Plasma drug concentration monitoring

Antidepressants are used in neuropathic pain and migraine prophylaxis. Tricyclics require monitoring of plasma drug concentrations to achieve optimal effect... 

Over the past 20 years there has been widespread interest in monitoring plasma antidepressant, particularly tricyclic, levels to optimize the response to treatment. One aspect of this research that is universally agreed upon concerns the extensive interindividual variability among patients, but it is still uncertain whether a knowledge of the plasma drug concentration is of clinical value. 

Measurement of drug concentrations in plasma is the cornerstone of therapeutic drug monitoring (TDM), but it is not without pitfalls. In many instances, clinical response does not correlate with plasma drug concentrations. Other considerations may be as follows. 

Routine monitoring of plasma concentrations of antidepressants, while technically feasible for most drugs, is of uncertain value (except for nortriptyline). However, studies suggest that at least 20% of patients become noncompliant at some time or other. Thus, a "poor response" in a patient for whom an adequate dosage of drug has been prescribed may be shown by measurement of the plasma drug concentration to be due merely to failure to take the drug. 

Many biochemistry laboratories no longer undertake routine measurement of the plasma concentration for most anticonvulsant drugs because plasma concentrations are insufficiently stable to serve as a useful guide to change of dose. The exception is phenytoin, where a small increase in dose may lead to a disproportionate rise in the plasma drug concentration (see zero-order pharmacokinetics, p. 99) and plasma monitoring is essential. With other drugs the dose is increased to the maximum tolerated level and, if seizures continue, it is replaced by another. 

Reynolds DJ, Aronson JK. 1993. ABC of monitoring drug therapy. Making the most of plasma drug concentration measurements. Br. Med. J. 306 48-51. 

With knowledge of the GFR, initial dosing reductions can be estimated. The accuracy of initial dosing should be monitored by clinical assessment and plasma drug concentration where feasible. 

A microdialysis study was carried out to examine transport of oxycodone into the brain of rats [67], Oxycodone was administered by i.v. infusion, and unbound drug concentrations were monitored in both vena jugularis and striatum. Steady-state equilibrium was reached rapidly and drug levels in the two compartments declined in parallel at the end of the infusion. An unbound brain to unbound plasma ratio of 3.0 was measured which is 3- to 10-fold higher than for other opioids, and explains the similar in vivo potency of oxycodone in spite of lower receptor affinity. The authors interpret these data as de facto evidence of the existence of an as-yet unidentified transporter that carries oxycodone across the blood-brain barrier. 

Lithium is a drug with a narrow therapeutic index and therefore plasma concentrations are regularly monitored. Lithium is used in the prophylaxis and treatment of mania. Concurrent administration of lithium and diuretics, particularly the thiazides, is contraindicated as lithium excretion is reduced, resulting in increased plasma-lithium concentration and hence toxicity. 

This information may affect selection criteria for the study population and the choice of tests in addition to routine safety monitoring, and will certainly determine the starting dose, range of doses, maximum exposure and dose increments to be studied. Pharmacokinetics in man may be quite different from those in animal species so that plasma and, if possible, tissue concentrations are generally more important than dose. One exception to this may be hepatotox-icity resulting from exposure of the liver to portal blood drug concentrations, when the oral dose administered to the animals may be more relevant than the systemic plasma concentrations, which reflect first-pass metabolism as well as absorption. 

A number of antidepressant drugs, particularly SSRIs, can increase plasma prolactin concentrations, although galactorrhea is uncommon. In a prescription event monitoring survey of about 65 000 patients, compared with SSRIs, moclobemide was associated with a relative risk of galactorrhea of 6.7 (95% Cl = 2.7, 15) (727). However, this was substantially less than the risk associated with the dopamine receptor antagonist risperidone (relative risk compared with SSRIs 32 95% Cl = 14, 70). 

---