one compartment model with iv injection

PHA 5127

Problem Set "One Compartment Model with i.v. Injection Only Urinary Elimination

A 70 kg patient was given a bolus i.v. injection of 1000 mg of a drug. The drug is not bound to plasma proteins and is excreted unchanged solely into the urine. When the plasma concentration (Cp) was assayed, the following data was obtained.

time t[min]	Cp[mg/ml]
5	32.7
10	32.0
15	31.3
25	30.0
50	27.1
100	22.0
150	17.8
200	14.5
250	11.8
300	9.55
350	7.95
400	6.30
500	4.15
600	2.74
800	1.19
1000	0.52

1. Plot the plasma data on linear coordinate paper and estimate t1/2 and Vd.

2. Plot the plasma data on semilogarithmic paper and determine ke, t1/2 and Vd.

3. Match the following pharmacokinetic parameters with its units

(A)	kren	(1) min
(B)	Cltot	(2) l/sec
(C)	t1/2	(3) m3
(D)	Vd	(4) 1/hr

4. A drug was given as an i.v. -bolus injection. The following plasma levels were measured.

Plasma	Cp[ng/ml]
time [h]
1	317.5
2	252.0
3	200.0
4	158.8
6	100.0
8	63.0
10	39.7
12	25.0
14	15.8

Assuming a one-compartment-body model and first order kinetics determine from the data given above:

4-a Elimination rate constant

4-b Plasma elimination half-life

5. Explain why volume of distribution and clearance are independent parameters.

6. A patient was admitted into the hospital in status asthmaticus. She received a starting infusion of 320 mg theophylline over 30 min. 30 min and 5 hours after the stop of the infusion, plasma levels were determined to be 11.5 and 6.7 mg/L respectively. Calculate the theophylline half-life for this patient.

7. In the following, pairs of pharmacokinetic parameters are listed. Mark whether the following correlations are always true are false for a one compartment body model.

(a)	T F	kren<ke
(b)	T F	D=U¥
(c)	T F	Cpo* Vd=D
(d)	T F	t=0.693/ke
(e)	T F	Clren=kren*D/Cpo

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