Fundamentals of Medicinal Chemistry

for natural logarithms:

lnCp¼lnC 0 kelt (8:6)

and for logarithms to base 10:

log 10 Cp¼log 10 C 0 

kelt

2 : 303

(8:7)

Both these equations give straight line plots (Figure 8.6) and so it is possible

to obtain a value ofkelby measuring the slope of the graph provided the

experimental data gives a reasonable straight line. Thet1/2value may also be

calculated from these graphs. However, it is advisable to take an average of

several measurements oft1/2made from different initial values ofCpin order to

obtain an accuratet1/2value.

Log 10 Co

−kel

2.303

−log 102

t1/2

Time t Time t

Log 10 Cp Log 10 Cp

Log 10 Cp

Log 10 (Cp/2)

Slope =

=

t1/2

Figure 8.6 Determination of the values oft1/2andkelfrom logarithmic plots of plasma concen-

tration against time. The logarithm plot for logs to base ten is shown but the natural logarithmic

plot would be similar except the slope would now be equal tokel

Half-life andkelvalues may be used to put the comparison of the pharmaco-

logical effect of a lead with its analogues on a numerical basis. This could provide

an indication of the best course of action to take for the successful development of

a useful drug. For example, if a lead has a short duration of action, analogues

with largert1/2and smallerkelvalues than those of the lead are more likely to give

the required pharmacological effect. Similarly, if the lead is too toxic, analogues

with smallert1/2and largerkelvalues need to be developed. It is emphasized that

t1/2andkeldata are not infallible and should not be considered in isolation.

8.4.2 Clearance and its significance

Clearance (CL) is defined as thevolumeof blood in a specified region of the body

that is cleared of a drug inunit time. It is the parameter that relates the rate of

166 PHARMACOKINETICS