Pharmacokinetics/Pharmacodynamics

Drug

Timing of Blood Sample

Therapeutic Rangea

Unbound Therapeutic Range

Amikacin

Peak (extended interval)

Trough (extended interval)

Peak (traditional)

Trough (traditional)

30–40 mg/L

undetectable

20–30 mg/L

< 8 mg/L

—

Carbamazepine

Trough

4–12 mg/L

0.5–4 mcg/mL

Cyclosporine

Trough

50–500 mcg/L

—

Digoxin

Trough (8–24 hr postdose)

0.6–2 mcg/L

0.4–0.9 ng/mL

Gentamicin

Peak (extended interval)

Trough (extended interval)

Peak (traditional)

Trough (traditional)

5–20 mg/L

undetectable

8–10 mg/L

< 2 mg/L

—

Lidocaine

Peak

1.5–5 mg/L

—

Phenobarbital

Trough

10–40 mg/L

—

Phenytoin

Trough

10–20 mg/L

1–2.5 mcg/mL

Tobramycin

Peak (extended interval)

Trough (extended interval)

Peak (traditional)

Trough (traditional)

5–20 mg/L

undetectable

8–10 mg/L

< 2 mg/L

—

Valproate

Trough

50–100 mcg/mL

5v15 mcg/mLb

Vancomycin

Peak and Trough to calculate

AUC

AUC 400–600 mg ×

hour/L

—

aTherapeutic ranges for antibiotics may be modified on the basis of pharmacodynamic target attainments (e.g., peak to MIC ratio).

bOptimal range for unbound valproate remains undetermined.

TDM = therapeutic drug monitoring.

Data adapted from: J Antimicrob Chemother 2016;71:2754-9; Clin Infect Dis 2020:71;1361-4; Ther Drug Monit 2017;39:522-30; Infect Dis 2023;10:ofad058;

concentrations can be measured when the drug is at steady state. The patient’s specific PK can be

determined and used to tailor the drug-dosing regimen. The following PK equations can be used to

calculate the various kinetic variables.

Determination of the elimination rate constant:

ke =

ln

Δ in time

C1

C2

where ke is the elimination rate constant, C1 is the measured peak concentration, C2 is the measured

trough concentration, and Δ in time is the elapsed time from C1 to C2 in hours.

Determination of the drug half-life:

t1/2 = 0.693

ke

where t1/2 is the calculated half-life.