Pharmacology Past Paper PDF (First Sem 2024-2025)

Summary

This document is a pharmacology past paper, covering practice questions on antimicrobials, viruses, and disease-causing organisms. It's for first-semester undergraduate students and focuses on microbiology concepts.

Full Transcript

PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

“ANTIMICROBIALS” 3. Gram-negative
- bacteria not stained
PRACTICE QUESTIONS - e.g., Neisseria meningitides, Escherichia coli,
and Haemophilus influenzae)

This microorganisms is also called mycosis, tinea, or
candidiasis.
a. Bacteria
b. Virus
c. Fungi
d. Protozoan

A patient is admitted to the health care facility with
methicillin-resistant Staphylococcus aureus (MRSA). The
nurse anticipates administration of which drug?
a. Nafcillin (Nallpen) GRAM-POSITIVE BACTERIA
b. Aztreonam (Azactam) 1. Staphylococcus aureus
c. Vancomycin (Vancocin) 2. Staphylococcus epidermidis
d. Piperacillin-tazobactam (Zosynis) 3. Enterococcus avium
4. Staphylococcus simulans
Patient is expected to receive antiviral drugs for 5. Streptococcus milleri
6. Staphylococcus aureus subspecies
Influenza A and B? Which of the following drug is
7. Staphylococcus hominis
sensitive to influenza A?
8. Enterococcus faecalis
a. Oseltamivir
b. Amantadine GRAM-NEGATIVE BACTERIA
c. Acyclovir
1. Escherichia coli
d. Daclatasvir
2. Enterobacter cloacae
3. Klebsiella pneumoniae
4. Pseudomonas aeruginosa
DISEASE-PRODUCING ORGANISMS AND THEIR 5. Citrobacter koseri
CHARACTERISTICS 6. Serratia marcescens
7. Morganella morganii
8. Baumann acinetobacter
Bacteria- is composed of:
9. Klebsiella oxytoca
10. Bacillus
1. Prokaryotes
★ Bacilli: elongated, or rod-shaped
★ Cocci: spherical cocci appear in
clusters, they are called VIRUSES
“staphylococci”; when cocci are
arranged in chains, they are called - a non-cellular, non-living infectious agent
“streptococci”. consists of a nucleic acid (DNA or RNA) inside a
protective coat (Capsid).
- It reproduces within living cells and uses their DNA
and RNA to generate more viruses. With the
exception of HIV and some viral hepatitis,
viruses are self-limiting that do not require
antiviral.
- Example of viruses are influenza A, B, & C, herpes
viruses, hepatitis virus, and HIV.

2. Gram-positive
- bacteria that retained a purple stain
using a staining method
- e.g., Staphylococcus aureus, Streptococcus
pneumoniae, group B Streptococcus])
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

Examples of parasitic worms are:
★ Cestodes (tapeworms)
★ Intestinal nematodes (roundworms)
★ Trematodes (flukes)
★ Tissue-invading nematodes (tissue
roundworms and filarae

ANTIBACTERIALS AND ANTIMICROBIALS

“Antibiotic”
- chemicals produced by one kind of
microorganism that inhibit the growth of or kill
another.

FUNGI Antibacterial drugs do not act alone in destroying
bacteria.
- a multi-cellular eukaryotic organism that is
heterotrophic that reproduces by both sexually
Natural body defenses, surgical procedures to excise infected
tissues, and dressing changes may be needed along
and asexually & disperses by spores.
with antibacterial drugs to eliminate the infecting
bacteria.)
Examples of fungi are:
★ Aspergillosis
The Goal of anti-infective drugs is to reduce the
★ Moniliasis
population of the invading organism until the body's
★ Histoplasmosis
immune response can take over.
★ Mucormycosis
If organism is too aggressive, it can be toxic to the host
cell.
If the immune system is weak, the body cannot deal
PROTOZOAN effectively with the invading organism

Mechanisms of antibacterial action
- are free-living single-celled 1. Inhibition of bacterial cell-wall synthesis
eukaryotes that could 2. Alteration of membrane permeability
reproduce by both 3. Inhibition of protein synthesis
sexually and asexually. It 4. Inhibition of the synthesis of bacterial
could be aerobic or ribonucleic acid (RNA) and deoxyribonucleic
anaerobic species that lives acid (DNA)
mostly in moist areas. 5. Interference with metabolism within the cell

Example of protozoan: PHARMACOKINETICS OF ANTIBACTERIAL DRUGS
★ Plasmodium falciparum
★ Plasmodium vivax
★ Plasmodium malariae Antibacterial drugs must not only penetrate the
★ Plasmodium ovale. bacterial cell wall in sufficient concentrations but also
have an affinity for the binding sites on the bacterial
cell.

HELMINTHS The length of time the drug remains at the binding sites
increases the effect of the antibacterial action.
- are large parasitic worms that
live and lay eggs in warm,
moist soil where sanitation and
hygiene are poor.
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

If the host's natural body defense mechanisms are
inadequate, drug therapy might not be as effective.

RESISTANCE TO ANTIBACTERIAL

Sensitive to certain bacterial- bacteria are sensitive to a
drug, the pathogen is inhibited or destroyed making
the drug appropriate to the identified organisms.

Antibacterial that has a longer half-life usually maintain
a greater concentration at the binding site; therefore
frequent dosing is not required.
Most antibacterials are not highly protein bound, with
a few exceptions (e.g., oxacillin, ceftriaxone, cefprozil,
cloxacillin, nafcillin, clindamycin)

Antibacterial drugs are used to achieve the minimum
effective concentration (MEC) necessary to halt the
growth of a microorganism

Many antibacterials have a bactericidal effect (kill
bacteria) against the pathogen when the drug
concentration remains constantly above the MEC
during the dosing interval.
Others have a bacteriostatic effect (stop from
reproducing).

Bactericidal effect- kills bacteria
Bacteriostatic effect- stop from reproducing

Duration of use of the antibacterial varies according to
the type of pathogen, site of infection, and
immunocompetence of the host.

Once-daily antibacterial dosing- such as with
If bacteria are resistant, the pathogen continues to grow
aminoglycosides, macrolides, and fluoroquinolones-
despite administration of that antibacterial drug.
has been effective in eradicating pathogens and has
not caused severe adverse reactions (ototoxicity,
nephrotoxicity) in most cases. “Natural resistance”
- occurs without previous exposure to antibacterial
drug.

BODY DEFENSES “Acquired resistance”
- caused by prior exposure to antibacterial.
The effect that antibacterial drugs have on an infection
depends not only on the drug but also on the host's
defense mechanisms.

Factors such as age, nutrition, immunoglobulins, white
blood cells (WBCs), organ function, and circulation
influence the body's ability to fight infection
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

PREVENTING RESISTANCE
1. Limit the use of antiinfectives
2. Take recommended dosage
3. Prescribers must avoid giving a more powerful
drug first (5th generation drugs)

APPROACHES TO TREATMENT OF SYSTEMIC INFECTIONS

Identify the pathogen by “Culture and sensitivity (C&S)
test”
- this test will detect the infective microorganism
“Healthcare-acquired infections” present in a sample (e.g., blood, wound, sputum,
- infection acquired while patient is hospitalized. swab) and identify the best drug to kill it.
- Many are due to drug-resistant bacteria.
After Culture & Sensitivity test,
If the identified bacteria are sensitive, the drug could be
given.
Healthcare-acquired infections- are also called
“nosocomial infections”.
It will either kill or stop the growth organisms.

However, If resistant, the pathogen continues to grow
“Cross-resistance” despite administration of that antibacterial drug.
- can occur between antibacterial drugs that Thus the drug should be stop and prescribed the
have similar actions. appropriate antibiotic where the pathogen is sensitive.

Nursing Consideration:
The nurse should ensure that a culture and sensitivity
test was performed to the infected area before initiating
antibiotics and may begin drug therapy before culture
results are received.

USE OF ANTIBIOTIC COMBINATIONS

Antibiotic combinations should not be routinely prescribed or
administered except for specific uncontrollable
infections.
“Antibiotic misuse”
- increases antibiotic resistance resulting to Single antibiotic will successfully treat a bacterial
antibiotic resistance. infection; however, when severe infection persists and is of an
unknown origin or has been unsuccessfully treated with several single
Highly resistant bacteria, so-called methicillin-resistant S. antibiotics, a combination of two or three antibiotics may be suggested.
aureus (MRSA), became resistant not only to methicillin
but to all penicillins and cephalosporins as well.

The treatment of choice for MRSA is vancomycin.

METHOD OF DEVELOPING AND PREVENTING RESISTANCE

DEVELOPING RESISTANCE
1. Enzyme deactivates drug
2. Cellular permeability
3. Altering binding sites which do not accept the
drug
4. Chemicals are produced acting as antagonis
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

- Superinfections can occur in the mouth,
respiratory tract, intestine, genitourinary
tract, and skin.

ORGAN TOXICITY

- the liver and kidneys are involved in drug
metabolism and excretion, and antibacterials
may result in damage to these organs.
- Example, aminoglycosides can be nephrotoxic
and ototoxic.

CLASSIFICATIONS OF ANTIBIOTIC WITH EXAMPLE
AND INDICATION

EFFECTS OF ANTIBIOTIC COMBINATIONS
Additictive- effect is doubled.
Potentiative- one potentiates effect of other.
Antagonistic- if one bactericidal and one
bacteriostatic, desired effect is diminished.

SPECTRUM
1. Narrow spectrum- acts only as a specific MO.
2. Broad spectrum- acts on many different MO.

GENERAL ADVERSE REACTIONS OF ANTIBACTERIAL
DRUGS

ALLERGY OR HYPERSENSITIVITY

- could be mild (rash, pruritus, and hives),
treated with an antihistamine or severe
(anaphylactic shock, which results in vascular
collapse, laryngeal edema, bronchospasm,
and cardiac arrest) which requires treatment
with epinephrine, bronchodilators.
- Shortness of breath is the first symptom which
usually occurs within 20 minutes.

SUPERINFECTION

- is a secondary infection that occurs when the
normal microbial flora of the body are disturbed during
antibiotic therapy.
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

GENERATIONS OF CEPHALOSPORINS

Common Side effects and adverse effects
ANTIVIRAL
Cephalosporins
- Pruritus
- GI distress “Antiviral Drugs”
- are used to prevent or delay the spread of viral
With high doses infections.
- Increased bleeding, seizures - They inhibit viral replication by interfering with
- Nephrotoxicity viral nucleic acid synthesis in the cell.
- Some groups of antiviral drugs are effective
against various viruses, such as influenzas A
and B, herpesviruses, HBV and HCV, and HIV.
DRUG INTERACTIONS
With the exception of HIV and some viral
hepatitis, viruses are self-limiting that do not
Alcohol: may cause flushing, dizziness, headache, require antiviral.
nausea, vomiting, and muscular cramps.

Uricosurics: decrease cephalosporin excretion.
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

TYPE OF VIRUSES

ANTI-VIRAL DRUGS
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

Other opportunistic infections are:
★ Aspergillosis
SIDE EFFECTS AND ADVERSE REACTIONS
★ Mucormycosis
★ Pneumocystis pneumonia
Dizziness, headache, insomnia, vertigo, fatigue, and GI ★ Fusariosis
disturbances such as nausea, vomiting, and diarrhea.
Primary
Nurses must be aware of the FDA advisory that persons - occur in immunocompetent persons and
receiving oral oseltamivir should be monitored closely result from inhaled spores.
for abnormal behavior.
Primary infections include:
Incidence of self-injury and delirium has been reported ★ Coccidioidomycosis
in post marketing surveillance. ★ Blastomycosis
★ Paracoccidioidomycosis
★ Cryptococcosis
★ Histoplasmosis
★ Including progressive disseminated
ANTIFUNGAL histoplasmosis

Antifungal drugs/Antimycotic drugs
“Antimycotic drugs”
1. Polyenes (amphotericin B, nystatin)
- are used to treat fungal infections.
2. Azoles (fluconazole)
3. Antimetabolites (flucytosine)
Typically, antifungals are fungistatic or fungicidal
4. Echinocandins (caspofungin)
depending upon the susceptibility of the fungus and
5. Miscellaneous antifungals (griseofulvin)
the dosage.

“Antifungal drugs”
- are used to treat fungal infections (mycosis) such
as the superficial infections (mucous
membranes, hair, nails, and moist skin areas,
oral candidiasis or thrush, and vaginal
candidiasis); and systemic infections (lungs,
CNS, abdomen).

CLASSIFICATION OF FUNGAL INFECTIONS

Local
- Local fungal infections can be acquired by
contact with an infected person.

“Dermatophytes”
- can cause local fungal infections involving the
integumentary system, which includes mucous
membranes, hair, nails, and moist skin areas.

Fungal infections can be acquired by contact with an infected person

“Candida albicans” - affects the mouth, it is called oral
candidiasis or thrush.

Opportunistic.
- Opportunistic infections usually occur in the
immunocompromised or debilitated population
(e.g., patients who have cancer or AIDS) or in
those taking antibiotics, corticosteroids,
chemotherapy, or other immunosuppressives.
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

Adverse Effect
1. CNS Effects: headache, dizziness, fever,
ANTIPROTOZOAL
shaking, chills & malaise
2. GI effects: nausea, vomiting, dyspepsia,
anorexia - used to treat Malaria.
3. Hepatic dysfunction
4. Derma effects: rash, pruritus “Malaria”
5. Renal dysfunctions - A life-threatening disease caused by multiple
species of protozoan parasites of Genus
NURSING CARE MANAGEMENT FOR PATIENT TAKING
Plasmodium.
ANTIFUNGAL
- Malaria is caused by multiple species of
protozoan parasites of the genus Plasmodium
that are carried by infected Anopheles
mosquitoes, and it remains one of the most
prevalent protozoan diseases.
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

ANTIMALARIAL

- Interrupts plasmodial reproduction of protein
synthesis in RBC of the life cycle and in the hepatic
and gametocyte stages

★ Amoebiasis
★ Leishmaniasis
★ Trypanosomiasis
★ Trichomoniasis
★ Giardasis
★ P.carinii pneumonia
★ Entamoeba histolytica
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

ANTI PROTOZOAL DRUGS

Adverse Effect
1. CNS effects: headache, dizziness, ataxia, loss of
coordination, peripheral neuropathy
2. GI effects: nausea, vomiting, diarrhea,
unpleasant taste, cramps and changes in liver
function
3. Superinfections (disrupted normal flora)
PHARMACOLOGY
NCM106 | Nunag H. | Lindo A. | Prof. Gutierrez P. FIRST SEM | S.Y 2024-2025

ANTHELMINTIC
ANTHELMINTICS

- Helminths are large parasitic worms that live and
lay eggs in warm, moist soil where sanitation
and hygiene are poor.
- Transmission occurs from infected soil to the
person, whereupon the helminth then feeds on
host tissue.
- It enter to the human hosts via contaminated
food, bites of carrier insects, or direct penetration to skin.
Most common site for helminthiasis (worm
infection) is the intestine.

4 MAJOR GROUPS OF PARASITIC WORMS

1. Cestodes (tapeworms)
- enter to the intestine via contaminated
food (pork, beef, fish, and dwarf)
- Taenia solium (pork tapeworm), T. saginata
(beef tapeworm), Diphyllobothrium latum (fish
tapeworm), and Hymenolepis nana (dwarf
tapeworm).

2. Trematodes (flukes)
- feed on the host.
- Fasciola hepatica (liver fluke), Fasciolopsis buski
(intestinal fluke), Paragonimus westermani
(lung fluke), and Schistosoma species (blood
flukes)

3. Intestinal nematodes (roundworms)
- may feed on intestinal tissue
- Ascaris lumbricoides (giant roundworm),
Necator americanus (hookworm), Enterobius
vermicularis (pinworm), Strongyloides stercoralis
(threadworm), and Trichuris trichiura
(whipworm).

4. Tissue-invading nematodes (tissue roundworms
and filarae)
- Trichinella spiralis (pork roundworm) and
Wuchereria bancrofti (filariae)