NCM 106A Pharmacology (Preliminary) PDF

Summary

This document details the introduction to pharmacology, including properties of an ideal drug, and key concerns of drug effects on the body and bodily responses to drugs. It also includes the four basic terms related to drug study and usage. Key aspects of pharmacology such as chemical reactions and processes are highlighted in introductory information.

Full Transcript

NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

PROPERTIES OF AN IDEAL DRUG
INTRODUCTION TO PHARMACOLOGY
By: Ms. Anna Alejandria Agudo, RN
1) EFFECTIVENESS
PHARMACOLOGY
An effective drug is one that elicits the
The study of the biological effects of chemicals responses for which it is given.
In clinical practice, health care providers focus Effectiveness is the most important property that
on how chemicals act on living organisms a drug can have.

WHAT ARE DRUGS? 2) SAFETY

Chemicals that are introduced into the body to A safe drug is defined as that cannot produce
cause change. harmful effects- even if administered in very high
doses and for a very long time.
PHARMACOTHERAPEUTIC/CLINICAL
PHARMACOLOGY 3) SELECTIVITY

A branch of pharmacology that uses drugs to
A selective drug is defined as one that elicits
treat, prevent, and diagnose disease.
only the response for which it is given.

2 KEY CONCERNS
ADDITIONAL PROPERTIES OF AN IDEAL DRUG
1. The drugs effects on the body
2. Body’s response to the drug 1) REVERSIBLE ACTION

*Drugs can react differently to people, depending on how It is important that drug effects are reversible; we
the body reacts to the medication want drug actions to subside within an
appropriate time.

FOUR BASIC TERMS
2) PREDICTABILITY
1) DRUG
The certainty just how a given px should
A drug is defined as any chemical that can affect respond.
living processes.
3) EASE OF ADMINISTRATION
2) PHARMACOLOGY
Should be simple to administer; the route should
The study of drugs and their interactions with be convenient, and the number of doses per day
living systems. should be low.
Encompasses the study of the physical and
chemical properties of drugs as well as their 4) FREEDOM FROM DRUG
biochemical and physiologic effects. INTERACTIONS
Includes knowledge on the history, sources, and
uses of drugs as well as drug absorption, When the px is taking 2 or more drugs, those
distribution, metabolism, and excretion. drug interactions may augment or reduce drug
responses.
3) CLINICAL PHARMACOLOGY
5) LOW COST
The study of drugs in humans.
The study of drugs in patients as well as in An ideal drug should be easy to afford.
healthy volunteers.

6) CHEMICAL STABILITY
4) THERAPEUTICS
Some drugs lose effectiveness during storage.
Also known as pharmacotherapeutics. Others may be stable on the shelf, and can
Use of drugs to diagnose, prevent, or treat rapidly lose effectiveness when put into solution.
disease or to prevent pregnancy. Because of chemical instability, stocks of certain
The medical use of drugs drugs must be periodically discarded.

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

PROPERTIES OF AN IDEAL DRUG DRUG-ENZYME INTERACTIONS

ADMINISTRATION Drugs can also cause their effects by interfering
with the enzyme systems that act as a catalyst
for various chemical reactions.
Dosage size and the route and timing of
administration are important determinants of
drug responses. SELECTIVE TOXICITY
Poor px compliance and medication errors by
hospital staff can result in major discrepancies. The ability of a drug to attack only those
systems found in foreign cells.
1. INTRAVENOUS ROUTE (IV) Affects an enzyme unique to bacteria, causing
bacterial cell death without disrupting normal
human cell functioning.
IV drugs reach their full strength at the time of
administration.
PHARMACOKINETICS

2. INTRAMUSCULAR ROUTE (IM)
What the BODY does to the DRUG
Involves the study of absorption, distribution,
Absorbed directly into the the capillaries in the metabolism (biotransformation), and excretion of
muscle and sent into circulation drugs.
In clinical practice, pharmacokinetic
3. ORAL ROUTE considerations include the onset of drug action,
drug half-life, timing of the peak effect, duration
of drug effects, metabolism or biotransformation
Is the most frequently used drug administration
of the drug, and the site of excretion.
route in clinical practice.
Non invasive
Less expensive 4 MAJOR PHARMACOKINETICS PROCESS
Safest way to deliver drugs
1. Drug Absorption
Fastest to Slowest Route of Drugs: 2. Drug Distribution - to systems
1. Intravenous 3. Drug Metabolism - liver
2. Intramuscular 4. Drug Excretion - kidney
3. Subcutaneous
4. Oral
CRITICAL CONCENTRATION
5. Topical

*Non-invasive - does not involve the bloodstream. The amount of drug that is needed to cause a
*Males can absorb medications faster than females. therapeutic effect

PHARMACODYNAMICS LOADING DOSE

What the DRUG does to BODY. Some drugs that take a prolonged period to
The science dealing with interactions between reach a critical concentration; if their effects are
the chemical components of living systems and needed quickly, a loading dose is recommended.
the foreign chemicals. Example:
○ Digoxin (Lanoxin), a drug used to
increase the strength of heart
DRUG ACTIONS
concentrations.
○ Xanthine bronchodilators used to treat
Drugs work in one of four ways: asthma attacks are often started with a
1. To replace or act as substitutes for missing loading dose to reach the critical
chemicals. concentration.
2. To increase or stimulate certain cellular The critical concentration is then maintained by
activities. using the recommended dosing schedule
3. To depress or slow cellular activities
4. To interfere with the functioning of foreign cells,
DYNAMIC EQUILIBRIUM
such as invading microorganisms or neoplasms
(chemotherapeutic drugs)
The actual concentration that a drug reaches in
the body results from a dynamic equilibrium
RECEPTOR SITES involving several factors:
1. Absorption from the site of entry.
Drugs act at specific areas on cell membranes 2. Distribution to the active site.
called RECEPTOR SITES.

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

3. Biotransformation (metabolism) in the
BIOTRANSFORMATION
liver.
4. Excretion from the body.
Enzymes in the liver.
Lining of the GI tract.
ABSORPTION

Refers to what happens to a drug from the time EXCRETION
it is introduced to the body until it reaches the
circulating fluids and tissues. The removal of a drug from the body.
Drugs can be absorbed from many different Skin, saliva, lungs, bile, and feces are some of
areas in the body; the routes to excrete drugs.
1. Through the GI tract (orally or rectally KIDNEYS - play the most important role in drug
administered). excretion; drugs that have been made water
2. Through mucous membranes. soluble in the liver are often readily excreted
3. Through the skin. from the kidney by the glomerular filtration.
4. Through the lungs.
5. Through muscles or subcutaneous HALF-LIFE
tissues.
The time it takes for the amount of drug in the
DRUGS CAN BE ABSORBED INTO CELLS body to decrease to one-half of the peak level it
THROUGH VARIOUS PROCESSES: previously achieved.
E.g., if a px takes 20mg of a drug with a half life
1) PASSIVE DIFFUSION of 2 hours, the 10 mg of the drug will remain 2h
after administration. 2h later, 5mg will be left, in
2 more hours, only 2.5 mg will remain.
Major process through which drugs are
○ The longer the half life, lesser the
absorbed into the body.
withdrawal symptoms, the shorter the
Occurs across a concentration gradient; when
half life the more addictive
there is a greater concentration of drug on one
side of a cell membrane moves to an area of
lower concentration. PEAK

2) ACTIVE TRANSPORT Refers to maximum concentration of
medication in the body and the client shows
evidence of greatest therapeutic effect
A process that uses energy to actively move a
molecule across a cell membrane.
Often involved in drug excretion in the kidney. DURATION

3) FILTRATION Refers to the length of time the medication
produces its desired therapeutic effect.
Example: the duration of oral acetaminophen is
Commonly used in drug excretion.
4-6 hours, at which time the client will likely
Involves movement through pores in the cell
require an additional dose of pain.
membrane. either down a concentration gradient
or as a result of the pull of plasma proteins.
ONSET OF MEDICATION
FIRST-PASS EFFECT
Refers to when the medication first begins to
take effect.
Happens when the drug is taken per orem.
A large percentage of the oral dose is destroyed
at this point and never reaches the tissues. MECHANISM OF ACTION

BLOOD BRAIN BARRIER Term used to describe how a drug or other
substance produces an effect in the body.
Course of mechanism in your body.
A protective system of cellular activity that keeps
substances away from the CNS.
Drugs that are not lipids soluble are not able to
pass the BBB.
SIDE EFFECTS
PLACENTA AND BREAST MILK

Undesirable expected effects of the drug
The nurse must always check the the ability of a
Three common side effects: NVD
drug to pass into the breast milk when giving a
1. N - Nausea
drug to a breat-feeding mother
2. V - Vomiting
3. D - Diarrhea
Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

Liver
ADVERSE EFFECTS
Injury renal injury
Poisoning
Undesired unexpected effects that may be
unpleasant or dangerous. They can occur for
BLOOD DYSCRASIA
many reasons including:
1. The drug may have other effects on the body
besides the therapeutic effect. Bone marrow suppression caused by drug
2. The px is sensitive to the drug being given. effects.
3. The drug's action on the body causes other Any abnormality in the blood.
responses that are undesirable. Example:
4. The px is taking too much or too little of the drug ○ Pancytopenia - low level of all blood
leading to adverse effects cells (RBCs, WBSs, platelets)
○ Neutropenia - low level of neutrophils
○ Leukopenia - low white blood cell count
1. PRIMARY ACTION

The desired therapeutic effect. NURSING PHARMACOLOGY

2. SECONDARY ACTION NURSING RESPONSIBILITIES

Primary effect + beneficial or harmful effect 1. Administering drugs.
hypersensitivity. 2. Assessing drug effects.
3. Intervening to make the drug regimen more
tolerable.
HYPERSENSITIVITY
4. Providing px teaching about drugs and the drug
regimen.
Some pxs have an unusually strong reaction to 5. Monitoring the overall px care plan to prevent
a drug. medication errors.
Can depend on the dosage of the drug; the
higher the dose, the more susceptible you are to
hypersensitivity. SOURCES AND EVALUATION OF DRUGS
○ Develops rash, urticaria
SOURCES OF DRUGS
DRUG ALLERGY
Chemicals that might prove useful as drugs can
come from many natural sources, such as
The body's immune system reacts to a specific
plants, animals, or inorganic compounds, or they
drug.
may be developed synthetically.
Involves immune system, allergic since birth.

1) PLANTS
TYPE OF DRUG ALLERGIES

Plants and plant parts have been used as
1. Anaphylactic Reaction medicines.
2. Cytotoxic Reaction - immune system ○ e.g., Digitalis products used to treat
3. Serum Sickness Reaction - involves tissues cardiac disorders ; Opiates used for
4. Delayed Allergic Reaction sedation
Drugs may also be processed using a synthetic
version of the active chemical found in a plant
ADVERSE EFFECTS
○ e.g., Marijuana leaf; a synthetic version
allows for an accepted form to achieve
DERMATOLOGICAL REACTIONS the desired the therapeutic effect in
cancer patients
Rash
Hives
2) ANIMAL PRODUCTS
Stomatitis - singaw

Used to replace human chemicals that are not
SUPERINFECTIONS produced because of disease or genetic
problems.
The normal flora that protects the body from ○ e.g., Insulin as tx for diabetes (from
invasion of bacteria, viruses, fungi, etc. is pancreas of cows and pigs)
destroyed. (antibiotics)
GENETIC ENGINEERING - the process of altering the
TOXICITY DNA to produce a substance.

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

3) INORGANIC COMPOUNDS PHASE 2 STUDIES

Salts of various elements can have therapeutic Allow clinical investigators to try the drug in pxs
effects in the human body. who have the disease that the drug is meant to
e.g., treat.
1. Aluminum - decrease gastric acidity. Reasons chemicals are dropped from the
2. Fluoride - prevention of dental cavities, process:
prevention of osteoporosis. 1. It is less effective than anticipated.
3. Iron - tx of iron deficiency anemia. 2. Too toxic when used with patients.
4. Gold - tx of rheumatoid arthritis. 3. Produces unacceptable adverse effects.
4. Has a low benefit-to-risk ratio.
SYNTHETIC SOURCES

PHASE 3 STUDIES
Scientists use genetic engineering to alter
bacteria to produce chemicals that are
therapeutic and effective. Prescribers observe px very closely for any
Alter chemicals with proven therapeutic adverse effects.
effectiveness to make it better. Prescriber's ask pxs to keep journals and record
any symptoms they experience.
Prescribers then evaluate the reported effects to
DRUG EVALUATION determine whether they are caused by the
disease or by the drug.
PRECLINICAL TRIALS Information are collected and shared with the
FDA.
Chemicals may have therapeutic value and are
tested on animals.

TWO PURPOSES:

1. To determine whether they have the presumed
effects in living tissue.
2. To evaluate any adverse effects.

AT THE END OF CLINICAL TRIALS, CHEMICALS
ARE DISCARDED FOR THE FOLLOWING
REASONS:

1. The chemical lacks therapeutic activity when
used with living animals.
2. The chemical is too toxic to living animals to be
worth the risk of developing into drugs.
3. The chemical is highly teratogenic (harmful to
the fetus).
4. The safety margins are so small that the
chemical would not be useful in the clinical
setting.

DRUG EVALUATION

PHASE 1 STUDIES
TWO
Use healthy human volunteers to test the drugs.
Trials are performed by specially trained clinical
investigators reasons chemicals are dropped
from the the process:
1. They lack therapeutic effects in humans.
2. They cause unacceptable adverse
effects.
3. They are highly teratogenic.
4. They are too toxic.
11

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

NURSING PROCESS IN PHARMACOLOGY
By: Ms. Christine Epilepsia, MSN, RN

NURSES TIME ALLOCATION ON
COMMUNICATION:
HANDS ON TASKS AND LOCATIONS

On average, in a 4 hour observations, nurses spent:
1. Communication:
a. With patients (29.99 mins)
b. Other nurses (26.68 mins)
2. Hands-on Tasks:
a. Charting in HER - electronic health
record (31.63 mins)
b. Reviewing EHR (21.51 mins)
c. Medication administration (15.70 mins)
d. Getting medications (8.15 mins)
e. Speeding on delegable tasks (13.52
mins)
3. Locations:
a. Nurses at the patient's room (60.17
mins)
b. Nursing station (53.55 mins)

Summary: it's hard to be a nurse so you have to master
communication in order to be diligent.

QSEN (Quality Safe Education for Nurse)

GOAL: SAFE, TIMELY DELIVERY OF DRUG
ADMINISTRATION

1. ASSESSMENT

Illness and drug regimen - medication, health
problems, lifestyle:
○ Current history (health assessment,
labs) & family history
○ Swallowing problems
○ s/s (signs and symptoms)
○ Concerns: side effects, OTC remedies,
contraceptives, attitudes & belief
○ Allergies
○ Financial barriers
○ Dietary barriers
○ Caregiver needs and support (order,
prepare, organize)
Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

4. IMPLEMENTATION OF NURSING
INTERVENTION

Education, Drug administration and Patient care
1. Assessment of Drug Effectiveness
2. Education/ Teaching
a. Timing.... What is the best time to learn
b. Barriers to learn
c. Educational level
i. Consistency to adherence (are
they really listening)
ii. Dose is adjusted
iii. Pregnancy
iv. Added supplement/ OTC meds
v. Side effects
vi. Self-administration (eye/ nose/
oral buccal/ suppository, SQ,
Inhaler (return demo)
3. Patient Care
a. Drug box
b. Recording sheet/ Alarm reminder device

5. EVALUATION

Determining if goals are met
Ongoing assessment
Revision of objective, plans , intervention
If met, document successful attainment of
Nursing plan of care
2. NURSING DIAGNOSIS

Examples:
Pain (Acute or Chronic) related to surgery
Confusion, acute, related to adverse reaction to
medication
Knowledge, deficient related to effects of
anticoagulants
Noncompliance related to forgetfulness
(especially on the elderly) (knowledge deficit)

3. PLANNING

Patient-centered (Collaboration of patient and
family)
SMART (Specific, Measurable, Attainable,
Realistic, Time-bound)

Examples:
The patient will independently administer the
prescribed dose of 4 units of regular insulin by
the end of the 3rd session of instructions

The patient will prepare a 3 - day medication
recording sheet that correctly reflects the
prescribed medication schedule at the end of the
second session of instructions.

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

MEDICATION ADMINISTRATION
By: Ms. Christine Epilepsia, MSN, RN

Usually the brand name has an encircled letter
‘R’ raised in the end (ex. Pretendmed); the one
that doesn't have is the generic name (ex.
Fauxpharmoide).
When asked for the dosage strength answer
250mg per capsule or if syrup 2mg/5ml
(stated in the medication).

PRINCIPLES IN ADMINISTERING MEDICATION

Observe the "10 Rights" of drug Administration.
Practice asepsis.
Nurses who administer medications are
responsible for their own actions.
Be knowledgeable about the medications that
you administer (Never give an unfamiliar
medication, not clearly labeled containers).
Use only medications that are in clearly labeled
containers (Re-labeling of drugs is the
responsibility of the pharmacist.
Return liquid that is cloudy in color to the
pharmacy.
Before administering the medication, Identify the
client correctly.
Do not leave the medication at the bedside.

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

The nurse who prepares the drug administers
DERMATOLOGIC
it.
If the client vomits after taking the meds, report
this to the nurse in-charge or physician. Includes lotions, liniments & ointments
Pre-op meds are usually discontinued during Wash & pat dry area well before application to
post-op periods. facilitate absorption
Narcotics kept are locked. Use surgical asepsis when an open wound is
When the meds are omitted for any reason, present
record the fact together with the reason. Remove previous —-
When the meds error is made, report Apply only a thin layer of meds to prevent
immediately to the nurse in-charge / physician. systemic absorption
Use gloves when applying the meds over a large
surface
ROUTE OF DRUG ADMINISTRATION

INSTILLATIONS
Oral
Sublingual
Buccal Liquid medications usually administered as
Topical drops, ointments or sprays:
Rectal ○ Eyedrops
Parenteral ○ Eye ointments
○ Ear drops
○ Nose drops and sprays

EYE DROPS OINTMENTS

Position client (sitting or lying)
Instill eye drops into lower conjunctival sac
Avoid dropping a solution onto the cornea
directly, it causes discomfort
Instruct the client to close the eyes gently 1-2
mins
Position client & explain to help not to blink
Squeeze strip of ointment (about ¼) onto
conjunctival sac
Close eyes 2-3 min
Instruct for blurred vision for a short time

Never crush enteric-coated or sustained
release tablets can cause mucositis or OTIC
gastric irritation (bc its absorption is fast).
Higher than expected initial level of meds & a Includes instillations & irrigations
shorter that expected duration of action. INSTILLATION
○ To soften earwax
○ To reduce inflammation & treat infection
SUSTAINED RELEASE TABLETS
○ To relieve pain
IRRIGATION
Mucositis or gastric irritation. ○ To remove cerumen or pus
Higher than expected initial level of meds. ○ To apply heat
Shorter than expected duration of action. ○ To remove foreign body

EARDROPS

Affected on the top
TOPICAL ROUTE OF DRUG ADMINISTRATION Ensure drugs at room temp
Sit up, head tilted toward the unaffected side
Dermatologic Straighten the ear canal:
Ophthalmic ○ 0-3 years old: pull pinna downward &
Otic backward
Nasal ○ Older than 3: pull pinna upward &
Inhalation backward
Vaginal Instill ear drops on the side of the auditory canal
Press gently but firmly a few times in the tragus
Remain in side lying for about 5 min
Insert a small piece of cotton fluff loosely

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

Irrigating container should be 30 cm (12 inches)
above
Ask the client to remain in bed for 5-10 minutes
following administration of vaginal suppository,
NOSE DROPS OR SPRAYS cream, foam, jelly or irrigation

Advice to blow nose RECTAL
Tilt head back for drops to reach the frontal
sinus and tilt the head to the affected side
Administer ordered # of drops or sprays w/o Insert the suppository, pointed end first, about
touching tip to nasal passages 1/2 to 1 inch in infants and 1 inch in adults
Spray to sinuses, instruct to close one nostril, Refrigerate suppository
position head, looking down at the feet with the breathe through the mouth (so that the sphincter
spray tip aimed toward the eye will relax)
Remain in lateral position 20 mins after
administration
INHALATION
PARENTERAL
Use of nebulizers, metered-dose inhalers (MDI)
Shake the canister several times Types of Injection Routes:
Instruct client to hold breath for 10 seconds Intradermal
Administer bronchodilator before other inhalation Subcutaneous
meds Intramuscular
Instruct client to rinse mouth, if steroid had Intravenous
been administered to prevent oral fungal Intraarterial
infection intraosseous

SUPPOSITORIES GENERAL PRINCIPLES IN PARENTERAL
MEDICATION ADMINISTRATION:
Drug order
VAGINAL
Respect
Asepsis
DRUG FORMS: Materials
Tablet Techniques
Liquid (douches) Documentation
Cream
Jelly
INTRADERMAL (ID)
Foam
Suppository
- Use of applicator or sterile gloves for The administration of a drug into the dermal
vaginal administration of medications. layer the skin beneath the epidermis
Solid /oval shaped are stored in refrigerator
Creams and jellies inserted with an applicator The sites are the inner lower arm, upper chest & back, &
Placed in lithotomy position beneath scapulae:
Remain in bed for 5-10 minutes Indicated for allergy & tuberculin testing & for
vaccinations
ADVANTAGES Use left arm for tuberculin tests & right for all
Provides local therapeutic effect other tests
Use the needle gauge 25, 26, 27
DISADVANTAGES ○ Needle length 3/8", 5/8" or ½/2"
Has limited use Needle at 10-15 degree angle, bevel up
Use left arm for tuberculin tests & right for all
other tests
VAGINAL IRRIGATION Inject a small amount of drug slowly over 3-5
seconds to form wheal or bleb.
The washing of the Vagina by a liquid at low Do not massage the site of injection
pressure
Also called douche SUBCUTANEOUS (SC)
Empty the bladder before the procedure
Position & drape the client
Drugs administered subcutaneously are as
follows:
INSTILLATION: back-lying position with knees flexed &
○ Vaccines
hips rotated laterally
IRRIGATION: back-lying position with the hips higher
than the shoulders (use bedpan)
○ Preoperative meds
Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

○ Narcotics
DORSOGLUTEAL SITE
○ Insulin
○ Heparin
Use the gluteus medius muscle
The sites are:
Position of the client is similar to Ventrogluteal
○ The outer aspects of the upper arms,
site
○ Interior aspect of the thighs
Site should not be used for infants & under 3
○ Abdomen
years
○ Scapular areas of the upper back
Locating this site is to divide the buttocks into
○ Ventrogluteal areas
four quadrants
○ Dorsogluteal areas
The upper outer quadrant is the injection site
Only small doses of meds should be injected via
Palpate the crest of the ilium to ensure that the
SC route (0.5 to 1 ml)
site is high enough
Rotate sites of injection to minimize tissue
○ Avoid hitting the sciatic nerve, major
damage
blood vessel or bone by locating the site
Needle length & gauge are the same as for ID
properly
injections
Use 5/8" needle for adults when the injection is
administered at 45 degree angle, ½2" is used to VASTUS LATERALIS
a 90 degree angle
For thin patients: 45 degree angle Recommended site for injection for infants
For obese patients: 90 degree angle Located at the middle third of the anterior lateral
For heparin injection, don't aspirate & massage aspect of the thigh
For insulin injection, don't massage & inject to Assume back-lying or sitting position
90 degree angle ○ Middle 3rd of the thigh
Adjust the length of the needle depending on the
size of the client for insulin administration
RECTUS FEMORIS SITE
For other meds, aspirate before injection of
meds to check if blood vessels had been hit.
Located at the middle third, anterior aspect of
○ Added note: Insulin syringe can be used with the thigh
a 90° or 45° angle for it has a shorter needle.

INTRAMUSCULAR (IM) Z-TRACK TECHNIQUE

Into the muscle (IM) Used for parenteral iron preparation
Best site: Upper outer quadrant and left buttocks Retract the skin laterally, inject the meds slowly
Needle is 1”, 1 1⁄2”, 2” – to reach the muscle Hold the retraction of skin until the needle is
layer withdrawn
Use needle gauge 20, 21,22 & 23 – depending Do not massage the site injection
on the viscosity of meds
Clean the injection site with alcohol swab
Inject, Aspirate (to check for blood) and Inject INTRAVENOUS (IV)
the meds slowly to allow the tissues to
accommodate the volume Direct IV, IV push and IV Infusion
Most rapid route of absorption of meds
SITES FOR IM INJECTION: Predictable, therapeutic Blood levels of meds
Ventrogluteal site can be obtained
Dorsogluteal site The route can be used for patients with
Vastus lateralis site compromised GI function or peripheral
Rectus femoris site circulation
Deltoid site (most common) Larger doses of meds can be administer

VENTROGLUTEAL SITE (von Hochstetter’s site)

Use gluteus medius which lies over the gluteus
minimus muscle
The area contains no large nerves or BV & less
fat
Farther from the rectal area, less contaminated
Position the client in prone /side lying – relaxes
the gluteus muscles
○ Prone
○ Curl the toes inward
○ Side-lying
○ Flex the knee & hip

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

DRUG CALCULATION
By: Ms. Christine Epilepsia, MSN, RN

3. IV flow rates
Calculating fluid volume received hr KULANG

APPROXIMATE EQUIVALENT

1 G = gr xv
1 gr = 60 mg
1 dram = 1 tsp = 4-5 ml = 4-5 cc
1 ounce = 30 ml
1 qt = 1000 ml
1mL = 15-16 minims = 15-16 gtts
1G = 1mL

Insulin:
Insulin injections:
Order: Units 60 NPH SC qd

If insulin, just aspirate using injection

Important: Regardless of the source of an error, if you CALCULATING FLOW RATE
administer the wrong dosage you are legally
responsible.
3 step method:
1. cc/hr = total fluid divided by # of hours
Never assume what an order states!......Clarify an order
2. cc/min = cc/hr divided by 60 min/hr
when in doubt
3. FR (gtt/min) = cc/min x drop factor

CALCULATIONS OF ORAL MEDICATIONS Formula method
Shortened method
Desired
—------- X quantity = amount of
Have

Convert to same weight (or unit) of
measurement
Estimate dose

1. Order: Cloxacillin sodium 0.25 g
Stock: 125 mg per 5 ml

= 250 divided by 125 mg x 5 ml

2. Order: Furosemide 24 mg po qd
Stock: 10mg/mL

= 24/ 10 x ano ang quantity

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

UNDERSTANDING NEUROPHARMACOLOGY: ★ ANS MEDICATIONS
Exploring the ANS, PNS, and CNS
By: Ms. Yedda Nobelle B. Villaruel, RN, USRN Regulation of the heart, regulation of secretory glands
(salivary, sweat, gastric bronchial glands), regulation of
Nervous System - complex of networks from brain to smooth muscles (bronchi, blood vessels, urogenital, GI
system. tract).
Sympathomimetics (Adrenergic Agonists)
★ (mimics sympathetic), increases
epinephrine
Parasympathomimetics (Cholinergic Agonists)
★ (mimics parasympathetic)
Sympatholytics (Adrenergic Antagonists)
Parasympatholytics (Anticholinergics)
★ Lytic (inhibit)

Agonist - Bida
Antagonist - Kontrabida

MIMICS EACH SYSTEM

SYMPATHOMIMETIC PARASYMPATHOMIMETIC

(Adrenergic Agonist (Cholinergic drugs) releases
drugs) - Epinephrine & Acetylcholine that is
Norepinephrine) = responsible to activate the
muscarinic receptors
Treatment for Shock,
Hypotension and Asthma
Exacerbation

DOBUTAMINE PYRIDOSTIGMINE = Tx for
DOPAMINE Myasthenia Gravis
NOREPINEPHRINE
Myasthenia Gravis is a
EPINEPHRINE
decrease in Acetylcholine:
BETA 2 ADRENERGIC Cholinergic Fibers in Post
AGONISTS ganglionic membranes

Sensory - to the brain | Motor - away from the brain Side effects: ⬆ ALL HIGH Side effects: ⬇ ALL LOW
except GIT/ GUT except GIT/ GUT
Memorize this:

“Sympa” - stimulates adrenergic fibers.
“Para” - stimulate cholinergic fibers.

SYMPATHETIC PARASYMPATHETIC
(Fight or Flight) (Rest and Digest)

Hypertension Bronchoconstriction

Bronchodilation Bradycardia

Tachypnea Urinary urgency

Increase adrenaline Diarrhea

Pupil dilation (Mydriasis) Hypersalivation

Decreased saliva production Lacrimation

Slows digestion Increases digestion
Parasympathetic (P is Pahuway) - all is low except GIT &
GUT Increased alertness Resting
Sympathetic (S is Stress) - all is high except GIT & GUT
Ejaculation Erection

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

Para Effect
Thinking
SYMPATHOMIMETICS
(Adrenergic Agonists)
PARASYMPATHOMIMETICS
Stimulate the Adrenergic receptors (alpha & beta receptors) (Cholinergics)

System that releases Acetylcholine that activates muscarinic
)
receptors

Mechanism of Action: Treatment for Shock, PRODUCE 3S SECRETIONS
Hypotension and Asthma Exacerbation
Side effects:
1. Lacrimation (SEE / Teary eye)
ALPHA BETA
2. Hypersalivation - Secretory glands (SPIT)
Alpha-1 Agonists: Beta-1: cardiac function, 3. Increase Urinary frequency & Bowel Function
contraction of smooth muscle increasing heart rate and (SHIT)
in blood vessels and contractility.
increased systemic vascular
resistance. ADVERSE EFFECTS

Alpha-2 Agonists: acts on Beta-2: affects the bronchial Hypotension
the central nervous system to smooth muscle, leading to Bradycardia
reduce sympathetic outflow, bronchodilation, and can also Cholinergic toxicity - DOB (difficulty of
resulting in decreased blood affect uterine and vascular
breathing), decrease HR and excessive tearing
pressure and heart rate. smooth muscle.
and sweating
Phenylephrine (a1 agonist) Contraindications: not given with genitourinary
- increases BP and nasal Dobutamine (b1 agonist) - and gastrointestinal obstruction, asthma, copd,
decongestant increase heart contractility parkinsons and seizures

Epinephrine (a1,a2,b1 and Dopamine (b1 agonist) - NURSING CONSIDERATIONS
b2) - increases HR & BP and increase BP and renal
bronchodilators perfusion Review Laboratories - urinalysis and fecalysis
Assess urinary status
Norepinephrine (a1 & b1) - Albuterol (Salbutamol) (b2 Increase fluid intake and empty every 4 hours
increase BP & cardiac output agonist) - acute asthmatic Teach the patient about common side effects like
attacks diarrhea, urinary frequency, bradycardia

Side Effects: ⬆ ALL HIGH
Side effects: ⬇ ALL LOW SYMPATHETIC PARASYMPATHETIC
except GIT/GUT
“Fight or Flight” “Rest and Digest”
except GIT/ GUT
⬆ ALL HIGH except ⬇ ALL LOW except GIT/GUT
GIT/GUT
CONTRAINDICATIONS
Sympathomimetic effect: Parasympathomimetic
Hypertensive patients Epinephrine effect:
Pregnant and breastfeeding mothers Adrenaline Pyridostigmine
Those with coronary artery disease Ephedrine
Tachyarrhythmias
Anticholinergic (DRY) Cholinergic (WET)
Ventricular Fibrillation
Angina Pectoris Ex. Atropine - tx of Ex. Pilocarpine - tx of
bradycardia and glaucoma
pre-anesthetic to prevent
INTERACTIONS salivation during surgery Rivastigmine
Donepezil
Combining sympathomimetics leads to Scopolamine - tx of motion Galantamine
sympathomimetic toxicity and cardiac problem sickness, nausea, and - tx of Alzheimer’s disease
vomiting - Acetylcholinesterase
(increase ACETYLCHOLINE
NURSING CONSIDERATIONS Oxybutynin - tx of levels)
overactive bladder
Monitor Hemodynamic Status
Titration of doses Benztropine - tx of
Monitor Side effects parkinson's symptoms

STIMULATES (by Acetylcholine) INHIBITS EACH SYSTEM

Muscle Movement
Muscle Memory

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

SYMPATHOLYTIC PARASYMPATHOLYTIC 3. MAOI (Monoamine Oxidase Inhibitor)

(Adrenergic Agonists) - (Anticholinergic) - paRnate (Tranylcypromine)
blocks the release of stops/blocks the release of
naRdil (Phenelzine)
Norepinephrine Acetylcholine
= Tx for Asthma & COPD maRplan (Isocarboxazid)
= Tx for Hypertension & R in the middle
Anxiety WOF: Hypertensive Crisis

BETA BLOCKERS Airway: Ipratropium for Avoid TYRAMINE FOODS: (ABC)
Ex. Propranolol (Bronchodilation) of the lungs Aged Cheese/Avocado
Atropine: Increases HR and Beer/Banana
dilation of pupils after surgery Canned foods/Chocolates

Side effects: ⬇ HR, BP, Side effects: ⬆ HR, Pupil
& Bronchoconstriction Dilation after surgery ANTIPSYCHOTICS / NEUROLEPTICS /
MAJOR TRANQUILIZERS

1. TYPICAL (Old Generation)
★ CNS MEDICATIONS
azine/ peridol
○ Haloperidol
Antidepressants
○ Droperidol
Antipsychotics
Anxiolytics
Mood Stabilizers 2. ATYPICAL (New Generation)
Stimulants
Substance Abuse: Uppers and Downers done/ pine
Antiepileptics ○ Clozapine
Anti-Parkinson's ○ Clozapine
Sedatives & Hypnotics ○ Quetiapine (seroquel)
○ Risperidone

ANTIDEPRESSANTS
Side effects
Are a type of medicine used to treat clinical
depression, OCD and PTSD.
EPS (Extrapyramidal Syndrome)
(APAT)
1. SSRI - Selective Serotonin Reuptake ○ Acute Dystonia (Twitching or Twisting of
Inhibitor (-ine) extremities)
○ Pseudoparkinsonism (Mimics signs and
Zoloft (Sertraline) symptoms of Parkinson’s diseases)
Prozac (Fluoxetine) ○ Akathisia (Restlessness)
Paxil (Paroxetine) ○ TardiveDyskinesia(Repetitive
movements especially in the mouth,
eyes, etc.)

Side effects
Adverse Effects
(starts with S)
1. Sexual Dysfunction
2. Seizure NMS (Neuroleptic Malignant Syndrome or
3. Serotonin Toxicity Malignant Hyperthermia)
(FEVER)
○ Fever
2. TCA - Tricyclic Antidepressants
○ Elevated:
(-triptyline/pyramine)
VS (vital signs)
Enzymes
Clomipramine (Anafranil) ○ Risk for Seizure
Elavil (Amitriptiline)
Desipramine (Norpramin)
Tofranil (Imipramine) ANXIOLYTICS / BENZODIAZEPINES
Ana, ami, nora, imi
pam/ zolam/ zepine
○ Diazepam (Valium)
Side effects ○ Alprazolam (Xanax)
(TCA - starts with C) ○ Lorazepam (Ativan)
1. Cardiotoxicity ○ Clonazepam (Rivotril) (elderly)
2. Cardiac Arrhythmias ○ Midazolam (Versed) (Tubed patients)

Baldevieso, Ballaret, Geanga, Lim, Perpetua, Lozada, Artus, Aviador , Jimenez, Bajade, Julleza, De la Paz
 NCM 106A - PHARMACOLOGY
BSN 2 | 1st Semester - PRELIM

Side Effects

○ Dizziness
○ Drowsiness
○ Confusion
○ Hypotension

Nursing Responsibilities

○ Do not drive
○ Take before meals
○ Taper the dose to prevent withdrawal
symptoms: Coarse tremors,Seizures
and delirium
○ Taper the dose for 2 weeks
○ Withdrawal symptoms: Tremors, Seizure
and Delirium

Antidote: Flumazenil
Taper the dose for 2 weeks

Withdrawal symptoms: Tremors, Seizure and
Delirium

MOOD STABILIZERS / ANTI MANIC

Lithium/ Eskalith
○ Therapeutic Level: 5 --1.2 mEq/L
○ Elderly: