ATI RN Pharmacology for Nursing (8th Edition) PDF

Summary

This document details pharmacological principles and pharmacokinetics, including routes of administration such as absorption, distribution, metabolism, and excretion. It covers different types of medications and their effects for nursing students.

Full Transcript

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CHAPTER 1
UNIT 1 PHARMACOLOGICAL PRINCIPLES Inhalation via mouth, nose

CHAPTER 1 Pharmacokinetics BARRIERS TO ABSORPTION: Inspiratory effort

and Routes of ABSORPTION PATTERN: Rapid absorption through alveolar
capillary networks

Administration Intradermal, topical
BARRIERS TO ABSORPTION: Close proximity of
Pharmacokinetics refers to how medications epidermal cells

travel through the body. They undergo a variety ABSORPTION PATTERN
Slow, gradual absorption
of biochemical processes that result in absorption,

Effects primarily local, but systemic as well, especially
distribution, metabolism, and excretion. with lipid-soluble medications passing through
subcutaneous fatty tissue

PHASES OF PHARMACOKINETICS Subcutaneous, intramuscular
BARRIERS TO ABSORPTION: Capillary walls have
ABSORPTION large spaces between cells. Therefore, there is no
significant barrier.
Absorption is the transmission of medications from the
location of administration (gastrointestinal [GI] tract, ABSORPTION PATTERN
muscle, skin, mucous membranes, or subcutaneous Solubility of the medication in water: Highly soluble
tissue) to the bloodstream. The most common routes of medications have rapid absorption (10 to 30 min); poorly
administration are enteral (through the GI tract) and soluble medications have slow absorption.
parenteral (by injection). Each of these routes has a unique Blood perfusion at the site of injection: sites with high
pattern of absorption. blood perfusion have rapid absorption; sites with low
The rate of medication absorption determines how soon blood perfusion have slow absorption.
the medication will take effect.
The amount of medication the body absorbs determines Intravenous
the intensity of its effects.
BARRIERS TO ABSORPTION: No barriers
The route of administration affects the rate and amount
of absorption. ABSORPTION PATTERN
Immediate: enters directly into the blood
Oral Complete: reaches the blood in its entirety

BARRIERS TO ABSORPTION: Medications must pass
through the layer of epithelial cells that line the GI tract. DISTRIBUTION
ABSORPTION PATTERN: Varies greatly due to: Distribution is the transportation of medications to sites
Stability and solubility of the medication of action by bodily fluids. Factors influencing distribution
GI pH and emptying time include the following.
Presence of food in the stomach or intestines
Circulation: Conditions that inhibit blood flow or
Other concurrent medications
perfusion, such as peripheral vascular or cardiac disease,
Forms of medications (enteric-coated pills, liquids)
can delay medication distribution.

Sublingual, buccal Permeability of the cell membrane: The medication must
be able to pass through tissues and membranes to reach
BARRIERS TO ABSORPTION: Swallowing before dissolution
its target area. Medications that are lipid-soluble or have
allows gastric pH to inactivate the medication.
a transport system can cross the blood-brain barrier and
ABSORPTION PATTERN: Quick absorption systemically the placenta.
through highly vascular mucous membranes
Plasma protein binding: Medications compete for protein
binding sites within the bloodstream, primarily albumin.
Other mucous membranes (rectal, vaginal)
The ability of a medication to bind to a protein can affect
BARRIERS TO ABSORPTION: Presence of stool in the how much of the medication will leave and travel to
rectum or infectious material in the vagina limits target tissues. Two medications can compete for the same
tissue contact. binding sites, resulting in toxicity.

ABSORPTION PATTERN: Easy absorption with both local
and systemic effects

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METABOLISM THERAPEUTIC INDEX
Metabolism (biotransformation) changes medications into Medications with a high therapeutic index (TI) have a
less active or inactive forms by the action of enzymes. wide safety margin. Therefore, there is no need for routine
This occurs primarily in the liver, but it also takes place in blood medication-level monitoring. Medications with
the kidneys, lungs, intestines, and blood. a low TI require close monitoring of medication levels.
Nurses should consider the route of administration when
FACTORS INFLUENCING THE RATE OF MEDICATION
monitoring for peak levels (highest plasma level when
METABOLISM
elimination = absorption). For example, an oral medication
Age: Infants have a limited medication-metabolizing
can peak from 1 to 3 hr after administration. If the route
capacity. The aging process also can influence medication
is IV, the peak time might occur within 10 min. (Refer to
metabolism, but varies with the individual. In general,
a drug reference or a pharmacist for specific medication
hepatic medication metabolism tends to decline with age.
peak times.) For trough levels, obtain a blood sample
Older adults require smaller doses of medications due to
immediately before the next medication dose, regardless
the possibility of accumulation in the body.
of the route of administration. A plateau is a medication’s
Increase in some medication-metabolizing enzymes:
concentration in plasma during a series of doses.
This can metabolize a particular medication sooner,
requiring an increase in dosage of that medication to
maintain a therapeutic level. It can also cause an increase
HALF-LIFE
in the metabolism of other concurrent-use medications. Half-life (t½) refers to the time for the medication in
First‑pass effect: The liver inactivates some the body to drop by 50%. Liver and kidney function
medications on their first pass through the liver, and affect half-life. It usually takes four half-lives to
thus they require a nonenteral route (sublingual, IV) achieve a steady blood concentration (medication
because of their high first-pass effect. intake = medication metabolism and excretion).
Similar metabolic pathways: When the same
SHORT HALF-LIFE
pathway metabolizes two medications, it can alter the Medications leave the body quickly (4 to 8 hr).
metabolism of one or both of them. In this way, the Short-dosing interval or MEC drops between doses.
rate of metabolism can decrease for one or both of the
medications, leading to medication accumulation. LONG HALF-LIFE
Nutritional status: Clients who are malnourished can Medications leave the body more slowly: over more than
be deficient in the factors that are necessary to produce 24 hr, with a greater risk for medication accumulation
specific medication-metabolizing enzymes, thus and toxicity.
impairing medication metabolism. Medications can be given at longer intervals without
loss of therapeutic effects.
OUTCOMES OF METABOLISM Medications take a longer time to reach a steady state.
Increased renal excretion of medication
Inactivation of medications
Increased therapeutic effect PHARMACODYNAMICS
Activation of pro-medications (also called pro-drugs)
Pharmacodynamics describes the interactions between
into active forms
medications and target cells, body systems, and organs
Decreased toxicity when active forms of medications
to produce effects. These interactions result in functional
become inactive forms
changes that are the mechanism of action of the
Increased toxicity when inactive forms of medications
medication. Medications interact with cells in one of two
become active forms
ways or in both ways.

Agonists are medications that bind to or mimic the
EXCRETION receptor activity that endogenous compounds regulate. For
Excretion is the elimination of medications from the body, example, morphine is an agonist because it activates the
primarily through the kidneys. Elimination also takes receptors that produce analgesia, sedation, constipation,
place through the liver, lungs, intestines, and exocrine and other effects. (Receptors are the medication’s target
glands (such as in breast milk). Kidney dysfunction can sites on or within the cells.)
lead to an increase in the duration and intensity of a
Antagonists are medications that can block the usual
medication’s response, so it is important to monitor BUN
receptor activity that endogenous compounds regulate or
and creatinine levels.
the receptor activity of other medications. For example,
losartan, an angiotensin II receptor blocker, is an
MEDICATION RESPONSES antagonist. It works by blocking angiotensin II receptors
on blood vessels, which prevents vasoconstriction.
Medication dosing attempts to regulate medication
responses to maintain plasma levels between the minimum Partial agonists act as agonists and antagonists, with
effective concentration (MEC) and the toxic concentration. limited affinity to receptor sites. For example, nalbuphine
A plasma medication level is in the therapeutic range when acts as an antagonist at mu receptors and an agonist
it is effective and not toxic. Nurses use therapeutic levels of at kappa receptors, causing analgesia with minimal
many medications to monitor clients’ responses. respiratory depression at low doses.

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Routes of administration TOPICAL
Medications directly applied to the mucous membranes or
skin. Includes powders, sprays, creams, ointments, pastes,
ORAL OR ENTERAL oil-and suspension-based lotions.
Painless
Tablets, capsules, liquids, Limited adverse effects
suspensions, elixirs, lozenges
NURSING ACTIONS
Most common route Apply with a glove, tongue blade, or cotton-tipped applicator.
Do not apply with a bare hand.
NURSING ACTIONS For skin applications, wash the skin with soap and
Contraindications for oral medication administration
water. Pat dry before application.
include vomiting, decreased GI motility, absence of a Use surgical asepsis to apply topical medications to
gag reflex, difficulty swallowing, and a decreased level
open wounds.
of consciousness.
Have clients sit upright at a 90° angle to
Transdermal

facilitate swallowing.
Administer irritating medications, such as analgesics, Medication in a skin patch for absorption through the
with small amounts of food. skin, producing systemic effects
Do not mix with large amounts of food or beverages in
CLIENT EDUCATION
case clients cannot consume the entire quantity. Apply patches to ensure proper dosing.
Avoid administration with interacting foods or Wash the skin with soap and water, and dry it
beverages, such as grapefruit juice.
thoroughly before applying a new patch.
Administer oral medications as prescribed, and follow Place the patch on a hairless area, and rotate sites daily
directions for whether medication is to be taken on an
to prevent skin irritation.
empty stomach (30 min to 1 hr before meals, 2 hr after
meals) or with food.
Eye
Follow the manufacturer’s directions for crushing,
cutting, and diluting medications. Break or cut scored Have clients sit upright or lie supine, tilt their head
tablets only. (See the Institute for Safe Medication slightly, and look up at the ceiling.
Practices website.) Rest your dominant hand on the clients’ forehead, hold the
Make sure clients swallow enteric-coated or dropper above the conjunctival sac about 1 to 2 cm, drop
time-release medications whole. the medication into the sac, avoid placing it directly on the
Use a liquid form of the medication to facilitate cornea, and have them close the eye gently. If they blink
swallowing whenever possible. during instillation, repeat the procedure.
For liquids, including suspension and elixirs, follow Apply gentle pressure with your finger and a clean facial
directions for dilution and shaking. To prepare the tissue on the nasolacrimal duct for 30 to 60 seconds to
medication, place a medicine cup on a flat surface before prevent systemic absorption of the medication.
pouring, and ensure the base of the meniscus (lowest If instilling more than one medication in the same eye,
fluid line) is at the level of the dose. wait at least 5 min between them.
For eye ointment, apply a thin ribbon to the edge of the
ADVANTAGES
lower eyelid from the inner to the outer canthus.
Safe
Inexpensive
Ear

Easy and convenient
Have clients sit upright or lie on their side.
DISADVANTAGES Straighten the ear canal by pulling the auricle upward and
Oral medications have highly variable absorption.
outward for adults or down and back for children less than
Inactivation can occur in the GI tract or by
3 years of age. Hold the dropper 1 cm above the ear canal,
first-pass effect.
instill the medication, and then gently apply pressure with
Clients must be cooperative and conscious.
your finger to the tragus of the ear unless it is too painful.
Do not press a cotton ball deep into the ear canal. If
Sublingual and buccal

necessary, gently place it into the outermost part of the
Sublingual: under the tongue ear canal.
Have clients remain in the side-lying position if
Buccal: between the cheek and the gum
possible for 2 to 3 min after instilling ear drops.
Directly enters the bloodstream and bypasses the liver

CLIENT EDUCATION
Keep the medication in place until complete
absorption occurs.
Do not eat or drink while the tablet is in place or until it
has completely dissolved.

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Nose Hold your breath for 10 seconds to allow the medication
to deposit in your airways.
Use medical aseptic technique when administering Take the inhaler out of your mouth and slowly exhale
medications into the nose.
through pursed lips.
Have clients lie supine with their head positioned to allow Resume normal breathing.
the medication to enter the appropriate nasal passage. A spacer keeps the medication in the device longer,
Use your dominant hand to instill nasal drops,
thereby increasing the amount of medication the device
supporting the head with your nondominant hand.
delivers to the lungs and decreasing the amount of
Instruct clients to breathe through the mouth, stay in a
medication in the oropharynx.
supine position, and not blow their nose for 5 min after If using a spacer:
drop instillation. ◯ Remove the covers from the mouthpieces of the
For nasal spray, prime the spray if indicated, insert tip into
inhaler and of the spacer.
nare, and point nozzle away from the center of the nose. ◯ Insert the MDI into the end of the spacer.
Spray into nose while the client inhales. Instruct the ◯ Shake the inhaler five or six times.

client not to blow their nose for several minutes. ◯ Exhale completely, and then close your mouth around

the spacer’s mouthpiece. Continue as with an MDI.
Rectal suppositories
Position clients in the left lateral position or DPI
Sims’ position.
CLIENT EDUCATION
Insert the suppository just beyond the internal sphincter. Do not shake the device.
Instruct clients to remain flat or in the left lateral Take the cover off the mouthpiece.
position for at least 5 min after insertion to retain the Follow the manufacturer’s directions for preparing the
suppository. Absorption times vary with the medication.
medication, such as turning the wheel of the inhaler or
loading a medication pellet.
Vaginal Exhale completely.
Position clients supine with their knees bent and their Place the mouthpiece between your lips and take a deep
feet flat on the bed and close to their hips (modified inhalation breath through your mouth.
lithotomy or dorsal recumbent position). Hold your breath for 5 to 10 seconds.
Provide perineal care, if needed. Take the inhaler out of your mouth and slowly exhale
Lubricate the suppository or fill the applicator, through pursed lips.
depending on the formulation. Resume normal breathing.
Insert the medication along the posterior wall of If more than one puff is needed, wait the length of time
the vagina (7.5 to 10 cm [3 to 4 in] for suppositories; the provider specifies before self-administering the
5 to 7.6 cm [2 to 3 in] for creams, jellies or foams) or second puff.
instill irrigation as indicated. Rinse the mouth out with water or brush the teeth
Instruct clients to remain supine for at least 5 min after if using a corticosteroid inhaler to reduce the risk of
insertion to retain the suppository. fungal infections of the mouth.
If using a reusable applicator, wash it with soap and Remove the canister and rinse the inhaler, cap, and
water. (If it is disposable, discard it.) spacer once a day with warm running water and dry
them completely before using the inhaler again.

INHALATION Nasogastric and gastrostomy tubes
Administered through metered dose inhalers (MDI) or Use liquid forms of medications; if not available, consider
dry-powder inhalers (DPI)
crushing medications if appropriate guidelines allow.
MDI Do not administer sublingual medications through the NG
tube (can give sublingual medications under the tongue).
CLIENT EDUCATION Do not crush specifically-prepared oral medications
Remove the cap from the inhaler’s mouthpiece.
(extended/time-release, fluid-filled, enteric-coated).
Shake the inhaler vigorously five or six times. Administer each medication separately.
Hold the inhaler with the mouthpiece at the bottom. Do not mix medications with enteral feedings.
Hold the inhaler with your thumb near the mouthpiece Completely dissolve crushed tablets and capsule contents
and your index and middle fingers at the top.
in 15 to 30 mL of sterile water prior to administration.
Hold the inhaler about 2 to 4 cm (1 to 2 in) away from
the front of your mouth or close your mouth around the NURSING ACTIONS
mouthpiece of the inhaler with the opening pointing Verify proper tube placement.
toward the back of your throat. Use a syringe and allow the medication to flow in by
Take a deep breath and then exhale. gravity or push it in with the plunger of the syringe.
Tilt your head back slightly, press the inhaler, and, at To prevent clogging, flush the tubing before and after
the same time, begin a slow, deep inhalation breath. each medication with 15 to 30 mL of sterile water.
Continue to breathe in slowly and deeply for 3 to Flush with another 15 to 30 mL of warm sterile water
5 seconds to facilitate delivery to the air passages. after instilling all the medications.

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PARENTERAL ADVANTAGES
Use for poorly soluble medications.
NURSING ACTIONS Use for administering medications that have
The vastus lateralis is best for infants 1 year
slow absorption for an extended period of time
and younger.
(depot preparations).
The ventrogluteal site is preferable for IM injections and
for injecting volumes exceeding 2 mL. DISADVANTAGES
The deltoid site has a smaller muscle mass and can only Injections are more costly.
accommodate up to 1 mL of fluid. Injections are inconvenient.
Use a needle size and length appropriate for the type There can be pain with the risk for local tissue damage
of injection and the client’s size. Syringe size should and nerve damage.
approximate the volume of medication. There is a risk for infection at the injection site.
Use a tuberculin syringe for solution volumes smaller
than 0.5 mL.
Rotate injection sites to enhance medication absorption,
INTRAVENOUS
and document each site. NURSING ACTIONS
Do not use injection sites that are edematous, inflamed, Use for administering medications, fluid, and
or have moles, birthmarks, or scars. blood products.
For IV administration, immediately monitor clients for Vascular access devices can be for short-term use
therapeutic and adverse effects. (catheters) or long-term use (infusion ports). Use
Discard all sharps (broken ampule bottles, needles) in 16-gauge devices for clients who have trauma, 18-gauge
leak- and puncture-proof containers. during surgery and for blood administration, and
22- to 24-gauge for children, older adults, and clients
who have medical issues or are stable postoperatively.
INTRADERMAL Peripheral veins in the arm or hand are preferable. Ask
NURSING ACTIONS clients which site they prefer. For newborns, use veins
Use for tuberculin testing or checking for medication or in the head, lower legs, and feet. After administration,
allergy sensitivities. immediately monitor for therapeutic and adverse effects.
Use small amounts of solution (0.01 to 0.1 mL) in Use the Z-track technique for IM injections of
a tuberculin syringe with a fine-gauge needle irritating fluids or fluids that can stain the skin (iron
(26- to 27-gauge) in lightly pigmented, thin-skinned, preparations). This method prevents medication from
hairless sites (the inner surface of the mid-forearm or leaking back into subcutaneous tissue.
scapular area of the back) at a 10° to 15° angle.
ADVANTAGES
Insert the needle with the bevel up. A small bleb Onset is rapid, and absorption into the blood is
should appear.
immediate, which provides an immediate response.
Do not massage the site after injection. This route allows control over the precise amount of
medication to administer.
SUBCUTANEOUS AND INTRAMUSCULAR It allows for administration of large volumes of fluid.
It dilutes irritating medications in free-flowing IV fluid.
NURSING ACTIONS
DISADVANTAGES
Subcutaneous IV injections are even more costly.
Use for small doses of nonirritating, water-soluble IV injections are inconvenient.
medications, such as insulin and heparin. Absorption of the medication into the blood is
Use a 3/8- to 5/8-inch, 25- to 27-gauge needle or a
immediate. This is potentially dangerous if giving the
28- to 31-gauge insulin syringe. Inject no more than
wrong dosage or the wrong medication.
1.5 mL of solution. There is an increased risk for infection or embolism
Select sites that have an adequate fat-pad size (abdomen,
with IV injections.
upper hips, lateral upper arms, thighs). Poor circulation can inhibit the medication’s distribution.
For average-size clients, pinch up the skin and inject
at a 45° to 90° angle. For clients who are obese, use
a 90° angle. EPIDURAL
Intramuscular NURSING ACTIONS
Use for irritating medications, solutions in oils, and Use for IV opioid analgesia (morphine or fentanyl).
aqueous suspensions. The clinician advances the catheter through the needle
The most common sites are ventrogluteal, deltoid, and into the epidural space at the level of the fourth or
vastus lateralis (pediatric). The dorsogluteal is no longer fifth vertebra.
recommended as a common injection site due to its Use an infusion pump to administer medication.
close proximity to the sciatic nerve.
Use a needle size 18- to 27-gauge (usually
22- to 25-gauge), 1- to 1.5-inch long, and inject at a 90°
angle. Solution volume is usually 1 to 3 mL. Divide larger
volumes into two syringes and use two different sites.

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Application Exercises Active Learning Scenario

1. A provider prescribes phenobarbital for a client who A nurse is showing a client how to use a metered-dose
has a seizure disorder. The medication has a long inhaler (MDI) with a spacer. What should the nurse
half-life of 4 days. How many times per day should include in the instructions? Use the ATI Active Learning
the nurse expect to administer this medication? Template: Therapeutic Procedure to complete this item.

A. One INDICATIONS: Identify the medication absorption
B. Two pattern and a barrier to absorption.
C. Three CLIENT EDUCATION: Describe the steps to
D. Four follow when using an MDI with a spacer.

2. A nurse educator is reviewing medication
metabolism at an in-service presentation.
Which of the following factors should the
educator include as a reason to administer lower
medication dosages? (Select all that apply.)
A. Increased renal excretion
B. Increased medication-metabolizing enzymes
C. Liver failure
D. Peripheral vascular disease
E. Concurrent use of medication the
same pathway metabolizes

3. A nurse is preparing to administer eye drops to
a client. Which of the following actions should
the nurse take? (Select all that apply.)
A. Have the client lie on one side.
B. Ask the client to look up at the ceiling.
C. Tell the client to blink when the drops enter the eye.
D. Drop the medication into the
client’s conjunctival sac.
E. Instruct the client to close the eye
gently after instillation.

4. A nurse is teaching a client about transdermal patches.
Which of the following statements should the nurse
identify as an indication that the client understands?
A. “I will clean the site with an alcohol
swab before I apply the patch.”
B. “I will rotate the application sites weekly.”
C. “I will apply the patch to an area
of skin with no hair.”
D. “I will place the new patch on
the site of the old patch.”

5. A nurse reviewing a client’s medical record
notes a new prescription for verifying the trough
level of the client’s medication. Which of the
following actions should the nurse take?
A. Obtain a blood specimen immediately prior to
administering the next dose of medication.
B. Verify that the client has been taking
the medication for 24 hr before
obtaining a blood specimen.
C. Ask the client to provide a urine specimen
after the next dose of medication.
D. Administer the medication, and obtain
a blood specimen 30 min later.

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Application Exercises Key Active Learning Scenario Key
1. A. CORRECT: Medications with long half-lives remain Using the ATI Active Learning Template: Therapeutic Procedure
at their therapeutic levels between doses for INDICATIONS
long periods of time. The nurse should expect to
Medication Absorption Pattern: rapid absorption through
administer this medication once a day.
the alveolar capillary network. A spacer keeps the
B. Medications with long half-lives remain at their therapeutic
medication in the device longer, thereby increasing the
levels between doses for long periods of time. A
amount of medication the device delivers to the lungs and
medication the nurse administers twice a day would
decreasing the amount of medication in the oropharynx.
have a shorter half-life. An example is vancomycin.
C. Medications with long half-lives remain at their therapeutic

Barrier to Absorption: Inadequate respiratory effort
levels between doses for long periods of time. A CLIENT EDUCATION
medication the nurse administers three times a day would
Remove the covers from the mouthpieces
have a shorter half-life. An example is zidovudine. of the inhaler and of the spacer.
D. Medications with long half-lives remain at their therapeutic
Insert the MDI into the end of the spacer.
levels between doses for long periods of time. A
Shake the inhaler five or six times.
medication the nurse administers four times a day would
have a shorter half-life. An example is ibuprofen.

Exhale completely, and then close your mouth
around the spacer’s mouthpiece.
NCLEX Connection: Pharmacological and Parenteral Therapies,
®

Take a deep breath and then exhale.
Medication Administration
Tilt your head back slightly, press the inhaler, and, at
the same time, begin a slow, deep inhalation breath.
2. A. Increased renal excretion decreases the concentration of Continue to breathe in slowly and deeply for 3 to 5 seconds
the medication, requiring an increased dosage. to facilitate delivery to the air passages.
B. Increased medication-metabolizing enzymes

Hold your breath for 10 seconds to allow the
decrease the concentration of the medication, medication to deposit in your airways.
requiring an increased dosage.
Take the mouthpiece out of your mouth and
C. CORRECT: Liver failure decreases metabolism and slowly exhale through pursed lips.
thus increases the concentration of a medication.
Resume normal breathing.
This requires decreasing the dosage.
NCLEX® Connection: Pharmacological and Parenteral Therapies,
D. Peripheral vascular disease impairs distribution,
Medication Administration
requiring an increased dosage.
E. CORRECT: When the same pathway metabolizes two
medications, they compete for metabolism, thereby
increasing the concentration of one or both medications. This
requires decreasing the dosage of one or both medications.
NCLEX® Connection: Pharmacological and Parenteral Therapies,
Adverse Effects/Contraindications/Side Effects/Interactions

3. A. The client should be sitting or in a supine position
to facilitate the instillation of eye drops.
B. CORRECT: The client should look upward to keep
the drops from falling onto the cornea.
C. Ideally, the client should not blink so that they do not eject
the eye drops. If they do blink, repeat the instillation.
D. CORRECT: Drop the medication into the
conjunctival sac to promote distribution.
E. CORRECT: The client should close the eye gently
to promote distribution of the medication.
NCLEX® Connection: Pharmacological and Parenteral Therapies,
Medication Administration

4. A. The client should wash their skin with soap and water and
dry it thoroughly before applying a transdermal patch.
B. The client should rotate application sites
daily to prevent skin irritation.
C. CORRECT: The client should apply the patch to a hairless
area of skin to promote absorption of the medication.
D. The client should rotate application sites
daily to prevent skin irritation.
NCLEX® Connection: Pharmacological and Parenteral Therapies,
Medication Administration

5. A. CORRECT: To verify trough levels of a medication, the
nurse should obtain a blood specimen immediately before
administering the next dose of medication.
B. The length of time the client has been taking the
medication does not affect trough levels.
C. Trough levels are measured from the blood, not urine.
D. Trough levels reflect the least concentration of the
medication in the client’s blood. It will be higher
after administration of the medication.
NCLEX® Connection: Pharmacological and Parenteral Therapies,
Parenteral/Intravenous Therapies

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