W1-pharmacokinetics 2 students.pdf

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Pharmacokinteics II
Dr.Leila Alblowi
Lecture Objectives:

01 Understand the factors that influence drug biotransformation

02 Identify the excretion process

Identify disease conditions and their effects on the rate and extent of drug
03 metabolism and excretion.
Factors Affect Drug biotransformation

1. Entry into the liver
2. Enzyme induction
3. Enzyme inhibition
4. Genetic factors (Race and Ethnicity)
5. Age
6. Gender
7. Diseases
1. Entry into the liver

1. Plasma protein binding
2. Hepatic transporters
3. Conditions that reduce the hepatic blood flow
1. Entry into the liver (Plasma protein binding )
Plasma protein binding can

Examples of plasma
significantly reduce the rate
of uptake and metabolism of
Albumin

protein
the drug by the liver, e.g.,
1. ✓Uremia reduce the binding α1-acid
capacity of albumin !! glycoprotein
2. ✓Inflammation and stress
increase the plasma conc. Of
α1-acid glycoprotein ?
1. Entry into the liver (Hepatic transporters )

Hepatic transporters can significantly influence the
uptake of drugs by the liver
The metabolism of pravastatin, (treatment of
hypercholesterolemia) is dependent on the transporter
OATP1B1, which transport the drug into hepatocytes
Drug uptake into hepatocytes via OARP1B1 is
thought to be the rate-limiting step in the clearance of
pravastatin
1. Entry into the liver (Conditions that
reduce the hepatic blood flow)
Cirrhosis and cardiac insufficiency may significantly
-------the metabolism
2. Enzyme Induction
Microsomal CYP450 drug metabolizing enzymes can be
enhanced by certain drugs
Enzyme induction speeds up the metabolism of the
inducing drug itself and other drugs metabolized by the
microsomal enzymes
Example of enzyme inducer:Cigarette smoke.
Drugs such as: Phenobarbital, Phenytoin, Carbamazepine
2. Enzyme Induction
Clinical important of microsomal enzyme induction:
1- Drug-Drug interactions:
Therapeutic failure of some drugs due to reduce duration of
action
Failure of oral contraceptives in pt. taking rifampicin
Interactions between tobacco smoke and medications
have been identified due to induction of hepatic
cytochrome P450 enzymes.
2. Enzyme Induction
Clinical important of microsomal enzyme induction:( cont...)
2- Toxicity:
Enhance the drug toxicity, e.g., a pt. treated with rifampicin
is likely to develop hepatotoxicity with paracetamol because
a higher amount of the toxic intermediate metabolites of
paracetamol is formed due to enzyme induction
2. Enzyme Induction
Clinical important of microsomal enzyme induction:( cont...)
3-Tolerance:
e.g., in case of carbamazepine since it induces its own
metabolism
3. Enzyme inhibition
Some drugs inhibit microsomal enzyme activity
Ketoconazole (antifungal drug) , competitively
inhibit the metabolism of some co- administrated
drugs
Enzyme inhibition by drugs results in several drug-
drug interactions
3. Enzyme inhibition
Example of enzyme inhibitors:
Grapefruit
Drugs such as:
Ketoconazole, Omeprazole
Omeprazole is a potent inhibitor of three of the CYP
isozymes responsible for warfarin metabolism
If the two drugs taken together plasma conc. of warfarin ↑
leads to greater inhibition of coagulation and risk of
haemorrhage and other serious bleeding reactions
4. Genetic Factors
Genetic polymorphisms involve:
Minor (i.e. single nucleotide polymorphisms *SNPs*)
Major (i.e. gene deletions or duplications)
Changes in the nucleotide sequences of a gene encoding a drug
metabolizing enzyme
Genetic polymorphism in both phase I and phase II enzymes exist that
result in altered efficacy of drug therapy or adverse drug reaction
Population is divided into:
“Ultrarapid metabolizers”
“Poor metabolizers”
4. Genetic Factors
Genetic polymorphisms in drug-metabolizing enzymes
may cause:
1. Reduction in systemic clearance and potential for
accumulation
2. Altered metabolite profiles and the production of
active or toxic metabolites
3. Altered drug-drug interactions
4. Alteration in therapeutic effects of a drug
4. Genetic Factors
Pharmacogenomics and personalized medicine

Pharmacogenomics: is the study of genetic variations that
influence individual response to drugs
Enzymes involved in drug metabolism and the proteins that
determine cellular drug responses (receptors) are encoded by
genes.
These genes can exhibit genetic variations, leading to
differences in expression, activity levels, and functions of the
enzymes and proteins.
4. Genetic Factors
Pharmacogenomics and personalized medicine

Knowing whether a patient carries any variations may help
health care professionals individualize drug therapy that will:
Decrease the number of adverse drug reactions
Increase the effectiveness of drugs
Pharmacogenomics has been characterized as
“getting the right Dose of the right Drug to the right Patient
at the right Time”
4. Genetic Factors
Pharmacogenomics and personalized medicine

Codeine :
Is a prodrug with analgesic properties due primarily to its conversion
into morphine
Conversion to morphine is mediated by the cytochrome P450 enzyme
CYP2D6
Poor CYP2D6 metabolizers obtain no pain relief from codeine
It is estimated that 5–10% of Caucasians are CYP2D6 poor metabolizers
4. Genetic Factors
Pharmacogenomics and personalized medicine

Ultrarapid CYP2D6 metabolizer experiences an enhanced analgesic effect
because codeine is quickly converted into morphine.
Patients who carry this variations are at risk for opioid toxicity, which
includes moderate to severe CNS depression (extreme sleepiness,
confusion or shallow breathing)
The prevalence of the CYP2D6 ultra-rapid metabolizer phenotype has been
most common in: Ethiopian and Saudi Arabians
The use of codeine in nursing mothers who are CYP2D6 ultra-rapid
metabolizers achieve “higher-than expected levels of morphine in breast
milk and potentially dangerously high serum morphine levels in their
breastfed infants”
5. Age
Many reactions of biotransformation are slowed in both young
children and the elderly
Neonates are capable of performing many oxidative reactions
at birth. However, they cannot carry out all oxidative reactions
immediately.
The drug-metabolizing enzyme systems develop and mature:
✓ Gradually over the first two weeks of life.
✓ Continue to mature throughout childhood.
5. Age
Neonatal jaundice : is a deficiency of the bilirubin-conjugating enzyme UGT.
It occur especially in premature infants
Lead to relative inability to conjugate bilirubin in the liver with glucuronic acid

(UGT facilitate excretion of bilirubin)
Development of hyperbilirubinemia

Neonatal jaundice is problematic because neonates have both underdeveloped
enzyme activity and an immature blood-brain barrier (BBB).
Unconjugated bilirubin is water-insoluble and lipophilic, It bind readily to the
neonatal brain and causing significant damage to the CNS
This condition is known as bilirubin encephalopathy
5. Age
Neonatal jaundice
Neonatal hyperbilirubinemia can be treated with:
1. Phototherapy with 450-nm light, which converts circulating bilirubin to an isomer
that is more rapidly excreted
2. Administration of phenobarbital which powerfully up-regulates the expression of the
enzyme UGT and thereby reduces serum levels of unconjugated bilirubin
5. Age
Gray baby syndrome: is a deficiency of the conjugating enzyme in infants
Chloramphenicol is an antibiotics for treatment of Haemophilius influenzae
infections in infants
Excretion of this drug requires an oxidative transformation followed by a conjugation
reaction
The oxidation metabolite of chloramphenicol is toxic; if this metabolite fails to
undergo conjugation, it can build up in the plasma and may reach toxic concentration
Neonates will experience shock and circulatory collapse, leading to cyanosis that
gives the syndrome its name
5. Age
In elderly individuals: a general decline in metabolic capacity is
observed, which requires careful drug prescription.
The decline in metabolic capacity in the elderly is attributed to:
1. --------- in liver mass
2. --------- hepatic blood flow
3. ---------possibly hepatic enzyme activity.
6. Gender
Evidence suggests there are gender differences in drug
metabolism.
The mechanisms behind these differences are not well
understood.
Studies report that women have decreased oxidation of ethanol,
estrogens, benzodiazepines, and salicylates compared to men.
These differences may be related to androgenic hormone levels
7. Diseases
Many disease states can affect the rate and extent of drug metabolism in the body:
1. Liver diseases significantly compromise drug metabolism e.g.: Hepatitis, cirrhosis, liver
cancer.
2. Cardiac disease: blood flow is compromised in cardiac disease ,so the drug delivery to
the liver will decrease, the rate of metabolism of many drugs, such as the antiarrythmic
lidocaine and the opioid morphine, is dependent on drug delivery to the liver via the
bloodstream
↓ Blood Flow → Potential toxic levels of such drugs
3. Endocrine diseases such as, hypothyroidism may slow biotransformation of certain
drugs; hyperthyroidism tends to have opposite effect
Excretion
Most drugs and drug metabolites Renal excretion is the most common
are eliminated from the body mechanism of drug excretion, and it
relies on the hydrophilic character of a
through: drug or metabolite.
✓Renal excretion Only a relatively small number of drugs
are excreted in:
✓Biliary excretion ✓ Lung: Respiration
✓ Intestines: Fecal and biliary excretion
✓ Sweat gland: Sweat
✓ Salivary gland: Saliva
✓ Mammary gland: Milk
Excretion
Three processes involved in the
elimination of drugs through kidneys are:
1. Glomerular filtration
2. Passive tubular reabsorption
3. Active tubular secretion
Excretion
Renal excretion is the primary method
for clearing many drugs
For example:
Examples include: Vancomycin In individuals with normal kidney
,Atenolol and Ampicillin function, the typical dosing interval
for vancomycin is 12 hours
These drugs can accumulate to toxic In severe kidney disease: Therapeutic
levels in: levels of the drug may persist for 7
Patients with compromised renal days after a single intravenous dose.
function.
Elderly patients, who often have
some degree of renal impairment.
Excretion
Factors Affect Renal
Excretion

Blood flow
PH
An increased rate of urine output tends
- Renal reabsorption is limited primarily to:
by pH trapping
-Dilute the drug concentration in the
- Drug reabsorption in the tubule can be tubule
enhanced or inhibited by chemical
adjustment of the urinary pH -Decrease the amount of time during
which facilitated diffusion can occur
Excretion
For example:
Aspirin is a weak acid that is excreted by the kidney.
Aspirin overdose is treated by:
1. Administering sodium bicarbonate to --------the urine (and thus
trap aspirin in the tubule)
2. ---------the urine flow rate (and thus diluting the tubular
concentration of the drug) → Result in faster elimination of the
drug