Drug Distribution PDF

Summary

This document provides an overview of drug distribution, including factors affecting distribution, such as dose and route of administration, blood flow to different organs, and physicochemical properties of drugs. It also covers drug distribution to the central nervous system (CNS) and transplacental distribution.

Full Transcript

DRUG DISTRIBUTION
VPM 61 - Basic Veterinary Pharmacology

Philip John S. Sajol
Assistant Professor I
Department of Anatomy, Physiology, and Pharmacology
College of Veterinary Medicine
Drug Distribution
Overview
movement of drug from the
plasma compartment into the
various uid and tissue
compartments and sites of
action
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Drug Distribution
Overview
Drug Distribution
Factors a ecting drug distribution
Dose and route of administration
Blood ow to di erent organs
Physicochemical properties of drugs
lipid solubility, pK, pH, and molecular size determine the rate of distribution of a
drug to various body uid compartments

ion-trapping also in uences distribution of drugs, where more lipid-soluble drugs
distribute more widely in the body than do less lipid-insoluble ones
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Drug Distribution
Factors a ecting drug distribution
Concentration gradient
drugs are more transported from compartments where
they are more concentrated to those compartments
where they are less concentrated (simple di usion) until
equilibrium is attained

rate of di usion of drugs across the lipid-bilayer is
dictated by the drug’s lipid solubility
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Drug Distribution
Factors a ecting drug distribution
Binding to tissue constituent
some drugs bind to cell membranes and to soluble intracellular components

where the binding is restricted to a particular tissue, the distribution is
consequently limited

binding of drugs (e.g antibiotics) to animal tissues for human food is a major
consideration, thus the need for instituting withdrawal periods (time between the
last drug administration to the time where drug residues in meat, eggs, or milk
becomes safe and acceptable)
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Drug Distribution
Factors a ecting drug distribution
Binding to plasma proteins
only the unbound drug is able to cross cell
membranes

acidic drugs primarily bind to albumin while basic
drugs bind to a1-acid glycoprotein

binding slows the rate to which the drug reaches
a concentration su cient to produce a
pharmacologic e ect

binding DOES NOT produce an e ect, but plasma
protein binding is a silent interaction where
albumin can be classi ed as a silent receptor
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Drug Distribution
Factors a ecting drug distribution
Binding to plasma proteins
a drug with higher percent plasma protein
binding may be less potent than a similar
drug with lower plasma protein binding

bound drugs cannot be ltered, and drug-
protein binding limits glomerular ltration

as the free-drug concentration is lowered,
there is rapid dissociation of drug-protein
complex to maintain the amount in free state
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Drug Distribution
Factors a ecting drug distribution
Redistribution (sequestration)
redistribution of a drug from its site of action to other tissues lowers its
concentration at its site of action, terminating the response

drugs exhibiting redistribution are highly lipid-soluble (e.g thiopental)
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Drug Distribution
Factors a ecting drug distribution
Drug interactions
may occur when two drugs are used that
bind at the same site on the plasma protein,
where competition for the same site
increases the percent of the drug in free-
form, and thereby increasing the
pharmacologic-toxicologic response to the
displaced drug
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Drug Distribution
Distribution of drugs to specialized compartments
CNS Distribution
Blood-brain barrier is a continuous layer of tight junctions between capillary
endothelial cells in the CNS

a. drugs must be highly soluble to cross this barrier

b. latentiation, or the process of incorporating lipophilic groups to a drug,
allows its passage to the BBB

c. encephalitis opens the BBB, allowing passage of drugs such as penicillin
which normally doesn’t pass through
Drug Distribution
Distribution of drugs to specialized compartments
CNS Distribution
active transport exists for
organic acids in the choroid
plexus

allows transport of drugs from
CSF into the blood
Drug Distribution
Distribution of drugs to specialized compartments
CNS Distribution
CSF dilutes a drug
concentration

CSF produced circulates
through the ventricles and over
the surface of the brain and
spinal cord to ow directly into
the venous drainage system of
the brain
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Drug Distribution
Distribution of drugs to specialized compartments
Transplacental Distribution
charged molecules rapidly
penetrate placenta depending
upon the concentration
gradient of the drug between
the maternal and fetal
circulation
Drug Distribution
Distribution of drugs to specialized
compartments
Transplacental Distribution
only free drugs cross the placenta

sink e ect occurs, where free drug having
crossed the placenta will once again be
protein bound in the fetal circulation,
establishing a concentration gradient
between the maternal and fetal circulation
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Drug Distribution
Distribution of drugs to specialized
compartments
Transplacental Distribution
Drugs with an e ect on the maternal CNS
have physical-chemical characteristics to
freely cross the placenta and a ect the
fetus

anesthetics, analgesics, sedatives,
tranquilizers
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