Elimination Kinetics: First-Order and Zero-Order - Concept | Pharmacokinetics and Pharmacodynamics | JoVe

S'identifier

A drug that enters the body is eliminated in due course, primarily via the kidneys.

Clearance is a pharmacokinetic parameter, relating a drug's elimination rate to its plasma concentration. Typically, drug clearance follows first-order kinetics and depends on V_m, K_m, and drug concentration.

In first-order kinetics, a constant drug fraction is eliminated per unit time. The plot of drug concentration versus time is exponential, implying that a rise in the concentration increases its elimination rate.

However, the elimination of a few drugs, like phenytoin and aspirin, follows zero-order kinetics. Their high therapeutic doses saturate the enzyme's drug-metabolizing capacity, eliminating a fixed drug amount at a constant rate.

The resulting plot of drug concentration versus time becomes linear, and the elimination rate remains unaffected by the increasing drug concentration.

Eliminating drugs from the body is a vital process that occurs through excretion or metabolism. Understanding the kinetics of drug elimination is crucial for drug development, dosage determination, and optimizing patient outcomes.

Drug clearance depends on the rate of drug elimination and its plasma concentration. Another important parameter is a drug's half-life, which is the time required for its concentration to decrease by half. In most cases, drug clearance follows first-order kinetics, where a constant fraction of the drug is eliminated per unit of time. This means that as the drug concentration increases, its elimination rate also increases. The relationship between drug concentration and time is exponential.

However, certain drugs, like phenytoin, aspirin, omeprazole, and fluoxetine, exhibit zero-order kinetics. When administered at high therapeutic doses, these drugs saturate the enzymes responsible for their metabolism. As a result, only a fixed amount of the drug is eliminated at a constant rate, regardless of its concentration. The plot of drug concentration versus time in zero-order kinetics is linear, indicating that increasing the drug concentration does not affect its elimination rate.

Tags

Elimination Kinetics First order Kinetics Zero order Kinetics Drug Clearance Drug Elimination Plasma Concentration Half life Drug Metabolism Therapeutic Doses Enzyme Saturation Phenytoin Aspirin Omeprazole Fluoxetine

Du chapitre 6:

article

Now Playing

6.2 : Elimination Kinetics: First-Order and Zero-Order

Pharmacokinetics: Drug Excretion and Clearance

259 Vues

article

6.1 : Drug Elimination: Overview

Pharmacokinetics: Drug Excretion and Clearance

887 Vues

article

6.3 : Renal Drug Excretion: Overview

Pharmacokinetics: Drug Excretion and Clearance

83 Vues

article

6.4 : Renal Drug Excretion: Glomerular Filtration

Pharmacokinetics: Drug Excretion and Clearance

94 Vues

article

6.5 : Renal Drug Excretion: Tubular Reabsorption

Pharmacokinetics: Drug Excretion and Clearance

61 Vues

article

6.6 : Renal Drug Excretion: Tubular Secretion

Pharmacokinetics: Drug Excretion and Clearance

91 Vues

article

6.7 : Renal Drug Excretion: Effect of Urine pH, Flow Rate, and Drug pKa

Pharmacokinetics: Drug Excretion and Clearance

112 Vues

article

6.8 : Hepatic Drug Excretion: Enterohepatic Cycling

Pharmacokinetics: Drug Excretion and Clearance

834 Vues

article

6.9 : Hepatic Drug Excretion: Influencing Factors

Pharmacokinetics: Drug Excretion and Clearance

52 Vues

article

6.10 : Drug Excretion: Pulmonary and Glandular Routes

Pharmacokinetics: Drug Excretion and Clearance

43 Vues

article

6.11 : Drug Excretion: Miscellaneous Routes

Pharmacokinetics: Drug Excretion and Clearance

22 Vues

article

6.12 : Drug Clearance: Overview

Pharmacokinetics: Drug Excretion and Clearance

41 Vues

article

6.13 : Clearance Models: Physiological Models

Pharmacokinetics: Drug Excretion and Clearance

40 Vues

article

6.14 : Clearance Models: Compartment Models

Pharmacokinetics: Drug Excretion and Clearance

39 Vues

article

6.15 : Clearance Models: Noncompartmental Models

Pharmacokinetics: Drug Excretion and Clearance

29 Vues

See More

Copyright © 2025 MyJoVE Corporation. Tous droits réservés.