Pharmacology-Lecture-2024__.pdf

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harm
 It is defined as the study of substances
that interact with living systems through
chemical processes by binding to
regulatory molecules and activating
or inhibiting normal body processes.
 is any substance that brings about a change in
biologic function through its chemical actions
 It is used in:
▪ Prevention
▪ Diagnosis
▪ Mitigation
▪ Treatment/Cure
❑ Drug-Receptor Bonds
▪ Drugs bind to receptors with a variety of chemical
bonds.
→ Strong covalent bonds (which usually result in
irreversible action)
→ Somewhat weaker electrostatic bonds (between a
cation and an anion)
→ Much weaker interactions (hydrogen bond, van der
Waals interactions, and hydrophobic bonds)
 Functional Modifiers
 Replenishers
 Diagnostic Agents
 Chemotherapeutic Agents
Classification of drugs according to use

alter or modulate the normal physiologic
functions
Examples:
✓Analgesic drugs
✓Anti-pyretic drugs
✓Anti-inflammatory drugs
✓Anti-hypertensive drugs
Classification of drugs according to use

Supplement endogenous substances
that are lacking or deficient in the body
Examples:
✓Hormones (Insulin)
✓IV Fluids/Electrolyte/ORS
✓Multivitamins
Classification of drugs according to use

In the case of pernicious anemia which is
caused by an autoimmune disease that
destroys parietal cells which secretes HCl
and intrinsic factor, take Vitamin B12

PPIs, H2
Note: Pernicious anemia may also be caused by

Blockers, and Fish Tape worms.
 Classification of drugs according to use

Agents used to determine the presence or absence of a
condition or a disease.
Examples:
✓Edrophonium (Tensilon’s Test)
✓Histamine
✓some Radiopharmaceuticals
✓Barium sulfate
✓Dobutamine and Dipyridamole for “Pharmacologic Stress
Testing” for CAD and MI.
NOTE: Stress Test is an electrocardiographic test of heart function before, during,
and after a controlled period of increasingly strenuous exercise.
Classification of drugs according to use

Agents used to kill or inhibit growth of
cells or nucleic acid considered as foreign
to the body. Selective toxicity is
considered
Examples:
✓Antineoplastics
✓Anti-infectives
ABSORB…

PRACTICE Qs to follow.

10
5
minutes
minutes

a

End
1. Vitamin C
2. Barium sulfate
3. Insulin
4. Ibuprofen
5. Amoxicillin
6. Histamine
7. Paracetamol
8. Ferrous sulfate
9. Antineoplastics
10. Cyanocobalamin
1. Pharmacokinetics
2. Pharmacodynamics
 The study of the fate of drugs in the body :
 drug disposition= the way in which the body handles drugs
- A branch of pharmacology that focuses on
the study of the biochemical and
physiological effects of drugs and the
mechanisms by which they produce
such effects.
 Target Protein mediated mechanism
 Non – target protein mediated mechanism
 Colligative mechanism – osmotic pressure
 Chemical reaction
▪ NEUTRALIZATION
▪ LOCAL
▪ SYSTEMIC
▪ CHELATION
▪ OTHERS
▪ CN + Sodium thiosulfate
 Counterfeit incorporation mechanism
SITES OF DRUG ACTION

Target protein - biologic site of action of
drugs
Microtubule - important site of action
Drugs that inhibit microtubule synthesis/
spindle protein
Griseofulvin
Vinca alkaloids
Colchicine
 ❑ mediates the transmission of endogenous
chemical signals such as neurotransmitters,
autacoids, and hormones.
1. Transports/Channels
2. Enzymes
3. Carrier Molecules
4. Receptors

20
 1. Channels/transport
Proteins that take part in transmembrane signaling and
regulates ionic composition
Voltage-gated Na channel
Voltage-gated Ca channel

e.g. drugs act on:
Na channel- Local anesthetic,CBZ, PHENYTOIN
Ca++ channel – Ca++ channel blockers
2. Carrier molecules
Na+-K+ ATPase pump - Digitalis glycosides
(inhibitor)
H+-K+ ATPase pump - PPI

Na+-K+-2Cl- cotransport
 3. Enzymes
protein catalysts
Xanthine oxidase - allopurinol
Cyclooxygenase - NSAIDs
ACE - ACE inhibitors
MAO - MAOI
Phenelzine
Isocarbozaxid
Tranylcypromine
Acetylcholinesterase - Edrophonium
COMT -ENTACAPONE,TOLCAPONE
4. Receptors

Functional macromoleular components of
cells with specific stereochemical
configuration and in which a ligand
interacts
SPECIFICITY
SELECTIVITY
Ligand – any chemical that has ability to bind
to a receptor
1. Type I Receptor
2. Type II Receptor
3. Type III Receptor
4. Type IV Receptor
 - Controls movement of ions
- Found in cell membranes
- Stimulated in milliseconds

GABA receptors control Cl- ions
-Benzodiazepines
-Barbiturates
Nicotinic receptors
controls the entry of Na+
inhibited by neuromuscular blocker.
Neurotransmitter
Ions
- G-protein linked receptor / metabotropic

GTP – binding signal transducer protein is
G-Protein.
G-protein modulates production of an
intracellular second messenger.
location: cell membrane
onset: in seconds
Examples of Type II receptors

alpha receptors
Beta receptors
Muscarinic receptors
❑ Examples of G-proteins:
Gs – stimulates adenylyl cyclase
Gi – inhibits adenylyl cyclase
Gq – increases IP3, DAG

30
Second messengers
cyclic adenosine monophosphate (cAMP)
cyclic guanosine monophosphate (cGMP)
Inositol triphosphate (IP3)
3. Type III receptors/tyrosine
kinases-linked receptors

Tyrosine kinase - catalyze phosphorylation
of tyrosine residues to modulate a number of
biochemical processes
 glucokinase
glucose =====➔glucose-6-phosphate

location: nucleus
onset: hours
 ❑ Examples:
Imatinib-gastrointestinal stromal tumors
(GIST)
Gefitinib-epidermal growth factor
receptor
Erythropoietin receptor
Receptor for Insulin – utilization of
glucose

34
4. Type IV receptor/gene transcription-linked
receptors
Central dogma
-replication (DNA copied into complimentary DNA)
-transcription (DNA template is copied to RNA)
-translation (RNA synthesize protein)
-location: nucleus/cytosol (cytoplasm)
-onset: hours
 Drugs that act on Type IV receptors
▪ Corticosteroids
▪ Mineralocorticoids
▪ Sex steroids
▪ Vitamin D
▪ Thyroid hormone
 PHARMACODYNAM ICS

-MECHANISMS OF ACTIION

Target Protein-M ediated Non-Target Protein-M ediated

Regulatory Protein Structural Protein Colligative mechanism
o Osmotic pressure
C emical reaction
Transports / Carrier Micro,tubule
Enzymes Receptors o NEUTRALIZATION
Channels Molecules Drugs that inhibit:
o CHELATION
o Colchicine
Co,unterfeit incorporation
o Griseofulvin
mechanism
o Vinca Alkaloids
Types AKA Location Onset o Ex. Antimetabolites
I !onotropic/ Gell membrane Millisec
Ligand-gated
II G-Profein-Linked I Cell membrane Sec ➔ KISS KICK
Mefabotropic
a-1Gq M-1G:q
Ill Tyrosinekin ase- Cell membrane Hour
a-2Gi M-2Gi
Linked Nucleus
~1Gs M-3Gq
IV Gene- ranscripoon Nucleus Hour ~2 Gs Activate I

Linked C~oplasm Go.o Set"ng.
ABSORB…

PRACTICE Qs to follow.

10
5
minutes
minutes

a

End
Voltage-gated ion channels serve as site of
actions for drugs such as
I. Diltiazem and Nifedipine
II.Lidocaine and Procaine
III.Captopril and Losartan
a.I only
b.I and II
c.III only
d.I and III
e.I, II, and III
Drugs with mechanism of action
that involves Tubulin-binding
leading to loss of function of the
structural protien include
a.Cyclosporine
b.Neostigmine
c.Colchicine
d.Glibenclamide
e.Metformin
What type of protien is primarily
targeted by Digitalis glycosides when
they exert their effect on the heart?
a.Receptors
b.Ion channels
c.Enzymes
d.Transporters
e.Structural protiens
Cyclic Adenosine Monophophate
(cAMP) is generated as a secondary
messenger by the action of the enzyme
Adenylyl Cyclase. The substrate for the
synthesis of cAMP is
a.AMD
b.ADP
c.ATP
d.GTP
e.Adenosine
Which of the following features cahracterize
nicotinic, GABA-A, and Glutamate
receptors?
a.They control the movements of ions and
out of the cell
b.Their action is mediated by secondary
messengers
c.They all have excitatory effect on the cell
membrane
d.They are located on the cytoplasm
Stimulation of Beta-adrenoceptor, a G-
protien-linked receptor involves a
generation of a secondary messenger
known as
a.IP3
b.cGTP
c.DAG
d.cAMP
e.Calcium ions
Pharmacodynamics is
A. The science that examines the interrelationship of
the physicochemical properties of the drug and the
route of administration on the rate and extent of
systemic circulation
B. The science of the kinetics of drug absorption,
distribution and elimination
C. The part of pharmacology, which deals with what a
drug does to the body
D. The science, which deals with the physicochemical
properties of the drug that allow it to be designed
into dosage forms
E. A and B
Lanoxin acts on which of the
following.
A.Na/K ATPase pump
B.Na/H ATPase pump
C.H/K ATPase pump
D.Na/Ca ATPase pump
E.None of the above
 PHARMACOLOGY REVIEW
House Rules:
Starting in 1. Be attentive, avoid unnecessary
activities.
10 2. Prepare a pen and a notepad. Most
minutes details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
assess whether you are learning.
4. Question and answer portion will follow
after every topic..
47
Idiosyncrasy

- Unusual drug Response
caused by genetic differences in
metabolism of the drug or by immunologic
mechanisms, including allergic reactions.
Hyporeactivity - the intensity of effect of a
given dose of drug is diminished

Hyperreactivity- the intensity of effect of a
given dose of drug is increased in comparison to
the effect seen in most individuals.
Hypersensitivity -refers to allergic or
other immunologic responses to
drugs
TYPE OTHER NAMES
I Allergy (Immediate)

II Cytotoxic, Antibody dependent

III Immune Complex Disease

IV Delayed-Type Hypersensitivity

V Autoimmune Disease
Tolerance - it refers to a decreased
responsiveness to the drug

a consequence of continued drug
administration
Tachyphylaxis- This refers to rapidly
acting tolerance
Responsiveness diminishes rapidly after
administration of a drug
Alterations in Number or Function of
Receptors
Down-regulation of receptors
❑ it is caused by continuous prolonged
exposure of receptors to drugs that
disrupt the homeostatic equilibrium and
result in altered levels of the receptors.
Desensitization
❑ It is the result of down-regulation.
❑ The target cells become desensitized,
and the effect of subsequent exposure to
the same concentration of the drug is
reduced.
Classification of drugs according to
receptor interaction
1. AGONIST
❑ Able to bind (with affinity)
❑ With intrinsic activity
1.1 Full agonist
❑ Full response
❑ Stimulate all different variant of
receptors even the new receptors
K ey· Receptor.....,. Receptor
' - (inactive)...,_ (active)
Full Agonist......
(high affinity)
Effector.....,.. Effector
(inactive) ~ (active)
1.2 Partial agonist
❑ Less than the expected response
K ey: Receptor
(inactive). Receptor
~ (active)
Partial Q
Agonist......
Effector Effector (high affinity)
}II
(inactive) ~ (active)
2. ANTAGONIST
 With affinity but no intrinsic activity
 It prevents the binding of agonist
Antagonist Receptor

Antagonist-Receptor
DENIED!
Complex

Receptor
(inactive).. Receptor.....- (active)
com pet it iv e
Antagonist..._
Effector
(inactive). Effector (high affinity)
~ (active)
PHARMACOLOGIC ANTAGONIST
❑ utilizes the same receptor
❑ produce an effect opposite of agonist
by binding to the same receptor
❑ Beta blocker and Beta agonist
(Propranolol) (epinephrine)
PHYSIOLOGIC ANTAGONIST
- occurs when the drugs act
independently at different receptor
sites, often yielding opposing actions.

e.g. HISTAMINE + EPINEPHRINE
CHEMICAL ANTAGONIST
❑ no receptor is involved
❑ occurs when two drugs bind with
each other to form an inactive
compound.
Protamine SO4 + Heparin SO4 → forms
a complex devoid of action

Protamine- (+) charged at physiologic pH
Heparin – (-) charged at physiologic pH

Chelating agents
Deferoxamine – Iron (Fe)
It depends on whether or not they
reversibly compete with agonists for
binding to receptors
Competitive antagonist- Effects of
Antagonist can be overcome/reversed
by increasing the concentration of
agonist
 NO
RESPONSE
NON-COMPETITIVE ANTAGONISM
it is also known as irreversible
antagonism
1. ADDITION
❑ A drug effect that is equal in the magnitude
to the sum of the individual effects of two
drugs.
❑ Two different drugs with the same effect are
given together.
❑1 +1=2
❑ Alcohol + Sedative hypnotic drug
2. SYNERGISM
❑ The effect of two drugs is greater in magnitude
than the sum of the individual effects of the two
drugs.
❑ Two drugs with same effect are given together.
❑1 +1=3
❑ Sulfamethoxazole + Trimethoprim
3. POTENTIATION
❑ Occurs when one drug, lacking an effect of its
own, increases the effect of another drug that is
active.
❑1 + 0 = 2
❑ Tyramine-containing Foods + MAOI
ABSORB…

PRACTICE Qs to follow.

10
5
minutes
minutes

a

End
1.It is the drug with affinity and intrinsic
activity.
2. This drug is a physiologic antagonist
of Epinephrine
3. Chelating agent for Iron poisoning

4. Agonist which stimulates all different
variant of receptors even the new
receptors
5. Mathematical equation for
potentiation
 A. Additive
B. Chemical Antagonism
C. Pharmacologic Antagonism
D. Physiologic Antagonism
E. Potentiation
1.Amoxicillin + Clavulanic Acid
2.Heparin + Protamine Sulfate
3.Ethanol + Antihistamines
4.Levodopa + Carbidopa
5.Histamine + Epinephrine
 PHARMACODYNAM ICS

-MECHANISMS OF ACTIION

Target Protein-M ediated Non-Target Protein-M ediated

Regulatory Protein Structural Protein Colligative mechanism
o Osmotic pressure
C emical reaction
Transports / Carrier Micro,tubule
Enzymes Receptors o NEUTRALIZATION
Channels Molecules Drugs that inhibit:
o CHELATION
o Colchicine
Co,unterfeit incorporation
o Griseofulvin
mechanism
o Vinca Alkaloids
Types AKA Location Onset o Ex. Antimetabolites
I !onotropic/ Gell membrane Millisec
Ligand-gated
II G-Profein-Linked I Cell membrane Sec ➔ KISS KICK
Mefabotropic
a-1Gq M-1G:q
Ill Tyrosinekin ase- Cell membrane Hour
a-2Gi M-2Gi
Linked Nucleus
~1Gs M-3Gq
IV Gene- ranscripoon Nucleus Hour ~2 Gs Activate I

Linked C~oplasm Go.o Set"ng.
 PHARMACOLOGY REVIEW
House Rules:
Starting in 1. Be attentive, avoid unnecessary
activities.
10 2. Prepare a pen and a notepad. Most
minutes details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
assess whether you are learning.
4. Question and answer portion will follow
after every topic..
81
 AUTACOIDS
 a.k.a. “Local hormones”
 endogenous substances with biological
activity.
 not released or stored in glands.
 not circulated in blood.
 are formed at the site of action.
 produce localized action.
 Classification of Autacoids

1. Biologically active amines
✓Histamine
✓Serotonin
 Classification of Autacoids

2. Lipid derived autacoids
( Eicosanoids)
✓Prostaglandins
✓Leukotrienes
✓Thromboxanes

3. Ergot Alkaloids
✓a small molecule produced by
decarboxylation of the amino acid
histidine
✓ itis catalyzed by the enzyme L-histidine
decarboxylase in a reaction that requires
pyridoxal phosphate.
o Histamine is found in many tissues,
including the brain.

o it is stored and found in the highest
amounts in mast cells and basophils.
 Two processes by which
HISTAMINE IS RELEASED
1. Energy- and Ca2+-dependent degranulation
reaction.

2. Energy- and Ca2+ - independent release
(displacement).
Storage & Release:
1.Energy- and Ca2+-dependent
degranulation reaction.
Immunologic Release
o Mast cells, if sensitized by surface IgE
antibodies, degranulate when exposed to
specific antigen.
o Histamine released by this mechanism is a
mediator of in immediate (type I) allergic
reactions.
o This type of release requires energy and
calcium..
2. Energy- and Ca2+ - independent release
(displacement).

Chemical & Mechanical Release
o Occurs following chemical or mechanical
injury to mast cells.
o Displacement is induced by drugs such
morphine, tubocurarine, guanethidine, and
amine antibiotics.
o This type of release does not require
energy and is not associated with mast cell
injury or degranulation.
 Histamine
▪ R-alpha methylhistamine is an H3-specific
agonist.
 Betazole (histalog)
▪ tenfold greater activity at H2-receptors than at H1-
receptors
 Impromidine
▪ investigational agent; its ratio of H2:H1 activity is
about 10,000
o Flushing
o Hypotension
o Tachycardia
o Headache
o Wheals
o Bronchoconstriction
o Gastrointestinal upset
o Aka : ANTIHISTAMINES

o competitive inhibitors at the H1-
receptor.
1. 1st Generation Antihistamines
a. Ethanolamines:
Carbonoxamine, Dimenhydrinate,
Diphenhydramine, Doxylamine, Clemastine
b. Ethylaminediamines:
Pyrilamine, Tripelennamine
c. Piperazine:
Hydroxyzine, Cyclizine, Meclizine
d. Alkylamines: BACphen
Brompheniramine, Chlorpheniramine
e. Phenothiazines:
Promethazine
f. Miscellaneous:
Cyproheptadine
❑Piperidines

❑Miscellaneous agents
o Terfenadine (Seldane)
o metabolized to the active metabolite
fexofenadine by a specific cytochrome P-
450.
o Loratadine (Claritin).
✓ Poor CNS penetration.

o Cetirizine (Zyrtec)
✓ not associated with cardiac abnormalities.
✓ has poor penetration into the CNS.
✓ less sedating; it is ineffective for motion
sickness or antiemesis.
A. well absorbed after oral administration.
o Normal effects seen in 30 minutes (with
maximal effects at 1-2 hours)
o The duration of action is :
❑ 1ST generation compounds: 3-6 hours
❑ 2ND generation compounds: 3-24 hours
o Treatment of allergic rhinitis and
conjunctivitis.
✓ treat the common cold based on their
anticholinergic properties
o Treatment of urticaria and atopic dermatitis,
including hives
o Sedatives
✓Several (doxylamine, diphenhydramine) are
marketed as over-the-counter (OTC) sleep aids.
o Prevention of motion sickness
o Appetite suppressants
 verse
(significantly reduced with second-
generation agents)
o sedation (synergistic w/ alcohol, other
depressants, dizziness, and loss of appetite.
CAUTION: drivers and machine operators
o gastrointestinal upset, nausea, constipation and
diarrhea.

o anticholinergic effects (dry mouth, blurred vision,
and urine retention).
(1) Histamine (H2)-receptor antagonists
include
✓ Cimetidine (Tagamet)
✓ Ranitidine (Zantac)
✓ Famotidine (Pepcid AC)
✓ Nizatidine (Axid)
(2) competitive antagonists at the H2-
receptor, which predominates in the gastric
parietal cell.
USE/S:
 treatment of gastrointestinal disorders:
√ heartburn and acid-induced indigestion
√ promote the healing of gastric and duodenal
ulcers
√ hypersecretory states such as Zollinger-Ellison
syndrome
Cimetidine, ranitidine, and famotidine
✓ undergo first-pass hepatic metabolism
resulting in a bioavailability of
approximately 50%.

✓ Nizatidine has little first-pass metabolism
and a bioavailability of almost 100%.
o inhibits binding of dihydrotestosterone to
androgen receptors
o (anti-ANDROGEN)
o men= gynecomastia or impotence
o inhibits metabolism of estradiol, and
increases serum prolactin levels.
o women= galactorrhea
Cimetidine
o Potent ENZYME INHIBITOR
o interferes with several important hepatic
cytochrome P450 drug metabolism
pathways, including those catalyzed by
CYP1A2, CYP2C9, CYP2D6, and CYP3A4
✓cromolyn (Intal)
✓nedocromil sodium (Tilade)
1. poorly absorbed salts;
ROUTE of admin: inhalation
2. They inhibit the release of histamine and
other autacoids from the mast cell.
3. Prophylactic agents in asthma
 PHARMACOLOGY REVIEW
House Rules:
Starting in 1. Be attentive, avoid unnecessary activities.
2. Prepare a pen and a notepad. Most details are in
the handout, if in case there are additional notes,
5 the lecturer will alert you to jot down the said
minutes notes.
3. The topics throughout the lecture are divided
strategically. There will be a 2 to 5-minute break
every after a topic. And that is followed by
practice questions to assess whether you are
learning.
4. Question and answer portion will follow after
End every topic.

112
1.Amino acid precursor of histamine
2. Mechanism of histamine release
which mediates type 1 (allergic)
reactions

3. Onset of action of antihistamines
4. Active metabolite ofTerfenadine
5. H2 blocker with almost 100%
bioavailability
A
1~ Clema.stine A. Ehanolamines:
G 2. Fexofenadine
1 8. Phe,noth.iaz·ines
1

B
3. Prom,eth.aziine
1
C. Alkyiami:nes
E D ,P~periaz.ine
4. Pyri amine 1

H.5 Nizatidin,e E. Ethyle,ne,d.iamines
B
,6 Prom1ethazine,
1 1 F. 'Meth·y,tp1p,er1d1n,es
C G. Pii·peri d'ines
7. Chlorpheniramine 1 1

A ,8,. D,oxylamine, H. N 0 ne 1 1 1

F
91.Cyproheptadine,
D 1.0. Meclizine
 PHARMACOLOGY REVIEW
House Rules:
Starting in 1. Be attentive, avoid unnecessary activities.
2. Prepare a pen and a notepad. Most details are in
the handout, if in case there are additional notes,
8 the lecturer will alert you to jot down the said
minutes notes.
3. The topics throughout the lecture are divided
strategically. There will be a 2 to 5-minute break
every after a topic. And that is followed by
practice questions to assess whether you are
learning.
4. Question and answer portion will follow after
End every topic.

115
Serotonin = 5-HT, [5-hydroxytryptamine]

An indoleamine = has an indole ring structure

This structure is also found in “hallucinogenic” or
psychedelic drugs
1. Biosynthesis and distribution
a. from the amino acid L-tryptophan by
hydroxylation of the indole ring followed by
decarboxylation of the amino acid
 tryptophan 5-HTP
hydroxylase decarboxylase

tryptophan 5-HTP 5-HT
Tissue Distribution

 enterochromaffin cells of
the gastrointestinal tract
(90% )

 Platelets -10%
 MAO
SEROTONIN 5-hydroxyindoleacetaldehyde

aldehyde dehydrogenase

hydroxyindoleacetic acid (5-HIAA)
Both are found in neurons and astroglia
 Outside the central nervous system:
▪ MAO-A is also found in the liver, gastrointestinal
tract, and placenta.
▪ MAO-B is mostly found in blood platelets
 5-HT1A

5-HT1 B

5-HT1
5-HT1 D

5-HT2A
5 - HT2

5-HT2B

5-HT2C

5-HT4

5 - HT7
1. Buspirone (Buspar)

 specific 5HT1a-
receptor
 useful for the management
of anxiety disorders
▪ effective
nonbenzodiazepine
anxiolytic
 Triptans are a family of tryptamine-based drugs used
in migraines and cluster headaches.
 Sumatriptan (Imitrex]
 rizatriptan (Maxalt),
 Naratriptan (Amerge),
 Zolmitriptan (Zomig),
3. Trazodone (Desyrel)

 metabolized to m-
chlorophenylpiperazine,
▪ an activator of 5HT1B and 5HT2
receptors

 Anti- depressant agent
4. Cisapride (Propulsid)

 gastroprokinetic agent
▪ a drug that increases motility
in the upper gastrointestinal
tract
 a newer 5-HT4
partial agonist
 used for irritable
bowel syndrome
with
constipation
1. Fluoxetine (Prozac).

 antidepressant
 MOA: decreased serotonin
uptake into neurons.

 SSRI (fluoxetine = Prozac)
2. Dexfenfluramine (Redux)
 ANORECTIC DRUG
 causes serotonin release
and reduces serotonin
reuptake into nerve
terminals.
 for the treatment of obesity.
 Adverse effect: pulmonary
hypertension
3. Sibutramine (Reductil)

 ANORECTIC DRUG
no longer available in the U.S.

people taking sibutramine had an
increased risk of
cardiovascular events such as
heart attack and stroke.
Cyproheptadine (Periactin)
“Setron” - Ondansetron, Granisetron (Kytril)
Ketanserin Ketanserin (Sufrexal)
Clozapine (Clozaril)
Risperidone (Risperdal)
 blocks both 5HT1- and 5HT2-receptors

 is a first-generation antihistamine with
additional anticholinergic, antiserotonergic,
and local anesthetic properties.

 Used for gastric dumping
 2. Ondansetron ,
Granisetron (Kytril)

 5HT3-receptor
antagonists

 highly effective in treating the
nausea and vomiting
associated with chemotherapy
and radiation therapy.
▪ intravenously or orally
4. Ketanserin (Sufrexal)
 specific 5HT2-receptor
antagonist
 investigational drug
 found to lower blood
pressure in experimentally
induced hypertension.
5. Antipsychotic
Clozapine (Clozaril)
▪ specific 5HT2A- and
5HT2C – and dopamine
receptor antagonist

▪ An atypical antipsychotic

▪ agranulocytosis.
Risperidone (Risperdal)
▪ antagonist at 5HT2A-,
5HT2C-, and dopamine
(D2)-receptors

▪ an atypical antipsychotic
drug which is mainly used
to treat schizophrenia
ABSORB…

PRACTICE Qs to follow.

10
5
minutes
minutes

a

End
MAO-A is the amine oxidase primarily responsible for the
metabolism of Norepinephrine, Serotonin, and tyramine,
while MAO-B is the specific for the metabolism of
Dopamine. Which of the following agents is a selective
reversible MAO-A inhibitor whose advantage is a lesser risk
of causing hypertensive crisis with tyramine foods?
A. Selegiline
B. Nefazodone
C. Moclobemide
D. Trazodone
E. Imipramine
Which of the following drugs when given to patients
will necessitate weekly WBC monitoring for the
first 6 months of therapy and every 3 weeks
thereafter due to its propensity to cause
agranulocytosis?
A. thioridazine
B.Chlopromazine
C. Loxapine
D. Clozapine
E. Molindone
What is the primary mechanism of action of
the drug Ondansetron and Granisetron?
a.Partiaal agonist effect at the 5-HT1A
receptor
b.Antagonist effect at the 5-HT1B receptor
c.Full agonist effect at the 5-HT2A receptor
d.Antagonist effect at the 5-HT3 receptor
e.Partial agonist effect at the 5-HT4
receptor
What is the clinical use of the drugs
Ondansetron and Granisetron?
a.Appetite suppressants
b.Anti-emetic
c.Treatment of acute migraine
attack
d.Migraine prophylaxis
e.Motility enhancing agent
What is the clinical use of the drugs that
primarily stimulate the 5-HT1B and 5-
HT1D receptors?
a.Appetite suppressants
b.Anti-emetic
c.Treatment of acute migraine attack
d.Migraine prophylaxis
e.Motility enhancing agent
What is Rasageline?
A. A selective MAO-A inhibitor
B. A selective MAO-B inhibitor
C A COMT inhibitor
D. A Dopamine-3 receptor Agonist
E. A Dopamine-2 receptor agonist
EICOSANOIDS:
Prostaglandin, Prostacyclin,
Thromboxane,Leukotrienes

146
Eicosanoids

 large group of autacoids with potent effects
on virtually every tissue in the body.

 derived from the metabolism of 20-carbon,
unsaturated fatty acids (arachidonic acids).

 released locally and act as a local hormone.
distributed widely in the body.

147
Biosynthesis of Eicosanoids

148
2. Eicosanoids

a. Prostaglandin H synthase pathway
 a.k.a. “Cyclooxygenase” or COX
 It produces thromboxane, the primary
prostaglandins (PGE, PGF, or PGD), and
prostacyclin (PGI2).

149
Clinical Pharmacology of Prostaglandin
Female Reproductive System
a. Abortion:
Dinoprostone (PGE2)
a synthetic preparation administered vaginally
for oxytocic use.
Carboprost Tromethamine (15-methyl-
PGF2a)
administered as a single 2.5 mg intra-amniotic
injection.

Antiprogestins (Mifepristone)
combined with an oral oxytocic prostaglandin
(Misoprostol) to produce early abortion.
150
f 1u

ni ti flui
2. Male Reproductive System
a. Erectile Dysfunction: Alprostadil (PGE1)

3. Cardiovascular System
a. Pulmonary Hypertension: Prostacyclin
b. Peripheral Vascular Disease: PGE & PGI2
c. Patent Ductus Arteriosus: Alprostadil
(PGE1)

152
4. Blood
a. Platelet Aggregation:TXA2

6. Gastrointestinal System
Misoprostol (PGE1)-available in Europe
& the USA for ulcer treatment.

153
8. Glaucoma:
Latanoprost: a stable long acting PGF2a
Bimatoprost, Travaprost,Unoprostone

154
 NSAIDS
 are a family of eicosanoid inflammatory
mediators produced in leukocytes by the
oxidation of arachidonic acid by the enzyme
arachidonate 5-lipoxygenase
 One of their roles (specifically, leukotriene D4)
is to trigger contractions in the smooth
muscles lining the bronchioles; their
overproduction is a major cause of
inflammation in asthma and allergic rhinitis
 Leukotriene antagonists are used to
treat these disorders by inhibiting the
production or activity of leukotrienes

 (Zafirlukast, Montelukast)
 5-Lipoxygenase Inhibitor (Zileuton)
 PHARMACOLOGY REVIEW
House Rules:
Starting in 1. Be attentive, avoid unnecessary activities.
2. Prepare a pen and a notepad. Most details are in
the handout, if in case there are additional notes,
10 the lecturer will alert you to jot down the said
minutes notes.
3. The topics throughout the lecture are divided
strategically. There will be a 2 to 5-minute break
every after a topic. And that is followed by
practice questions to assess whether you are
learning.
4. Question and answer portion will follow after
End every topic.

158
o Collection of nerves
and ganglia
scattered
throughout the brain

o Consists of 12 pairs
of cranial nerves,
31 pairs of spinal
nerves and their
branches to the
entire body.
I. Olfactory - OH -sensory
II. Optic - OH - sensory
III. Occulomotor - OH -motor
IV. Trochlear - To - motor
V. Trigeminal - Touch -mixed
VI. Abducens - And - motor
VII. Facial - Feel -mixed
VIII. Vestibulocochlear - Virgin -sensory
IX. Glossopharyngeal - Girl’s - mixed
X. Vagus - Vagina - mixed
XI. Accessory/Spinal - Ah! So -motor
XII. Hypoglossal - Heavenly -motor

162
1. Enteric
2. Somatic
3. Autonomic
✓ Highly organized collection of
neurons located in the walls of the
GIT
✓ Innervated by Myenteric Plexus
and the submucous plexus
▪ Largely concerned with consciously controlled
functions such as:
▪movement
▪Posture
In short- vOluntary
 Largely Autonomous (Independent)
 its activities are not under direct
conscious control.
 concerned primarily with visceral
functions
▪ Cardiac Output
▪ Blood flow to various organs
▪ Digestion
 In short-INvoluntary
Preganglionic Nerve Fiber -terminates and
synapses in an autonomic ganglion

Postganglionic nerve fiber- originates in a
ganglion and terminates in smooth cardiac
muscle or a gland.
S,
 SYMPATHETIC NS PARASYMPATHETIC NS
ORIGIN  thoraco-lumbar  Cranio (III,VII,IX,X)-sacral
(III,IV)
Neurotransmitter
Preganglionic fiber  Acetylcholine  Acetylcholine
Postganglionic fiber  Norepinephrine  Acetylcholine

Preganglionic fiber  Short  Long
 Long  Short
Postganglionic fiber

Receptors
 Alpha, beta  Muscarinic, nicotinic
5 minutes

End
1. Division of PNS which is responsible for controlled
functions
2. Origin of the parasympathetic nervous system

3. Primary neurotransmitter of the postganglionic nerve
fiber of SANS
4. Receptors of the parasympathetic nervous system

5.
6. Submucous plexus is also known as?
7. How many pairs of spinal nerves does PNS have?

8. AKA efferent neurons.
9. Other name of parasympathetic NS.

10. Other name of Norepinephrine.
 Column A Column B
1. Pre-ganglionic NT – Ach A. Parasympathetic NS

2. Post-ganglionic NT – Ach B. Sympathetic NS

3. Pre-ganglionic fiber – Short C. Both

4. Post-ganglionic fiber – Long

5. Mydriasis
6. Bradycardia
7. Hypotension
8. Ejaculation
9. Autonomic Nervous System

10. Diarrhea
1. Sympathetic Nervous System
 a.k.a.”ADRENERGIC system
 NT- NOREPINEPHRINE and
EPINEPHRINE
 “FIGHT or FLIGHT “response
1 Synthesis
2 Storage
3 Release
4 Receptor binding
5 Removal of the neurotransmitter from the
synaptic gap
Synthesis of epinephrine
 m,rosine
·. ·. t)'l'oslne Jhydro,.ylose
HO ·· ·· COOH
KO % r
DOPA
NHz

DOPA Jdecarbo1yluse
HO

NH 2
dopaimine
dopomine JOH.l· hydro1ylast
IMO.·
I
HO NH 2
nma,d renaline
phenylet hon10,!onune OM N met~·ylfi r,ande r1
ase

HQ ·..

HO.···.

176
1. Diffusion
2. Metabolism
3. Reuptake
2. Metabolism
Enzymes that inactivate NorEpinephrine
**MAO (Monoamine oxidase)
**COMT (Catechol-O-methyl transferase)
Metabolites
▪ Are excreted in the urine
▪ Eg. Vanillyl mandelic acid (VMA), metanephrine,
normetanephrine
3. Reuptake
 recaptured by an uptake system
▪ Pulls the NE back to the neuron
▪ Involves Na+/K+ ATPase
 process example site action
Action Local Nerve axons Block sodium
potential anesthetics, channels;
propagation tetrodotoxin,1 block
saxitoxin2 conduction
Transmitter a-Methyltyrosine Adrenergic Blocks
synthesis (metyrosine)*** nerve synthesis
terminals
and
adrenal
medulla:
cytoplasm
Synthesis of epinephrine
 process example site action
Transmitter Reserpine Adrenergic Prevents
storage terminals: storage,
vesicles Depletes
Synthesis of epinephrine
process example site action
Transmitter Tyramine, Adrenergic Promote
release amphetamine nerve transmitter
terminals Release
Bretylium, Adrenergic Inhibit
Guanetidine nerve release
terminals
Synthesis of epinephrine
process example site action
Transmitter Cocaine, tricyclic Adrenergic Inhibit
uptake antidepressants nerve reuptake;
after terminals increase
release transmitter
effect on
postsynaptic
Receptors
6-Hydroxy- Adrenergic Destroys the
dopamine nerve terminals
terminals
Synthesis of epinephrine
 stimulate the sympathetic NS
 adrenergic agonist, sympathomimetic,
adrenomimetic
 they mimic NE and Epinephrine
 act on one or more receptor sites
 Direct – acting
 Indirect – acting
 Mixed – acting
1. Direct-acting
▪ directly stimulate the adrenergic receptors
 Rereptor subtyp e selectivity of d1r-ect sym pathon, imetics
1

a1. a1 ~1 ~2
I I I I I I

Ep:ineplhri ne

Dobuta1mine

Pheny:le.h ine IFeno e,101
albut
1
1101
· 1lonidi1e ·rerbiu.a.line
Bri 110 ~ dine tl1m.ete,1ol
Naplhazoli:11e For:1111otero I
1

Oxymetazo :ine
Xyl:omet rzo ,ine
 stimulate the release of NE from the terminal
nerve ending - amphetamine
 both - ephedrine
SYMPATHETIC NERVOUS SYSTEM
RECEPTORS LOCATION EFFECTS
Alpha-1 Blood vessels Vasoconstriction
Eyes Mydriasis (ciliary muscle constriction)
Sphincter Constriction – urinary retention
Penis/seminal vesicles Ejaculation
Agonists Antagonists
Nonselective Dipivefrin Irreversible
- Phenoxybenzamine
- prodrug of EPI; for glaucoma
Reversible
- Phentolamine, Tolazoline

Selective Phenylphrine “-ZOSINS”
Phenylpropranolamine
Xylometazoline
Oxymetazoline
Midodrine
Methoxamine
SYMPATHETIC NERVOUS SYSTEM
RECEPTORS LOCATION EFFECTS
Alpha-2 Neurons (CNS) Inhibition of NE release
Platelets Aggregation
Fat cells Inhibition of Lipolysis

Agonists Antagonists
Nonselective Dipivefrin Irreversible
- Phenoxybenzamine
- prodrug of EPI; for glaucoma
Reversible
- Phentolamine, Tolazoline

Selective Clonidine Yohimbine
Methyldopa
Guanfacine
Guanabenz
SYMPATHETIC NERVOUS SYSTEM
RECEPTORS LOCATION EFFECTS
Beta-1 Heart Increased HR (chronotropic); Inc. force of
contraction (Inotropic); Inc. conduction
velocity (dromotropic)
Kidneys Increase renin secretion

Agonists Antagonists
Nonselective Isoproterenol All “-OLOL” not starting with BEAM

Selective Dobutamine “-OLOL” BEAM
SYMPATHETIC NERVOUS SYSTEM
RECEPTORS LOCATION EFFECTS
Beta-2 Lungs Bronchodilation
Uterus Tocolytic effect
Bladder Relaxation – urinary retention
Liver Increase glycogenolysis
Agonists Antagonists
Nonselective Isoproterenol All “-OLOL” not starting with
BEAM
Selective “-terol” NONE
SYMPATHETIC NERVOUS SYSTEM
RECEPTORS LOCATION EFFECTS
Beta-3 Fat cells Increase Lipolysis
SYMPATHETIC NERVOUS SYSTEM
RECEPTORS LOCATION EFFECTS
Dopa-1 Renal Blood Vessels Vasodilation

Agonists Antagonists
Nonselective Dopamine
Selective Fenoldopam
SYMPATHETIC NERVOUS SYSTEM
RECEPTORS LOCATION EFFECTS
Dopa-2 Neurons (CNS) Increase Dopamine release

Agonists Antagonists
Nonselective Dopamine
Selective Bromocriptine Antipsychotics
Tyramine
 normal by-product of tyrosine metabolism
 metabolized by MAO
 inactive when taken orally because of a very
high first-pass effect
 Beer
 Broad beans, fava beans
 Cheese, natural or aged
 Chicken liver
 Chocolate
 Sausage, fermented (eg, salami, pepperoni,
summer sausage)
 Smoked or pickled fish (eg, pickled herring)
 Snails, red wine, Yeast
Tyramine +MAO inhibitors= Hypertensive crisis


Norepinephrine
levels
 AO.
lN lBITORS.I

0.----------
fopula
-- e s

0

C ' e s
An-·hyp
OTC Cold '1eds
'ine
r::>ickt.... d -ooas
Atomoxetine
Reboxetine
Duloxetine
Milnacipran
Sibutramine
Cocaine
1. air erecti,on A. Dopa ·ne
2. ncrease lipolys1s - B e a1
3. Bronc odi a ion C. Beta2
4. -ipolysis ac i:vat·:on -. Alp a
5. Ejaculation. A 1pha2
6 Pia ele aggrega ion. B,e a 3
7. Vasocons riction
8. ena blood vesse I dilatio
9. In i bit·on of - re ,ease
10. P os'tive ino ropic
11. ultipte act·on in C S
12. lnhibttion of I polysis
13. Renin secre ·:on
14. C·o. stric e·d sp : i cter
15 Tocolyt·c effec
 PHARMACOLOGY REVIEW
House Rules:

Starting in 1. Be attentive, avoid unnecessary activities.
2. Prepare a pen and a notepad. Most details are in
the handout, if in case there are additional notes,
5 the lecturer will alert you to jot down the said
minutes notes.
3. The topics throughout the lecture are divided
strategically. There will be a 2 to 5-minute break
every after a topic. And that is followed by
practice questions to assess whether you are
learning.
4. Question and answer portion will follow after
End every topic.

207
Neurotransmitter – acetylcholine ( Ach )
Cholinergic receptor – receptor sites on
effectors that respond to acetylcholine

Cholinoceptors:
- muscaranic
- nicotinic
PARASYMPATHETIC NERVOUS SYSTEM
RECEPTOR LOCATION EFFECT
M-1 Upper GIT Acid secretion
Cholinergic nerves Stimulation
M-2 Heart (-) inotropic, chronotropic,
dromotropic
Cholinergic nerves Stimulation
M-3 Exocrine Glands (salivary, Increase secretions (salivation,
sweat, lacrimal, bronchial, lacrimation, etc.)
intestinal, etc) Bronchoconstriction
Lungs Increase motility~diarrhea
Eyes Miosis
PARASYMPATHETIC NERVOUS SYSTEM

RECEPTOR LOCATION EFFECT
Nm Neuromuscular Muscle contraction
endplate
Nn CNS ganglia CNS Stimulation
 H e-nn i cho Ii i li.li fTI S

Clh,--o l i _ e

N er ve
t e ir,m liln a l

Vesam iool

,Ga. l ci u m
c a el H ete-ro-
r ecepto r
Ca.
Pre-sy ptr,c.-eoe-p,1 r.S-

Botul!i
t ox in

A.ce lyl dh..-o l i es1! e r a.s,e ACh

C>-thle r recep t ors
C hol~noceo-t or:s
Synthesis and Release of Acetylcholine

1. synthesis of acetylcholine
- transport of choline inhibited by hemicholinium

2. uptake into storage vesicles
- protected from degradation
- BLOCKED by VESAMICOL

3. release of neurotransmitter
- botulinum toxin- blocks release
- spider venom- promotes release
4. binding to receptor

5. degradation by acetylcholinesterase
Ach→ acetate + choline
PARASYMPATHETIC NERVOUS SYSTEM
1. Synthesis
(-) Hemicholinium
2. Storage
(-) Vesamicol
3. Release
(-) Botox
4. Receptor binding
5. Removal
1. Diffusion
2. Metabolism
3. Reuptake
1. Cholinergic – parasympathomimetic
2. Anticholinergic – parasympatholytic
▪ drugs that stimulate the parasympathetic NS
▪ mimic Acetylcholine
▪ selective cholinergic drugs for the muscarinic
receptors that do not affect the nicotinic

▪ SYNONYMS: cholinergic agonist,
cholinergic stimulant, cholinomimetic
D- IARRHEA
U- RINATION
M- IOSIS
B- RADYCARDIA
B-RONCHOCONSTRICTION
E- MESIS/ EXCITATION
L- ACRIMATION
S-ALIVATION/ SWEATING
 Two classes:

1. Direct acting Cholinergic agonist
2. Indirect acting Cholinergic
agonist
 PARASYMPATHETIC AGONISTS

DIRECT-ACTING INDIRECT-ACTING

CHOLINE ESTERS ALKALOIDS REVERSIBLE IRREVERSIBLE

ALCOHOL CARBAMATES ORGANOPHOSPHATES

1. Acetylcholine 1. Pilocarpine
2. Bethanechol 2. Muscarine
3. Methacholine 3. Nicotine
4. Carbachol

EDROPHONIUM ‘-tigmines” ‘-phates
1. Esters of Choline/choline esters
Acetylcholine
Betanechol
Methacholine chloride
Carbachol chloride
2. Alkaloids
Pilocarpine
Nicotine
Muscarine
Two classes:
1.Reversible
edrophonium
Alcohol –

Carbamates – Physostigmine and
Neostigmine
2.Irreversible – Organophosphates:
Isofluorophate and echothiophate
Reversible cholinesterase inhibitors
Intermediate acting cholinomimetic (CARBAMATES)

Drugs for Myasthenia gravis
Neostigmine
Pyridostigmine
Ambenonium Drugs for Glaucoma
Demecarium
Physostigmine
1. Edrophonium (Tensilon)
 - diagnosis of MG
 (Tensilon test- inc. strength, dec. ptosis)
 *Spider venom- promotes release of acetylcholine
Using Tensilon test
Myasthenia gravis - underdose
- progression of the disease
Cholinergic crisis - overdose
- fasciculation
- fatigue
Muscle weakness + edrophonium= improve (myasthenia gravis)
= worsen ( cholinergic crisis)
FOR ALZEIMER’S DISEASE
 Donepezil (Aricept)
 Tacrine (Cognex)
 Rivastigmine (Exelon)
 Galantamine (Reminyl)
INSECTICIDES
 MALATHION
 PARATHION
Cevimeline (Evoxac)
▪ for treatment of dry mouth associated with
SJOGREN’S syndrome
Smoking déterrent
▪ Varenicline, Nicotine

Soman, sarin, tabun
▪ Nerve gas, used exclusively in warfare & terrorism
PARASYMPATHETIC NERVOUS SYSTEM

CHOLINOCEPTOR ANTAGONIST

MUSCARINIC Antagonist NICOTINIC Antagonist
Red as a beet
Hot as hell
Dry as a bone
Blind as bat Ganglion Neuromuscular
Mad as hatter
blockers junction blockers
CHOLINOCEPTOR ANTAGONIST
Synonyms:
Cholinergic antagonist
Cholinergic blocker
Anticholinergic
Parasympatholytic
Antimuscarinic/antinicotinic
 Red as a beet
 Hot as hell
 Dry as a bone
 Blind as bat
 Mad as hatter
 Muscarinic antagonist acting as INVERSE
agonists
Atropine
Pirenzepine
Trihexyphenidyl
Ipratropium
Glycopyrrolate
Scopolamine (methyl derivative)
 Cholinergic poisoning

Antimuscarinic Cholinesterase
therapy regenator
Pralidoxime (PAM)
Atropine Diacetylmonoxime (DAM)
Obidoxime
According to the nicotinic receptors they
block:
1. Ganglionic blockers inhibit NN
2. Neuromuscular blockers inhibit
NM
1. Tetraethylammonium (TEA)
2. Hexamethonium ("C6")
3. Decamethonium, the "C10" analog
of hexamethonium
 PHARMACOLOGY REVIEW
Starting in House Rules:
1. Be attentive, avoid unnecessary activities.
10 2. Prepare a pen and a notepad. Most
minutes
details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
assess whether you are learning. 236

4. Question and answer portion will follow
after every topic.
 SEIZURES
characterized by an
excessive, hypersynchronous discharge of cortical
neuron activity,
which can be measured by the
ELECTROENCEPHALOGRAM (EEG).
CONVULSIONS
violent, involuntary contractions of the voluntary
muscles.

* A patient may have epilepsy or a seizure disorder
without convulsions.
EPILEPSY
a chronic seizure disorder, or group of disorders,
characterized by seizures that usually recur
unpredictably in the absence of a consistent
provoking factor.
Phases of seizure

Prodrome
Ictal
Post-ictal
INTERNATIONAL CLASSIFICATION
OF EPILEPTIC SEIZURES
I. PARTIAL SEIZURES
most common seizure type
occurring in approximately 80% of epileptic
patients.
clinical and EEG changes indicate initial activation
of a system of neurons limited to part of one
cerebral hemisphere that may spread to other or
all brain areas.
CLASSIFICATION OF PARTIAL
SEIZURES
SIMPLE PARTIAL SEIZURES
generally do not cause loss of consciousness.

SIGNS AND SYMPTOMS: primarily motor, sensory,
somatosensory, autonomic or behavioral.
CLASSIFICATION OF PARTIAL SEIZURES
COMPLEX PARTIAL SEIZURES
accompanied by impaired consciousness;
however in some cases, the impairment precedes or
follows the seizure.
COMPLEX PARTIAL SEIZURES
MANIFESTATIONS
Purposeless behavior is common.
The affected person may have a glassy stare, may
wander about aimlessly, and may speak unintelligibly.
Psychomotor (temporal lobe) epilepsy may lead to
aggressive behavior (e.g., outbursts of rage or violence).
II. GENERALIZED SEIZURES
diffuse, affecting both cerebral hemispheres.
clinical and EEG changes indicate initial
involvement of both hemispheres.
GENERALIZED SEIZURES
ABSENCE (Petit mal) SEIZURES
present as alterations of consciousness (absences)
lasting 10-30 seconds.
Staring (with occasional eye blinking) and loss or
reduction in postural tone is typical.
Enuresis
 GENERALIZED SEIZURES
2. MYOCLONIC SEIZURES (bilateral massive epileptic
myoclonus)
present as involuntary jerking of the facial, limb, or trunk
muscles, possibly in rhythmic manner.
GENERALIZED SEIZURES
3. CLONIC SEIZURES
characterized by sustained muscle contractions
alternating with relaxation

4. TONIC SEIZURES
involve sustained tonic muscle extension (stiffening).
GENERALIZED SEIZURES
5. GENERALIZED TONIC-CLONIC SEIZURES (grand
mal)
cause sudden loss of consciousness.
GENERALIZED TONIC-CLONIC
SEIZURES (grand mal)
The individual becomes rigid and falls to the
ground. Respirations are interrupted. The leg
extended, and the back arches; contraction of the
diaphragm may induce grunting. This tonic phase
lasts for about 1 minute.
GENERALIZED TONIC-CLONIC
SEIZURES (grand mal)
A clonic phase follows, marked by rapid bilateral
muscle jerking, muscle flaccidity, and
hyperventilation. Incontinence, tongue biting,
tachycardia, and heavy salivation sometimes occur.
 Some epileptics have serial grand mal seizures,
regaining consciousness briefly between attacks. In
some cases, grand mal seizures occur repeatedly
with no recovery of consciousness between attacks
(status epilepticus)
GENERALIZED SEIZURES
6. ATONIC SEIZURES (drop attacks)
characterized by a sudden loss of postural tone so that
the individual falls to the ground. They occur primarily
in children.
Classification based on Etiology
PRIMARY (idiopathic) SEIZURES
have no identifiable cause.

SECONDARY SEIZURES (symptomatic or acquired
seizures)
occur secondary to an identifiable cause.
SECONDARY SEIZURES
Infectious diseases (meningitis, influenza,
toxoplasmosis, mumps, measles, syphilis)
High fever (in children)
Head trauma
Metabolic disorders (hypoglycemia, hypocalcemia)
Alcohol or drug withdrawal
 ANTIEPILEPTIC DRUG CLASSIFICATIONS
BARBITURATES HYDANTOINS SUCCIMIDES
Phenobarbital Phenytoin Ethosuximide
Primidone Mephenytoin Methsuximide
Mephobarbital Ethotoin Phensuximide
Fosphenytoin Zonisamide

OXAZOLIDINEDIONES BENZODIAZEPINE MISCELLANEOUS
Paramethadione Clonazepam Lamotrigine
Trimethadione Diazepam Felbamate
Gabapentin
TYPE DRUG OF CHOICE Carbamazepine
Absence ETHOSUXIMIDE Valproic acid
Phenacemide
Absence W/ Grand VALPROIC ACID
Topiramate
Mal
Tiagabine
Grand Mal PHENYTOIN/CARBAMAZEPINE Levetiracetam
Myoclonic Seizure VALPROIC ACID
Febrile Seizure PHENOBARBITAL
Status Epilepticus LORAZEPAM (current); DIAZEPAM (old)
 PHARMACOLOGY REVIEW
Starting in House Rules:
1. Be attentive, avoid unnecessary activities.
10 2. Prepare a pen and a notepad. Most
minutes
details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
assess whether you are learning. 258

4. Question and answer portion will follow
after every topic.
Anxiety
is an emotional state commonly caused by the
perception of real or potential danger that
threatens the security of an individual
 GAD-Generalized Anxiety Disorder
Excessive and uncontrollable anxiety and
worry
 GAD-Generalized Anxiety Disorder
Anxiety and worry, associated with three of the
following symptoms:
a. restlessness
b. fatigue
c. difficulty in concentrating
d. irritability
e. muscle tension
f. sleep disturbance
PANIC DISORDER
It begins as a series of spontaneous, unexpected
panic attacks, involving an intense, terrifying fear,
similar to that caused by
life-threatening danger.
 Diagnostic Criteria for Panic Attacks
At least four of the following symptoms
developed abruptly and reached a peak within 10
minutes:
Palpitations or tachycardia Dizziness, unsteadiness,
Sweating lightheadedness
Trembling or shaking Derealization or
Sensations of shortness of depersonalization
breath or smothering
Feeling of choking Fear of losing control
Chest pain or discomfort Fear of dying
Nausea or abdominal Paresthesia
distress Chills or hot flushes
 Severe and pervasive
anxiety about being in
situations from which
escape might be
difficult such as being
alone outside one’s home,
traveling in a car or bus, or
being in a crowded area
Specific phobia- intense fear of
particular objects or situations (e.g. snakes,
heights); most common psychiatric disorder
- AGORAPHOBIA
- Severe and pervasive anxiety about being
in situations from which escape
might be difficult such as being alone
outside one’s home, traveling in a car or bus,
or being in a crowded area
Post-traumatic stress disorder- persistent
reexperience of a trauma, efforts to avoid
recollecting the trauma, and hyperarousal

Obsessive-compulsive disorder- recurrent
obsessions and compulsions that cause
significant distress and occupy a significant
portion of one’s life
TREATMENT

A. Goals of Therapy:
to reduce the severity, duration and
frequency of the anxiety symptoms
to improve the patient’s overall
functioning
to prevent anxiety symptoms
to improve quality of life
 Nonpharmacologic Therapy
Short-term counseling
Stress management
Psychotherapy - for encouragement
Meditation
Exercise
Avoidance from caffeine, nonprescription
stimulants and diet pills
Pharmacologic Therapy
 What are
CALMING Sedative-
hypnotic
EFFECT drugs?

Sedative-hypnotic drugs

SLEEP Tranquilizers
Sedative-Hypnotics/Anxiolytics
1.Benzodiazepines
2.Barbiturates
3.Z-drugs (Zolpidem, Zaleplon, Eszopiclone)
4.Ramelteon
5.Buspirone
Benzodiazepines
Use/s
Ultra-short Pre-medication Midazolam
acting
Short to Anxiolytics Alprazolam
Intermediate Sedative- Lorazepam
acting Hypnotics Flunitrazepam
Long- acting Anticonvulsants Clonazepam
Diazepam
Barbiturates
Use/s
Ultra-short Pre-medication Thiopental
acting
Short to Sedative- Secobarbital
Intermediate Hypnotics Pentobarbital
acting
Amobarbital
Butabarbital
Long- acting Anticonvulsants Phenobarbital
Mephobarbital
Newer Hypnotics
Eszopiclone (Lunesta ™)
cyclopyrrolone
Zaleplon ( Sonata ™) Used in
pyrazolopyrimidine
SLEEP
Zolpidem (Ambien™)
Imidazopyridine disorders
Buspirone
It is an alternative for GAD to patients who cannot tolerate the
sedating effects and psychomotor impairment of BZs.

The agent of choice in the management of chronic, persistent
anxiety.

It is not cross-tolerant with BZs and will not treat or prevent
symptoms of BZ withdrawal.

BZ dose should be tapered before switching to buspirone.

It is an appropriate choice for anxious patients with a history of
alcohol or drug abuse.
Ramelteon (Rozerem™)
Melatonin Receptor Agonist
MOA: Activates MT1 and MT2 receptors in
suprachiasmatic nuclei in the CNS

Rapid onset of effect with minimal rebound insomnia
 ADRENERGIC BLOCKING AGENTS
Propranolol and other beta-blockers may be useful
in patients with prominent cardiovascular
symptoms of anxiety.

They are less effective anxiolytics than BZs, and
their usefulness may be restricted to those anxiety
patients with physical symptoms, especially
cardiovascular complaints, have not adequately
responded to BZ therapy.
ADRENERGIC BLOCKING AGENTS
Propranolol,10 mg bid should be used initially and
gradually titrated to anxiolytic response.

Discontinuation should be gradual to avoid
rebound anxiety and cardiovascular effects.
Old Sedative- Hypnotics

CHLORAL HYDRATE
Associated to MICKEY FINN
Trichloroethanol – active metabolite
Trichloroacetic acid – toxic metabolite
Accumulate with the nightly administration of the
drug
1. This is a drug which reduces anxiety and induces calmness.
2. DOC for chronic anxiety.
3. Barbiturate which is used as pre-medication for anesthesia
4. It is the loss of the ability to create new memories after the event
that caused the amnesia, leading to a partial or complete inability to
recall the recent past, while long-term memories before the event
remain intact.
5. A type of metabotropic receptor wherein the interaction occurs
within the membrane.
6. Drug of choice for benzodiazepine poisoning
7. Toxic metabolite of chloral hydrate
8. Severe and pervasive anxiety about being in situations from which
escape might be difficult
9. Major inhibitory neurotransmitter of the CNS.
 PHARMACOLOGY REVIEW
Starting in House Rules:
1. Be attentive, avoid unnecessary activities.
10 2. Prepare a pen and a notepad. Most
minutes
details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
assess whether you are learning. 280

4. Question and answer portion will follow
after every topic.
Parkinson’s disease
Paralysis Agitans
Dr. James Parkinson - “shaking palsy” (1817 )
Parkinson’s disease
neurodegenerative disease associated with
depigmentation of the substantia nigra
and the loss of dopaminergic input to the basal
ganglia (extrapyramidal system);
it is characterized by distinctive motor disability.
Symptoms of Parkinson’s Disease
Tremors (shaking usually starts on one side of the
body, often in the hand or finger)
Rigidity
Akinesia (difficulty in initiating movement and
slowness of movement)
Postural instability
 Classification of Drug Therapy for
Parkinson’s Disease
Two major categories
1. Dopaminergic agents :
Promote activation of dopamine receptors
2. Anticholinergic agents :
Prevent activation of cholinergic receptors
Mechanisms of Action
Promotion of dopamine synthesis
Direct activation of dopamine receptors
Prevention of dopamine degradation
Promotion of dopamine release
Blockade of muscarinic cholinergic receptors in the
striatum
ANTIPARKINSONIAN DRUGS
1. LEVODOPA + CARBIDOPA
2. DOPAMINE RECEPTOR AGONISTS
- Bromocriptine, Pergolide, Pramipexole, Ropinirole
3. MAO-B INHIBITORS
- Selegiline, Rasageline
4. COMT INHIBITORS
- Entacapone, Tolcapone
5. AMANTADINE
6. ANTICHOLINERGICS
- Benztropine mesylate, Biperiden, Trihexyphenidyl
 PHARMACOLOGY REVIEW
Starting in House Rules:
1. Be attentive, avoid unnecessary activities.
10 2. Prepare a pen and a notepad. Most
minutes
details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
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4. Question and answer portion will follow
after every topic.
“Psychosis"
denotes a variety of mental disorders
 clear sensorium
but a marked thinking
disturbance
The Course of Schizophrenia

Prodromal phase:
Onset and buildup of schizophrenic
symptoms
The Course of Schizophrenia

Active phase:
Full-blown symptoms: severe disturbances in
thinking, deterioration in social relationships, and
flat or inappropriate affect
The Course of Schizophrenia

Residual phase:

Symptoms no longer prominent
Complete recovery is rare, but schizophrenics can lead
productive lives.
The Symptoms of Schizophrenia
Characteristic symptoms:
Two or more of the following, each
persisting for a significant portion of at least a 1-
month period:
Positive symptoms
Disorganized speech
Grossly disorganized or catatonic
behavior
Negative symptoms
The Symptoms of Schizophrenia
(cont’d)
Positive symptoms:

Symptoms which are not present in the normal
individual but are added to the schizophrenic
person.

hallucinations and delusions
Positive Symptoms
Distortions or excesses of normal
functioning

Delusions:
False beliefs firmly and
consistently held despite
disconfirming evidence or logic
Positive Symptoms
Delusions:
Delusions of grandeur

Delusions of control

Delusions of thought
broadcasting
Positive Symptoms
Delusions:

Delusions of
persecution

Delusions of reference
– “center of attention”
Positive Symptoms
Delusions:

Thought withdrawal

Capgras’ syndrome
– “double”
Positive Symptoms (cont’d)
Perceptual distortion (hallucinations): Sensory
perceptions not directly attributable to
environmental stimuli (appear real to the
schizophrenic):
Auditory (hearing)
Visual (seeing)
Olfactory (smelling)
Tactile (feelings)
Gustatory (tasting)
The Symptoms of Schizophrenia
(cont’d)
Negative symptoms:
Symptoms involving characteristics, behavior or abilities
that are present in a normal person but
missing in the schizophrenic individual.

Associated with inferior premorbid social
functioning
The Symptoms of Schizophrenia
(cont’d)
Negative symptoms:
Flat affect
(little or no emotion in situations in which
strong reactions are expected)
alogia (poverty of speech)
The failure to respond to questions or
comments
Can also take the form of slow or delayed
responses
The Symptoms of Schizophrenia
(cont’d)
Negative symptoms:
Avolition
(inability to take action or to become goal oriented)
Inactivity or early loss of interest in ongoing activity
***May indicate irreversible neuronal loss in a
structurally abnormal brain
Negative symptoms:
Asociality
Inability to form close personal relationships
Anhedonia:
Inability to feel pleasure
Disorganized Symptoms
Disorganized speech (Formal thought disorder)
Incoherence
Inability to organize ideas
Loose associations (derailment)
Rambles, difficulty sticking to one topic
Disorganized Symptoms
Disorganized behavior
Odd or peculiar behavior
Silliness, agitation, unusual dress
e.g., wearing several heavy coats in
hot weather
Other symptoms
Catatonia
Motor abnormalities
Repetitive, complex
gestures
Usually of the fingers
or hands
Excitable, wild flailing of
limbs

Catatonic immobility
Maintain unusual
posture for long period
of time e.g., stand on
one leg
Other symptoms
Waxy flexibility
Limbs can be manipulated and posed by another person
Other symptoms
Inappropriate affect
Emotional responses inconsistent with situation
PATHOPHYSIOLOGY
NEUROTRANSMITTER CHANGES

Dopamine
Glutamate
Serotonin
ANTIPSYCHOTICS
Phenothiazine
Aliphatic
Chlorpromazine
Promazine
Trifluoropromazine
Piperidine
Thioridazine
Mesoridazine
Piperacetazine
Phenothiazine
Piperazine – more potent, more selective
Fluphenazine
Perphenazine
Acetophenazine
Trifluorophenarine
Prochlorperazine
 Antipsychotic/Neuroleptics
Piperazine
Piperazine>Piperidine>Aliphatic
Piperidine
Aliphatic

Which is the
MOST POTENT?

[Drug dose]
Atypical Anti-psychotics

Dibenzoxazepine – Loxapine
Dibenzodiazepine – Clozapine
Benzisoxazole – Risperidone
Thienobenzodiazepine – Olanzapine
Fluorophenylindole – Sertindole
ADRs - ANTIPSYCHOTICS
Seizures – Clz, Chlorpromazine
Agranulocytosis – Clozapine
Cardiotoxicity – Thioridazine
Prolong QT interval – Ziprasidone, Sertindole
Cornea/Lens deposit – Chlorpromazine
Retinal deposits – Thioridazine
Neuroleptic Malignant Syndrome
Extrapyramidal symptoms (EPS)
 aka neuroleptic-induced parkinsonism
 most common (15%)
 coarse tremors, rigidity, bradykinesia
 Risk: high potency
TX: lower dose, anticholinergics
These symptoms
include dystonia (continuous spasms and muscle
contractions),akathisia (motor
restlessness), parkinsonism (characteristic symptoms such
asrigidity), bradykinesia (slowness of movement),
and tremor, and tardive dyskinesia (irregular, jerky
movements).
AFFECTIVE DISORDERS

mental illnesses characterized by pathological
changes in MOOD

Unipolar disorders Bipolar disorder
Depression (manic-depressive illness) –
Mania “cycling mood“
MAJOR DEPRESSIVE DISORDER
(MDD)
Characterized by a DEPRESSED mood most of the
time for at least 2 weeks or loss of interest or
pleasure in most activities
MAJOR DEPRESSIVE DISORDER
(MDD)
SYMPTOMS
feelings of guilt or low self-worth,
disturbed sleep or appetite,
low energy
poor concentration
Suicidal attempts
Therapy of depression

Non-pharmacological treatment

Psychotherapy (cognitive behavior therapy )
Electroconvulsive therapy (ECT)
TREATMENT PHASES FOR DEPRESSION

TREATMENT DURATION GOAL
PHASE
Acute ≈ 6 w eeks Resolve symptoms
Continuation 6-9 months Prevent relapse

Maintenance 3-5 years of Prevent recurrence in
lifelong high risk patients*
ANTIDEPRESSANTS
 Selective Serotonin Re-uptake Inhibitors (SSRI)
 FLUOXETINE, SERTRALINE, CITALOPRAM
 Tricyclic antidepressants (TCA)
 IMIPRAMINE, AMOXAPINE, AMYTRIPTYLINE, DESIPRAMINE
 Monoamine oxidase inhibitors (MAOI)
 PHENELZINE, ISOCARBOXAZID, TRANYLCYPROMINE,
MOCLOBEMIDE
 Serotonin-2 Antagonists/Reuptake Inhibitors (SARI)
 TRAZODONE, NEFAZODONE
 NE and Dopamine Reuptake Inhibitors (NDRI)
 BUPROPION
 Noradrenaline Reuptake Inhibitors (NaRI)
 REBOXITINE
Other antidepressants:
1. Venlafaxine (Effexor)
 Serotonin and NE reuptake inhibitor (SNRI)

2. Mirtazapine (Remeron)
 noradrenergic and specific serotonergic antidepressant (NaSSA)
Antimanic Agents/Mood
Stabilizers
Lithium carbonate
(Eskalith, Quilonium)
DOC
unknown mechanism
Narrow therapeutic index
Therapeutic range: 0.6-1.2 mEq/L
Adverse Effects
Minor: tremor, polyuria, gastrointestinal distress,
memory problems, acne exacerbation, weight gain
Long-term: hypothyroidism
Toxicity: ataxia, coarse tremor, confusion, coma, sinus
arrest, and death
Interactions:
 Diuretics - dec. Na→ inc. Li;
 excessive Na intake → dec.Li
 Other mood stabilizers: valproic acid, carbamazepine
 PHARMACOLOGY REVIEW
Starting in House Rules:
1. Be attentive, avoid unnecessary activities.
10 2. Prepare a pen and a notepad. Most
minutes
details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
assess whether you are learning. 328

4. Question and answer portion will follow
after every topic.
 ANTI-ULCER DRUGS
H-2 BLOCKERS
Cimetidine, Ranitidine, Famotidine, Nizatidine
PROTON PUMP INHIBITORS
Omeprazole, Lansoprazole, “-prazoles”
ANTACIDS
NaHCO3, NaCO3
SUCRALFATE
BISMUTH
HELIDAC Bismuth subsalicylate, tetracycline and
metronidazole
MISOPROSTOL
NSAIDs
Drug Classes: Examples
propionic acid derivative ibuprofen
pyrrolealkanoic acid derivative tolmetin
phenylalkanoic acid derivative flubiprofen
indole derivative indomethacin
pyrazolone derivative phenylbutazone
phenylacetic acid derivative diclofenac
Fenamate meclofenamate acid
Oxicam piroxicam
naphthylacetic acid prodrug nabumetone
Salicylate ASA
Drugs used in GOUT
COLCHICINE
acute gouty arthritis
INDOMETHACIN
OXAPROZIN
ALLOPURINOL
chronic tophaceous gout
URICOSURIC AGENT
PROBENECID
SULFINPYRAZONE
 ANTI-ASTHMA DRUGS
Bronchodilators
- β2 agonist – “-TEROL”
- Methylxanthines – Theophylline
- Anticholinergics/Antimuscarinics
Anti-inflammatory agents
- Leukotriene modifiers – Zileuton,
Zafirluskast, Montelukast
- Glucocorticoids
Mast cell stabilizers
Nedocromil
Cromolyn
Antihistamines
1. 1st Generation Antihistamines
a. Ethanolamines:
Carbonoxamine, Dimenhydrinate, Diphenhydramine, Doxylamine
b. Ethylaminediamines:
Pyrilamine, Tripelennamine
c. Piperazine:
Hydroxyzine, Cyclizine, Meclizine
d. Alkylamines:
Brompheniramine, Chlorpheniramine
e. Phenothiazines:
Promethazine
f. Methylpiperidine:
Cyproheptadine
Antihistamines
2. 2nd Generation Antihistamines
a. Piperidines:
Fexofenadine
b. Miscellaneous:
Loratidine, Cetirizine
 PHARMACOLOGY REVIEW
House Rules:
Starting in 1. Be attentive, avoid unnecessary
activities.
10 2. Prepare a pen and a notepad. Most
minutes details are in the handout, if in case there
are additional notes, the lecturer will alert
you to jot down the said notes.
3. The topics throughout the lecture are
divided strategically. There will be a 2 to
5-minute break every after a topic. And
End that is followed by practice questions to
assess whether you are learning.
4. Question and answer portion will follow 335

after every topic..
Stages of anesthesia: Guedel's signs of
anesthesia
I Analgesia and amnesia; From
induction of general anesthesia
to loss of consciousness.
II Excitement - delirium, Inc. BP, RR
III Surgical anesthesia-
unconscious; normal BP, RR,
muscles relaxed; no eye reflexes
IV Medullary paralysis- resp.
Depression, death
INHALATIONAL ANESTHETICS

Gas Volatile liquids
Nitrous oxide Halothane, enflurane,
isoflurane, desflurane,
sevoflurane, and
methoxyflurane
INTRAVENOUS ANESTHETIC
1. barbiturates (thiopental, methohexital)
2. benzodiazepines (midazolam, diazepam)
3. opioid analgesics (morphine, fentanyl,
sufentanil, alfentanil, remifentanil);
4. propofol;
5. ketamine; and
6. miscellaneous drugs (droperidol, etomidate,
dexmedetomidine).
 LOCAL ANESTHETICS
ROUTES One “i” – ESTER
Topical Two “i” – AMIDE
Infiltration
Field block
Nerve block Most cardiotoxic –
Intravenous regional BUPIVACAINE
Most Neurotoxic – LIDOCAINE,
CHLORPROCAINE
Hemolytic anemia –
PRILOCAINE
Limited use – COCAINE
Esters
1. Benzoic acid esters: Cocaine , piperocaine
2. Am ino-benzoic acid esters
a. Soluble: Procaine, chlo roprocaine tetracaine
b. Limited solubility: Benzocaine
3. Pa ra-eth oxy-be nzo ic ac1d: Int raca1ne
4 Carbamic acid esters· Diathane
5. Complex synthetics
Am ides
1. Straight chain acid deriv·ativ·es of xylidide:
a. Acetic acid: Xyloca1ne
b. Propionic acid· Propitocaine
2. Pipecohc denv·atives of xylid1de : Mep1v·aca1ne , bupiv·acaine
3 Oxycinchoninic acid: Dibucaine
5 minutes

End
 Q
Bood Pressure Categories American

A sociation
I
American
Heart Stroke
Association.

SYSTOLIC mm Hg DIASTOLIC mm Hg
BLOOD PRESSURE CATEGORY
{upper number) (lower number)

NORMAL LESS THAN 120 and LESS THAN 80

ELEVATED 120-129 and LESS THAN 80

HIGH BLOOD PRESSURE
130-139 or 80-89
(HYPERTENSION) STAGE 1

HIGH BLOOD PRESSURE
140 OR HIGHER or 90 OR HIGHER
(HYPERTENSION) STAGE 2

HYPERTENSIVE CRISIS
HIGHER THAN 180 and/or HIGHER THAN 120
(consult your doctor immediately)
Classifications
Primary (essential) hypertension
high blood pressure with no obvious underlying medical
cause.
90-95% of cases

Secondary hypertension
caused by other conditions that affect the kidneys,
arteries, heart or endocrine system.
 ANTI-HYPERTENSIVE AGENTS
1. Diuretics
2. Sympathoplegic agents (B-blockers, alpha1
blockers, alpha2 agonists)
3. Calcium Channel Blockers
4. Direct vasodilators
5. Agents that block production or action of
angiotensin (ACEi, ARBs)

BASIC & CLINICAL PHARMACOLOGY - 12th Ed.
NATRIURETICS – Increase Na excretion
SITE EXAMPLE S/E
THIAZIDE Distal Convulated Bendroflumethiazide -Hyponatremia
-mild to Tubule (Naturetin) -Hypokalemia
moderate HTN Chlorothiazide (Diuril) -Hypercalcemia
- CHF Trichlorome (Diurese) -Hyperuricemia
- Liver /Renal HCTZ (Hydrodiuril) -Hyperglycemia
Disease Hydroflume (Saluron) -Hyperlipidemia
- D. insipidus

LOOP Thick Ascending -Furosemide (Lasix) -Ototoxixity
Loop of Henle -Torsemide (Demodex) -Hyperuricemia
-Bumethanide (Bumex) -Decrease magnesemia
-Ethacrynide (Edecrin) -Hypokalemia
-Metabolic alkalosis
K-SPARRING Late Distal Tubule -Spironolactone (Aldactone -Hyperkalemia
& Collecting Tubule -Eplenerone(Inspra) -Menstrual abnormalities
-Amiloride(Midamor) -Gynecomastia
-Triamterene (Dyrenium)
AQUARETICS – Increase water excretion

SITE EXAMPLE S/E
OSMOTIC Proximal Tubule -Mannitol -Dehydration
AGENTS & Descending -Glycerin.-Isosorbide -Hypernatremia
Loop of -Urea
Henle

CARBONIC Proximal Tubule -Brinzolamide (Azopt) -GI upset
ANHYDRASE -Acetazolamide (Diqmox) -Urinary infrequency
INHIBITOR -Methazolamide -Metabolic acidosis
(Neptazone) -Renal calculi
-Dorzolamide -Drowsiness
Vasodilators
- Relax smooth muscle, ↓ TPR
- Reflex stimulation of heart
- used with Diuretic or Beta blocker

ORAL, LONG TERM HTN
- Minoxidil – Hirsutism
- Hydralazine – SLE

PARENTERAL, HTN EMERGENCY
- Sodium nitroprusside
- Diazoxide
- Fenoldopam
CALCIUM CHANNEL BLOCKER
- highly protein bound
- Large volume of distribution
Verapamil - 5.5 L/kg
Diltiazem - 5.3 L/kg
Nifedipine - 0.8 L/kg

Clinical Manifestation
Hypotension- peripheral vasodilation
Bradycardia - AV & SA node block
ACE INHIBITORS

- “-PRIL”
- Potent vasodilator

Use: HTN, CHF, diabetic nephropathy
Use: tx. Mild to moderate HTN

ADR: *Anorexia *Hyperkalemia
*Polyuria *Oliguria
*idiosyncratic dry cough
ARBs
- “-sartan”
- used alone or in combination therapy
-↓ cough & angioedema
Examples:
Candesartan - Atacard®
- C/I to pregnancy = fetal abnormalities
Irbesartan - Avapro®
- assoc. w/ fetal abnormalities & death
Losartan - Cozaar®
Telmisartan - Micardis®
Episartan - Teveten®
Olmesartan – Benecar®
Valsartan - Diovan®
ALPHA2 AGONISTS
↓ sym pathetic outflow
Anti-HTN axn = stimulate a2 adrenoceptor & (-)
release of catecholamines

Ex. Methyldopa (Aldomet®)
Clonidine (Catapres®)
Guanabenz
Guanfacine
 Adrenoceptor antagonists
a. BETA BLOCKERS – “OLOL”
b. Alpha-1 blockers
“-zosin”
Use: HTN & BPH
Syncope – in 1st time adm of alpha1-
blocker
1st dose phenomenon
mgt of syncope: dose should be small and at bed
time.
BASIC & CLINICAL PHARMACOLOGY - 12th Ed.
GANGLION-BLOCKING AGENTS

Mecamylamine Trimethaphan (quaternary amine)
- oral -Short acting
- w/ CNS effect - IV infusion
- lacks CNS effects
- polar
MOA: competitively block nicotinic cholinoceptors in post ganglionic
neurons
A/E: Sympathoplegic
*Orthostatic hypotension
*Erectile dysfunction
Parasympathoplegic
*Constipation
*blurred vision
*Urinary retention *dry mouth
6 minutes

End
1. Site of action of Thiazide diuretics
2. Site of action of loop diuretics
3. Diuretic associated with galactorrhea and gynecomastia
4. Diuretics used for acute mountain sickness.
5. Beta-blocker with the shortest half-life.
6. A vasodilator with a toxic cyanide metabolite.
7. Prototype ACE inhibitor.
8. Inactive form of Angiotensin.
9. Diuretic that can cause hyperkalemia.
10. Anti-hypertensive drug classification associated with syncope.
11. Dopa 1 agonist for HTN.
12. Prototype alpha 1 blocker.
13. Vasodilator for eclampsia.
14. Sympathophlegic for pregnant women with HTN.
15. Normal blood pressure.
Angina
characterized by chest pain or discomfort due to
coronary heart disease.
Problem is *ischemia – inadequate amount of
oxygenated blood
increase oxygen demand decrease oxygen supply (It
affects the blood vessel)
Two parts affected by ischemia
Myocardial ischemia – inadequate supply of
oxygenated blood in the heart.
Cerebral ischemia – inadequate supply of
oxygenated blood in the brain.
most fatal because it can result to stroke
→ paralysis which can result to comatose
3 TYPES OF ANGINA
Stable Angina
- aka effort angina, classic angina
- most common type of angina
- commonly present to smoker and hypertensive patient
- main cause is atherosclerosis
- chest pain is predictable or expected, when there is physical exertion or
activity.
Unstable Angina
- aka angina at rest/crescendo angina
- chest pain is unexpected, experienced during at rest
- common at night
- main causes are atherosclerosis and thrombosis
Prinzmetal’s Angina
- vasospastic or variant angina
- severe form of angina
- chest pain occurs at night up to early morning , takes place during at
rest and during physical exertion
ANTIANGINAL DRUGS
Organic nitrates
Calcium Channel blockers
Beta blockers
Ivabradine & Nicorandil
hypertensive patients
- monotherapy with slow release or long acting CCB or
Refractory cases- CCBs Beta blockers
- refractory to organic nitrates normotensive patients - with angina & normal BP
Acute treatment of Vasospastic - DOC: Nitroglycerin
angina - alternative: Propranolol with nifedipine
DOC: verapamil/diltiazem Unstable Angina Pectoris
*aspirin – inhibits thromboxane formation
*cilostazol – antiplatelet with vasodilating effect, inhibit
PDE3
*clopidogrel – inhibit adenosine diphosphate pathway
Sildenafil
- vasodilator which is used to manage
erectile dysfunction
- also used to manage angina pectoris
→ MOA: phosphodiesterase isoform-5
inhibitor (PDE5), as an inhibitor it increases
CGMP which result to vasodilation
men – sildenafil increases the blood flow in
corpus cavernosa → erection
 Arrhythmia →Defined as the abnormal firing rate,
regularity or site of origin of cardiac impulse,
involve irregular and abnormal heart rhythm.

Normal heart rhythm: 60-90 beats per minute
* heart rhythm is regulated by the SA Node (phase
maker of heart)
ANTIARRHYTHMIC DRUGS
Type I – NA Type II – Beta Type III – K Type IV – Ca
IA – Quinidine, -”OLOL” except Bretylium Verapamil
Procainamide, Sotalol Amiodarone Diltiazem
Dysopiramide Dronaderone CI: Nifedipine
IB – Lidocaine, Sotalol
Mexiletine,
Phenytoin
IC – Moricizine,
Flecainide,
Propafenone
Heart Failure
HEART FAILURE
- medical condition characterized by impairment of
left ventricle
- there is no ability to pump sufficient oxygenated
blood
- inadequate supply of oxygenated blood coming
from ventricle
→ can result to hospitalization
Symptoms of heart failure based
on exertion
Class1 - asymptomatic
- no limitation on physical activity
Class 2 - mild to moderate moderation on
- physical activity
- can be relieved during at rest
Class 3 - marked limitation on physical activity
- can happen even during at rest
Class 4 - any physical activity can trigger heart
failure symptoms
2 Forms of heart failure
1. Low output
most common → no metabolic
demand/requirement, but the heart cannot
compensate with the requirements for
oxygenated blood
2. High output
characterized by metabolic disorder
Ex. Hyperthyroidism - increases demand for
oxygenated blood because patient suffers from
palpitation or tachycardia.
Anemia - hematopoietic disorder characterized by low
levels of haemoglobin (oxygenated blood)
1. Inotropic agent (increases the force of contraction)

* cardiac glycoside
- digitalis
- Most important ion affected by digitalis is K
channel, therefore it can cause hypokalemia
- Alternative for hypokalemia is KCl or MgSO4

Deslanoside - alternative for rapid digitalization
2. Diuretics

-to reduce fluid overload in patient suffering from
fluid retention
*Thiazide / loop diuretics
- commonly used