Determination of the Distribution Volume that can be Used to Calculate the Intravenous Loading Dose

Abstract

An intravenous loading dose is given to rapidly achieve a desired drug concentration in the blood. A loading dose calculated with the volume of distribution (Vd) at steady state will result in high peak concentrations and possibly serious adverse effects. A loading dose based on the central compartment Vd (V_c) followed by a maintenance infusion may also miss the target drug concentration and cause serious adverse effects. The Vd can be viewed as a time-dependent variable that expands from the V_c immediately after injection, to eventually include the steady-state Vd. If the loading dose is calculated from a Vd determined after the time of peak effect (t_max), then the actual concentration will exceed the target concentration at the t_max. If a loading dose is calculated from a Vd before the peak effect occurs, the actual concentration will be insufficient to achieve the target concentration at t_max. A loading dose based on the Vd at the t_max will accurately achieve the concentration at the t_max without unexpected adverse effects. To determine the Vd at peak effect, it is necessary that an effect can be measured, the peak effect can be detected and the plasma concentrations are sampled frequently enough to quantify the plasma concentrations at the t_max. For drugs that attain an ultra-fast effect (1 to 2 minutes), arterial samples need to be measured. If the onset of effect is intermediate or slow, venous blood can be sampled as the arterial and venous concentrations may be similar at the t_max.