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Fundamental Mathematical Principles in Pharmacokinetics: Rate and Order of Reaction

JoVE Core
Pharmacokinetics and Pharmacodynamics
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JoVE Core Pharmacokinetics and Pharmacodynamics
Fundamental Mathematical Principles in Pharmacokinetics: Rate and Order of Reaction

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01:15 min

October 10, 2024

In pharmacokinetics, the rates and order of reactions play a crucial role in understanding how the body processes drugs and help us comprehend drug absorption, distribution, metabolism, and elimination. A critical concept in pharmacokinetics is the rate constant, which quantifies the speed of a reaction. It provides valuable information about the kinetics of drug elimination. The rate constant allows us to determine the rate at which drugs are eliminated from the body.

Pharmacokinetic reactions can be classified into two types: zero-order and first-order reactions. Zero-order reactions occur when drug elimination remains constant regardless of drug concentration. Alcohol metabolism is an example of a zero-order reaction. The elimination rate remains constant, and the negative sign indicates the decreasing drug concentration. Drug elimination in first-order reactions depends primarily on the drug concentration. The rate of elimination changes with time and concentration. Most drugs, such as epinephrine and ibuprofen, follow first-order kinetics when eliminated from the body. In first-order kinetics, the rate of drug elimination is directly proportional to the drug's concentration in the body. As the concentration decreases, the elimination rate also decreases. Distinguishing between zero- and first-order reactions is critical because their elimination rates are different. The rate remains constant in zero-order reactions, while in first-order reactions, the rate decreases as drug concentration decreases.

A graphical method can be used to determine the order of a reaction. We can analyze the resulting line's slope by plotting the natural logarithm of drug concentration against time. The slope provides insight into the order of operations. This graphical determination helps us understand the kinetics of drug elimination and establish appropriate dosing regimens.

The rates and order of reactions in pharmacokinetics are fundamental mathematical principles that allow us to establish suitable dosing regimens and predict drug concentrations over time.