(-k/2.303)t’+log[k0(1-e-kt)/VK]
D. logC(-k/2.303)t+logC0
E. logX=(-k/2.303)t+logX0
[单项选择]单室模型静脉注射给药,体内药量随时间变化关系式为().
A. C=k0(1-e-kt)/VK
B. logC’=(-k/2.303)t’+log(k0/VK)
C. logC’=(-k/2.303)t’+log[k0(1-e-kt)/VK]
D. logC(-k/2.303)t+logC0
E. logX=(-k/2.303)t+logX0
[单项选择]单室模型静脉注射给药后体内血药浓度随时间变化的关系式()
A. logX=(-K/2.303)t+logX0
B. logC=(-K/2.303)t+logC0
C. logC′=(-K/2.303)t′+log(K0/VK)
D. logC′=(-K/2.303)t′+log[K0(1-e-KT)/VK]
E. C=K0(1-e-KT)/KV
[单项选择]单室模型静脉滴注给药过程中体内血药浓度随时间变化的关系式()
A. logX=(-K/2.303)t+logX0
B. logC=(-K/2.303)t+logC0
C. logC′=(-K/2.303)t′+log(K0/VK)
D. logC′=(-K/2.303)t′+log[K0(1-e-KT)/VK]
E. C=K0(1-e-KT)/KV
[单项选择]单室模型静脉注射给药,体内血药浓度随时间变化关系式为().
A. C=k0(1-e-kt)/VK
B. logC’=(-k/2.303)t’+log(k0/VK)
C. logC’=(-k/2.303)t’+log[k0(1-e-kt)/VK]
D. logC(-k/2.303)t+logC0
E. logX=(-k/2.303)t+logX0