Lec 6. Bioavailability and Bioequivalence, Dr. Hoang Nguyen - Full Slides PDF

Summary

This document is a lecture on bioavailability and dosage regimens in pharmacology. It covers topics such as drug absorption, factors affecting bioavailability, bioavailability calculations, therapeutic equivalence, and different types of dosage regimens including loading and maintenance doses. The document also includes resources for further learning.

Full Transcript

Fundamentals of Pharmacology-COM5082

Lecture 6: Bioavailability and Design Dosage Regimen

Hoang Nguyen , MD., PhD., RPh., FACHE
Assistant Professor of Foundational Sciences
Nova Southeastern University
Dr. Kiran C. Patel College of Osteopathic Medicine (KCPCOM)
Contact for questions or appointment: [email protected]

Learning Objectives
After Completion of this section of Drug Bioavailability, first year M1 students will
be able to:
1. Define Pharmacokinetic parameter: Bioavailability
2. Calculate Dosage Regimen related to Loading Dose, Dosing Rate, Maintenance
Dose, and Steady-State

Bioavailability
 The percentage of the dose
of a drug that is actually
absorbed into the
bloodstream (blood
circulation).
 Factors affecting
bioavailability:





Differences in drug formulation
Route of administration
GI absorption affect factors
E.g. Pramipexole in Parkinson’s
disease have favorable clinical
efficacy with consistent with
bioavailability.
(Adapted, Lippincott Illustrated Pharmacology Review, 7th Edition, 2019)

Bioavailability Calculation
 Bioavailability (F)=AUC(oral)x100%

AUC (IV)
 Example #1
 What is the bioavailability of a drug that has an intravenous AUC of
60mg.hr/ml and an oral AUC of 20 mg.hr/ml?
 F=20/60=33%

Therapeutic Equivalence
 Therapeutic equivalence=same effect and safety profile in the
treatment of a disease/condition
 May or may not be chemically equivalent or bioequivalent.
 Must have comparable efficacy and safety


Example: 50mg of Zoloft is therapeutically equivalent to 50mg of
Sertraline.

Dosage Regimen
• Purpose of a dosage regimen=
reaching a target concentration (TC)
that will produce the desired
therapeutic effect
• Ideally, the regimen remains
within the therapeutic window.
• Loading dose is given to quickly
achieve the volume of distribution,
and desired plasma level.
• In order to maintain plasma
concentration within therapeutic
levels over a long period of time,
maintenance doses may be
administered.
(Adapted, Lippincott Illustrated Pharmacology Review, 7th Edition, 2019)

Loading Dose
 Ld= CpxVd
F
Cp=target plasma concentration at
steady-state
 Disadvantages of loading doses if
excess levels occur:
 Increased risk of drug toxicity
 Longer time for plasma
concentration to fall

(Adapted, Lippincott Illustrated Pharmacology Review, 7th Edition, 2019)

Maintenance Dose
 Maintenance dose=the plasma
concentration at desired level in the
long run (i.e: continuous infusion)
 Dosing Rate=Cp x Cl

F
 Md=Dosing Rate x Dose Interval
 Md=Cp x Cl x Dose interval

F



In the liver or renal
disease:
 Maintenance dose is
decrease
 Loading dose is
unchanged

Steady-state
 Steady-state=the time needed to
reach steady state depends only on
the half-life of the drug. Reached in
4-5 t1/2
 At the steady state, the rate of
drug administration =the rate of
elimination (Rate in=Rate out)

(Adapted, Lippincott Illustrated Pharmacology Review, 7th Edition, 2019)

Resources
 1. Basic and clinical pharmacology by Katzung, 15th
edition.
 2. Videos: https://sketchy.com/