Principles and Practice of Pharmaceutical Medicine

Blood gases indicate a mixed picture:

• pH is low, and HCO 3 is low, due to the direct
  acidotic challenge of the toxin.


• pCO 2 is low due to hyperventilation (Kuss-
  maul respiration, and possibly also a direct
  effect of salicylate).
  –pO 2 is typically normal.

Excretion of salicylate is principally in the urine
and can be enhanced by alkalinization because:

• Salicylate is filtered in the glomerulus and this
  is pH independent.


• Resorption of salicylate in the nephron is
  substantial because of the concentration of
  the toxin.


• The nephron is a lipid membrane and in an
  alkaline environment more salicylate is
  ionized.

Lastly, remember that basic drugs are excreted
more vigorously in a urine that is acidified with
oral ammonium sulfate. A common and popular
drug of abuse at the moment in California is me-
thamphetamine; the suffix again tells us it is a basic
drug, and the same logic applies, but in reverse.

28.3 When is plasma

concentration monitoring

irrational?

Drugs for which concentration assays are clearly
unsuited include acute therapies (i.e. not used
at steady state), those with extraordinarily short
half-times (e.g. injected or intranasal polypep-
tides) and those for which either treatment is
indicated regardless (late acetaminophen/parace-
tamol overdoses, see above), or when adverse
events are almost automatic and should be mon-
itored in other ways, for example CNS toxicity
with salicylates (see above) or liability to bone
marrow suppression with cytotoxic agents.
Furthermore, the efficacy and tolerability of
some drugs are known to be unrelated to circulat-
ing concentrations (e.g. penicillin anaphylaxis),

which also makes plasma concentration monitor-

ing pointless.

It is also important to remember that just

because a clinical laboratory offers a plasma

level for a particular drug, this does not mean

that it will be universally useful. For example,

plasma levels of antiviral drugs used in the treat-

ment of HIV infection are now inferior to CD4

lymphocyte counts and RNA measures of viral

load when monitoring for efficacy (e.g. Back

et al., 2000). Another good example is the case

of many antidepressant drugs. If the patient is also

using a potentially interacting, concomitant ther-

apy, if there is doubt as to treatment compliance or

if there is some other special clinical feature, then

a plasma level of, say, amitriptyline can be very

useful. A plasma level might also be very useful in

the emergency department for the diagnosis of an

intoxicated patient. But studying lower concentra-

tions of amitriptyline when treating depression is

of almost no practical value in predicting efficacy

(e.g. Ursolak, 1989). Although much is known

about the pharmacokinetic interactions of selec-

tive serotonin reuptake inhibitors (and indeed

some are even used as probes in clinical pharma-

cology studies), this does not extrapolate to their

routine plasma level monitoring in the clinic

(Sprouleet al., 1997). Thus, routine venesection

of patients in psychiatric clinics is likely to have a

relatively low yield of useful information and may

not be cost-effective.

28.4 Concentration monitoring

in other biological fluids

Urine

Urine is commonly screened for evidence of illicit

drug use or alcohol consumption. This may be

viewed as a drug concentration monitoring proce-

dure, even if only of a qualitative type. It remains

controversial whether poppy-seed bagels can lead

to positive urine screens for opioids!

Materials such as radioactive sodium iothala-

mate or inulin can be regarded as drugs. These

378 CH28 MONITORING DRUG CONCENTRATIONS IN CLINICAL PRACTICE