LA 1

Question 1

supp

Answer 1

Suppository

Question 2

gtt

Answer 2

drops, glucose tolerance test

Question 3

AM

Answer 3

morning

Question 4

cap

Answer 4

capsule

Question 5

hs

Answer 5

at bedtime

Question 6

OD

Answer 6

Right eye

Question 7

PM

Answer 7

in evening

Question 8

tid

Answer 8

3 times a day

Question 9

qod

Answer 9

every other day

Question 10

q

Answer 10

every

Question 11

q4h

Answer 11

every 4 hours

Question 12

ss

Answer 12

half

Question 13

d/c

Answer 13

discontinue

Question 14

stat

Answer 14

immediately

Question 15

Aq

Answer 15

Aqueous

Question 16

tinct

Answer 16

tincture

Question 17

tsp

Answer 17

teaspoon

Question 18

SC, SQ

Answer 18

Subcutaneous Injection

Question 19

qd

Answer 19

every day

Question 20

Qid

Answer 20

4 times a day

Question 21

PO

Answer 21

by mouth

Question 22

OS

Answer 22

Left eye

Question 23

IM

Answer 23

intramuscular injection

Question 24

g, gm

Answer 24

gram

Question 25

Bid

Answer 25

2 times a day

Question 26

Ac

Answer 26

Before meal

Question 27

IU

Answer 27

International Units

Question 28

ad lib

Answer 28

freely, as desired

Question 29

AAT

Answer 29

Activity as tolerated

Question 30

IVPB

Answer 30

Intravenous piggy back

Question 31

c

Answer 31

with

Question 32

h, hr

Answer 32

hour

Question 33

IV

Answer 33

intravenous

Question 34

pc

Answer 34

after meals

Question 35

prn

Answer 35

when required

Question 36

qh

Answer 36

every hour

Question 37

qs

Answer 37

quantity sufficient

Question 38

SL

Answer 38

Sublingual

Question 39

susp

Answer 39

suspension

Question 40

tbsp

Answer 40

tablespoon

Question 41

NS

Answer 41

Normal Saline

Question 42

Penicillin 500,000 IU IM q6h X 3 days

Answer 42

Penicillin 500000 international units intramusc every 6 hours for 3 days

Question 43

Digoxin 0.125 mg po qd.

Answer 43

Digoxin zero point 1 2 5 milligrams or one hundred twenty five micrograms orally once a day

Question 44

Lasix 40 mg. IV stat.

Answer 44

Lasix forty milligrams intravenously immediately

Question 45

Garamycin ii gtts OD bid X 5 days.

Answer 45

Garamycin two drops right eye twice a day for five days

Question 46

Ativan 1 mg. SL prn hs.

Answer 46

Ativan one milligrams sublingual as needed at hour of sleep

Question 47

Morphine 6 mg. SQ q4h.

Answer 47

morphine six milligrams subcutaneously every four hours

Question 48

Timolol ii gtts OD BID

Answer 48

Administer two drops of Timolol to the right eye twice a day.

Question 49

Toronto insulin 5 u SQ stat and 15 mg SQ QD am ac

Answer 49

Give 5 units of Toronto insulin now and then give 15 units each morning before breakfast.

Question 50

Chemical name:

Answer 50

Name describing the drug’s chemical composition and molecular structure (EG. Paracetamol)

Question 51

Generic name (nonproprietary name):

Answer 51

Name given to the drug and approved by Health Canada under the Food and Drugs Act and Food and Drug Regulations A name that is not or does not include a trademark or brand name (EG. ACETAMINPHEN)

Question 52

Trade name (proprietary name):

Answer 52

Name given to a drug product; this name is a registered trademark and its use is restricted by the patent owner (usually the manufacturer) (EG. TYLENOL)

Question 53

Over the counter drugs (OTC):

Answer 53

a drug that is sold without a prescription

Question 54

N (written on a prescription bottle)

Answer 54

Narcotic

Question 55

Pharmacokinetics:

Answer 55

the action of drugs in the body over a period of time, including the processes of absorption, distribution, localization in tissues, biotransformation, and excretion

Question 56

Pharmacodynamic:

Answer 56

the study of the biochemical and physiological effects of drugs and the mechanisms of their actions, including the correlation of their actions and effects with their chemical structure

Question 57

Protein binding:

Answer 57

interaction where a drug binds to proteins in the body

Question 58

Biotransformation:

Answer 58

the series of chemical alterations of a compound (e.g., a drug) occurring within the body, as by enzymatic activity

Question 59

Lipid solubility:

Answer 59

v

Question 60

Receptors:

Answer 60

a molecule on the surface or within a cell that recognizes and binds with specific molecules, producing a specific effect in the cell; e.g., the cell-surface receptors for antigens or cytoplasmic receptors for steroid hormones

Question 61

Onset of action:

Answer 61

the time required after administration of a drug for a response to be observed; the length of time needed for a medicine to become effective

Question 62

Peak of action:

Answer 62

The time period when the effect of something is at optimal strength

Question 63

Duration of action:

Answer 63

The length of time that a particular drug is effective

Question 64

Agonists:

Answer 64

a drug that has an affinity for and stimulates physiologic activity at cell receptors normally stimulated by naturally occurring substances

Question 65

Antagonists:

Answer 65

a substance that tends to nullify the action of another, as a drug that binds to a cell receptor without eliciting a biological response, blocking binding of substances that could elicit such responses

Question 66

Therapeutic Index:

Answer 66

The ratio between the toxic dose and the therapeutic dose of a drug, used as a measure of the relative safety of the drug for a particular treatment

Question 67

Peak drug level:

Answer 67

the highest concentration, usually in the blood, that a substance reaches during the period under consideration, after which it declines, such as the highest blood glucose level attained during a glucose tolerance test

Question 68

Trough level:

Answer 68

The lowest concentration reached by a drug before the next dose is administered, as determined by therapeutic drug monitoringhe lowest concentration reached by a drug before the next dose is administered, as determined by therapeutic drug monitoring

Question 69

Toxic effects:

Answer 69

an adverse effect of a drug produced by an exaggeration of the effect that produces the theraputic response

Question 70

Loading dose:

Answer 70

a large initial dose of a substance or series of such doses given to rapidly achieve a therapeutic concentration in the body

Question 71

Indications:

Answer 71

a symptom or particular circumstance that indicates the advisability or necessity of a specific medical treatment or procedure <postpartum>
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Question 72

Contraindications:

Answer 72

Any characteristic of the patient, especially a disease state, that makes the use of a given medication dangerous for the patient

Question 73

Desired action:

Answer 73

the means by which a drug exerts a desired effect. Drugs are usually classified by their actions; for example, a vasodilator, prescribed to decrease the blood pressure, acts by dilating the blood vessels

Question 74

Side effects:

Answer 74

A peripheral or secondary effect, especially an undesirable secondary effect of a drug or therapy

Question 75

Adverse effects:

Answer 75

Any reaction to a drug that is unexpected and undesirable and occurs at therapeutic drug dosages

Question 76

Allergic reactions:

Answer 76

hypersensitivity reaction to a particular allergen; symptoms can vary greatly in intensity

Question 77

Unbound drugs:

Answer 77

The fraction of drug in serum that is not bound to a carrier protein or other molecule, which generally is pharmacologically active

Question 78

Half life:

Answer 78

the time required for the activity of a substance taken into the body to lose one half its initial effectiveness.

Question 79

Additive effect:

Answer 79

An effect in which two substances or actions used in combination produce a total effect the same as the sum of the individual effects.

Question 80

Drug interactions:

Answer 80

The pharmacological result, either desirable or undesirable, of drugs interacting with themselves or with other drugs, with endogenous chemical agents, with components of the diet, or with chemicals used in or resulting from diagnostic tests.

Question 81

Food drug interactions:

Answer 81

the effect produced when some drugs and certain foods or beverages are taken at the same time. For example, grapefruit juice blocks the metabolism of some drugs in the GI tract, an action that can cause normal dosages of a drug to reach toxic levels in the plasma

Question 82

Enteral route:

Answer 82

Enteral refers to anything involving the alimentary tract, from the mouth to the rectum. There are four enteral routes of administration: oral, sublinqual, buccal, and rectal.

Question 83

Parenteral route:

Answer 83

1. Located outside the alimentary canal; 2. Taken into the body or administered in a manner other than through the digestive tract, as by intravenous or intramuscular injection.

Question 84

Percutaneous route:

Answer 84

a path of entry via the skin

Question 85

ABSORPTION: Definition

Answer 85

The process by which a drug is made available to the body fluids for distribution. It takes place through passive absorption, active absorption and pinocytosis

Question 86

ABSORPTION: Location

Answer 86

1. oral (enteral)
2. rectal (enteral)
3. nasogastric tube (enteral)
4. inhalation (percutaneous)
5. mucous membrane (percutaneous)
6. topical (percutaneous)
7. injectable (IM, S/C, IV)
   (parenteral)
8. Sublingual & buccal (percutaneous)

Question 87

ABSORPTION: Influencing Factors

Answer 87

1. Solubility of drug
2. Route of administration
3. Decreased villi in small intestine
4. Degree of blood flow to the tissue where medication is found (shock, disease or vasoconstrictor drugs)
5. If drugs are destroyed by digestive enzymes
6. Slowing of the stomach’s emptying time due to stress, pain, hot/cold and fatty foods
7. Age

Question 88

DISTRIBUTION: Definition

Answer 88

Transport of a drug by bloodstream to site of action

Question 89

DISTRIBUTION: Location

Answer 89

Blood stream bound to plasma proteins (commonly albumin) or “free” unbound

Question 90

DISTRIBUTION: Influencing Factors

Answer 90

Blood supply to target organ or tissue

Protein bound or not
Water soluability
Fat soluability

Question 91

BIOTRANSFOR-MATION
(metabolism): Definition

Answer 91

Alteration of drug into inactive metabolite
Breaking down drug

Also… converting prodrug into active form

Question 92

BIOTRANSFOR-MATION
(metabolism): Location

Answer 92

Mainly liver,
Also muscle, kidneys, lung, plasma, intestinal mucosa

Question 93

BIOTRANSFORMATION
(metabolism): Influencing Factors

Answer 93

Cytochrome p450
Other meds
Genetics
Diseases
Table 2-6

Question 94

EXCRETION: Definition

Answer 94

Removal of drug from body

Question 95

EXCRETION: Location

Answer 95

Kidney

To a lesser extent liver and bowel
Even less often lungs, sweat, saliva, breast milk

Question 96

EXCRETION: Influencing Factors

Answer 96

How well the excretory organ functions
e.g. poor kidney function can result in slower excretion

Question 97

Sequence of Ingestion to target area:

ENTERAL

Answer 97

* mouth
* stomach
* liver
* bloodstream
* target area

Question 98

Sequence of Ingestion to target area:

PARENTERAL

Answer 98

* bloodstream
* target area

Question 99

Critical Thinking Questions:

Because of the changes in the ordering, distribution, and administration of drugs; the advances in technology; and the increased potency of medications, what is the crucial responsibility of the nurse when implementing drug therapy?

Answer 99

Nurses are responsible for being adequately informed about both the client and the drug before implementing drug therapy. Nurses must assess clients before giving any medication and must then observe each individual’s response to the drug therapy; determine any other actions to be implemented; and continue to assess, teach, and work collaboratively with pharmacists and diligently with the client to enhance compliance at home. Carrying out the nursing process with astute assessment, nursing diagnoses, planning, implementation, and evaluation is as critical to safe nursing care with drug therapy as it is to the overall nursing care of clients.

Being efficient, safe, and knowledgeable about clients and their medication; using proper administration techniques; and constantly monitoring the client and all other sources of data also are important to safe and effective drug therapy.

Question 100

Critical Thinking Questions:

On the night shift, a client refused to take his 0200 dose of an antibiotic, claiming that he had just taken it. What actions by the nurse would ensure sound decision making and maintain client safety?

Answer 100

Whenever a client questions a particular medication or mentions something about the medication that is not in accordance with what the nurse thinks, the nurse should always be prudent—stop, recheck the doctor’s order against the medication administration record or profile, and check the medication record/profile to determine if a dose was given and signed off by another nurse. With this client, it would be prudent to check the orders against the medication profile as stated above, just to be safe. If all records and orders have been checked and the nurse is certain that the drug has not been given, then the nurse should proceed with medication administration. Never assume that the client is unaware of his or her medication; always double-check to be safe. A simple explanation could then be given to the client. If the client continues to refuse the medication, document this in the nurses’ notes and report it to the charge nurse or nurse supervisor and the physician.

Question 101

Critical Thinking Questions:

What are the implications of biotransformation on drug therapy?

Answer 101

Biotransformation, or drug metabolism, often causes drug inaction because many chemical changes occur, resulting in more water-soluble compounds that are more easily eliminated. However, drugs such as codeine, diazepam, and amitriptyline, which produce active metabolites as they go through biotransformation, remain in the body longer. The nurse must understand this process in order to recognize situations that cause increased or decreased drug effects as a result of metabolism. It is very important to know that biotransformation may result in either less potent substances compared with the parent drug or in metabolites that are more potent than the parent drug. In summary, it is crucial to understand the metabolic functions of drugs to be aware of those drugs that are broken down into more potent and possibly toxic chemicals.

Question 102

Crtitical Thinking Questions:

Your client is inquiring about the benefits that transdermal medication offers over the administration of some oral medications. In relation to the pharmacological principle of absorption, what is one major benefit of transdermal patches versus oral medication administration?

Answer 102

Transdermal patches are useful because they offer the advantage of bypassing the liver and possible first-pass effects (pre-systemic metabolism). The patches are also suitable for clients who cannot tolerate orally administered medications. They may be applied and remain on the skin, sometimes for 3 to 5 days, resulting in effective blood levels of the drug and better client compliance.

Question 103

Crtitical Thinking Questions:

Mr. L is admitted the burn trauma unit with multi-system injuries from an automobile accident. He presented to the unit with multiple abnormal findings including shock, decreased cardiac output, and less than 30 ml/hr urinary output. Which route of administration would be indicated for any medications in this client? Explain your rationale.

Answer 103

Intravenous therapy would be most appropriate because it allows immediate access of the drug to the bloodstream. With intramuscular (IM) or subcutaneous injectable forms of medications, absorption of the drug from the vascular area within a muscle, or within subcutaneous tissues, is required before absorption into the bloodstream. With clients who are in shock or have decreased cardiac output or decreased peripheral circulation, the IM forms would not be so well absorbed.

Question 104

Explain the difference between a medication’s action and its effect.

Answer 104

A medication’s mechanism of action is the way that it can produce therapeutic responses. The effects of a medication depend on the cells or tissue targeted by that medication. The medication has to go through its mechanism of action prior to having an effect.

Question 105

Explain the importance of each phase of pharmacokinetics.

Answer 105

A medication must go through the phases of pharmacokinetics before it can exert its mechanism of action and have its effect on the body. The phases of pharmacokinetics are absorption—the drug gets into the systemic circulation once the dosage form is administered; distribution—the drug is distributed or transported to the site of action; metabolism—the drug is biotransformed into an inactive metabolite, more soluble compound, or a more potent metabolite; and excretion—the drug is eliminated from the body. Understanding all these phases and subsequent principles related to each phase, as well as their altering factors, is critical to understanding the basics of drug therapy and some of the nuances of drug responses by clients.

Question 106

Five RIghts of Medication Administration

Answer 106

• Right drug
• Right dose
• Right time
• Right route
• Right patient

Additional Rights

• Right reason
• Right documentation
• Right evaluation (assessment)
• Right patient education
• Right to refuse

Question 107

Other “Rights” of Med Admin

Answer 107

• Proper drug storage
• Accurate dosage calculation
• Accurate dosage preparation
• Careful checking of transcription of orders
• Patient safety
• Close consideration of special situations
• Prevention and reporting of medication errors
• Monitoring for therapeutic effects, adverse effects, toxic effects

Question 108

Six Elements of a Drug Order

Answer 108

1. Patient’s name
2. Date the order is written
3. Name of medication
4. Dosage (includes size, frequency, and number of doses)
5. Route of administration
6. Signature of the prescriber

Question 109

9 Essential Components of a Prescription

Answer 109

1. Patient’s name, address, health insurance number (or identification number)
2. Date prescription was written
3. The Rx symbol, meaning “take thou”
4. Medication name, dosage, and strength
5. Route of administration
6. Dispensing instructions for the pharmacist
7. Directions for administration to be given to the patient
8. Number of refills
9. Signature of the prescriber

Question 110

Any chemical that affects the physiological
processes of a living organism

Answer 110

DRUG

Question 111

The study or science of drugs

Answer 111

PHARMACOLOGY

Question 112

Name describing the drug’s chemical composition and molecular structure

Answer 112

CHEMICAL NAME

Question 113

Name given to the drug and approved by Health Canada under the Food and Drugs Act and Food and Drug Regulations

Answer 113

GENERIC NAME (NONPROPRIETARY NAME)

Question 114

Name given to a drug product; this name is a registered trademark and its use is restricted by the patent owner (usually the manufacturer)

Answer 114

TRADE NAME (PROPRIETARY NAME)

Question 115

Pharmacological Principles

Answer 115

1. Pharmaceutics
2. Pharmacokinetics
3. Pharmacodynamics
4. Pharmacotherapeutics
5. Pharmacognosy
6. Toxicity

Question 116

The science of preparing and dispensing
drugs, including dosage form design (e.g., tablets, capsules, injections, patches, etc.).

Answer 116

Pharmaceutics

Question 117

The study of what the body does to the drug

• Absorption
• Distribution
• Metabolism
• Excretion

Answer 117

Pharmacokinetics

Question 118

• The study of what the drug does to the body
• The mechanism of interactions of drugs at their sites of activity

Answer 118

Pharmacodynamics

Question 119

The treatment of pathological
conditions through the use of drugs.

• Empirical therapeutics
• Rational therapeutics

Answer 119

Pharmacotherapeutics

Question 120

The study of drugs that are obtained
from natural plant and animal sources

Answer 120

Pharmacognosy

Question 121

The condition of producing adverse bodily effects
because of poisonous qualities.

Answer 121

Toxicity

Question 122

The movement of a drug from its site of administration into the bloodstream for distribution to the tissues

• Bioavailability
• Bioequivalent

Answer 122

Pharmacokinetics: Absorption

Question 123

Factors That Affect Absorption

Answer 123

• Absorption characteristics vary according to the dosage form and route
• Food or fluids administered with the drug
• Dosage formulation
• Status of the absorptive surface
• Rate of blood flow to the small intestine
• Acidity of the stomach
• Status of gastrointestinal (GI) motility

Question 124

Enteral Route

Answer 124

Drug is absorbed into the systemic circulation through the oral or gastric mucosa or the small intestine

• ORAL
• sublingual
• buccal

Question 125

The metabolism of a drug and its passage from the liver into the circulation

Answer 125

First-Pass Effect

Question 126

A drug given via the oral route may be extensively metabolized by the liver before reaching the systemic circulation

Answer 126

high first-pass effect

Question 127

Parenteral Route

Answer 127

• Intravenous (fastest delivery into the blood circulation)
• Intramuscular
• Subcutaneous
• Intradermal
• Intrathecal - space under the arachnoid membrane of the brain or spinal cord.
• Intra-arterial - ARTERY
• Intra-articular - JOINT

Question 128

T OR F

MEDICATIONS GIVEN BY THE PARENTERAL ROUTE BYPASS THE FIRST-PASS EFFECT OF THE LIVER

Answer 128

TRUE

Question 129

HOW CAN YOU INCREASE ABSORPTION FROM IM OR ID SITES?

Answer 129

• Applying heat to the injection site
• Massaging the injection site

Question 130

Most intramuscularly injected drugs are
absorbed over ______________ hours

Answer 130

several

Question 131

Specially formulated long-acting intramuscular dosage forms are designed for slow absorption and may be absorbed over a period of several days to a few months or longer

Answer 131

DEPOT DRUGS

Question 132

Topical Routes

Answer 132

• Skin (including transdermal patches)
• Eyes
• Ears
• Nose
• Lungs (inhalation)
• Rectum
• Vagina

Question 133

• Slower onset of effects
• Prolonged duration of action
• Avoidance of first-pass effects of the liver (except for rectally administered drugs)

Answer 133

Topical Route

Question 134

PROS TO TRANSDERMAL APPLICATION

Answer 134

• Patches deliver a constant amount of drug per unit of time for a specified time period
• Drug bypasses the liver and its first-pass effects

Question 135

HOW ARE INHALANTS ABSORBED

Answer 135

THROUGH THE ALVEOLI

Question 136

HOW ARE INHALED DRUGS DELIVERED

Answer 136

AS MICROMETRE-SEIZED DRUG PARTICLES

Question 137

The transport of a drug in the body by the bloodstream to its site of action

Answer 137

Distribution

Question 138

AREAS OF RAPID DISTRIBUTION

Answer 138

heart, liver, kidneys, brain

Question 139

Areas of slow distribution

Answer 139

muscle, skin, fat

Question 140

The biochemical transformation of a drug into an inactive metabolite, a more soluble compound, or a more potent metabolite

Answer 140

Metabolism(also known as biotransformation)

Question 141

WHERE DOES METABOLISM OCCUR

Answer 141

• Liver (main organ)
• Skeletal muscle
• Kidneys
• Lungs
• Plasma
• Intestinal mucosa

Question 142

Metabolism/Biotransformation

Biologic transformation of a drug into:

Answer 142

• An inactive metabolite
• A more soluble compound
• A more potent metabolite

Question 143

The elimination of drugs from the body

Answer 143

Excretion

Question 144

WHERE DOES EXCRETION OCCUR

Answer 144

• Kidneys (main organ)
• Liver
• Bowel
• Biliary excretion
• Enterohepatic recirculation
• Lungs
• Glands (sweat, salivary, and mammary)

Question 145

The time it takes for one-half of the original amount of a drug in the body to be removed; a measure of the rate at which drugs are removed from the body

Answer 145

Half-Life

Question 146

Most drugs are considered to be effectively removed after about ____________ half-lives

Answer 146

five

Question 147

the physiological state in which the amount of the drug removed via elimination is equal to the amount of drug absorbed with each dose

Answer 147

steady state

Question 148

Onset

Answer 148

The time it takes for the drug to elicit a therapeutic response

Question 149

Peak

Answer 149

The time it takes for a drug to reach its maximum therapeutic response

Question 150

Duration

Answer 150

The time that a drug concentration is sufficient to elicit a therapeutic response

Question 151

Peak Level

Answer 151

Highest blood level

Question 152

Trough Level

Answer 152

Lowest blood level

Question 153

Ways Drugs Produce Therapeutic Effects

Answer 153

• Once the drug is at the site of action, it can modify the rate (increase or decrease) at which the cells or tissues function
• A drug cannot make a cell or tissue perform a function it was not designed to perform

Question 154

Pharmacodynamics: Mechanisms of Action

(3)

Answer 154

• Receptor interactions
• Enzyme interactions
• Nonspecific interactions

Question 155

Receptor interactions

3

Answer 155

• Agonist Drug
• Partial agonist receptor
• Antagonist Drug

Question 156

AgonisT

Answer 156

Drug binds to the receptor; there is a response.

Question 157

Partial agonist (agonist–antagonist)

Answer 157

Drug binds to the receptor; the response is diminished compared with that elicited
by an agonist.

Question 158

Antagonist

Answer 158

Drug binds to the receptor; there is no response. Drug prevents binding of agonists

Question 159

Pharmacotherapeutics: Types of Therapies

Answer 159

• Acute therapy
• Maintenance therapy
• Supplemental/replacement therapy
• Palliative therapy
• Supportive therapy
• Prophylactic therapy
• Empiric therapy

Question 160

_________ therapy often involves more intensive drug therapy and is implemented in the acutely ill (those with a rapid onset of illness) or even the critically ill. It is often needed to sustain life or treat disease.

Examples are the administration of vasopressors to maintain blood pressure and cardiac output after open-heart surgery.

Answer 160

Acute

Question 161

______________ therapy typically does not eradicate problems the patient may have but does prevent progression of a disease or condition.

It is used for the treatment of chronic illnesses such as hypertension.

Answer 161

Maintenance

Question 162

___________ OR __________ therapy supplies the body with a substance needed to maintain normal function. This substance may be needed because it either cannot be made by the body or is produced in insufficient quantity.

Examples are the administration of insulin to diabetic patients and of iron to patients with iron-deficiency anemia.

Answer 162

Supplemental or replacement

Question 163

The goal of __________ therapy is to make the patient as comfortable as possible. It is typically used in the end stages of an illness when all attempts at curative therapy have failed.

Answer 163

palliative

Question 164

___________ therapy maintains the integrity of body functions while the patient is recovering from illness or
trauma.

Examples Are the administration of insulin to diabetic patients and of iron to patients with iron-deficiency anemia.

Answer 164

Supportive

Question 165

_____________ therapy is drug therapy provided to prevent illness or other undesirable outcome. Its use is based on scientific knowledge often acquired during years of observation of a disease and its causes.

example, a surgeon knows that when an incision is made through the skin there is the possibility that skin bacteria are present that can later infect the incision. Thus the surgeon administers an antibiotic before making the incision

Answer 165

Prophylactic

Question 166

_________ therapy does not have a scientific basis but instead is based on experience. It is the administration of a drug when a certain pathological process is suspected, based on the patient’s symptoms, because the drug has been found in the past to be beneficial in such cases.

example, acetaminophen is given to a patient who has a fever. The cause of the fever may not be known, but empirically the patient is given acetaminophen because it has been demonstrated to lower the body temperature.

Answer 166

empiric

Question 167

Contraindication

Answer 167

Any characteristic of the patient, especially a disease state, that makes the use of a given medication dangerous for the patient

Question 168

One must be familiar with the drug’s:

8

Answer 168

1. Intended therapeutic action (beneficial)
2. Unintended but potential adverse effects (predictable, adverse reactions)
3. Therapeutic index
4. Drug concentration
5. Patient’s condition
6. Tolerance and dependence
7. Interactions
8. Adverse drug effects

Question 169

Therapeutic index

Answer 169

The ratio between a drug’s therapeutic benefits and its toxic effects

Question 170

Tolerance

Answer 170

A decreasing response to repeated drug doses

Question 171

Dependence

Answer 171

A physiological or psychological need for a drug

Question 172

Interactions may occur with other _____ OR _____

Answer 172

drugs or food

Question 173

Drug interactions are the alteration of action of a drug by:

3

Answer 173

• Other prescribed drugs
• Over-the-counter medications
• Natural health products

Question 174

DRUG INTERACTIONS MAY HAVE 4 EFFECTS

Answer 174

• Additive effect
• Synergistic effect
• Antagonistic effect
• Incompatibility

Question 175

Drug interactions in which the effect of a combination of two or more drugs with similar actions is equivalent to the sum of the individual effects of the same drugs given alone (compare with synergistic effects).

Answer 175

Additive effects

Question 176

Drug interactions in which the effect of a combination of two or more drugs with similar actions is greater than the sum of the individual effects of the same drugs given alone (compare with additive effects).

Answer 176

Synergistic effects

Question 177

Drug interactions in which the effect of a combination of two or more drugs is less than the sum of the individual effects of the same drugs given alone.

Answer 177

Antagonistic effects

Question 178

The quality of two parenteral drugs or solutions that leads to a reaction resulting in chemical deterioration of at least one of the drugs when the two substances are mixed together.

Answer 178

Incompatibility

Question 179

Adverse Drug Events

2

Answer 179

• Medication errors
• Adverse drug reactions

Question 180

Adverse Drug Reaction (ADR)

Answer 180

Any reaction to a drug that is unexpected and Undesirable and occurs at therapeutic drug dosages

Question 181

ADVERSE DRUG REACTIONS ARE CAUSED BY

Answer 181

PROCESSES WITHIN A PATIENTS BODY

Question 182

ADVERSE DRUG REACTIONS HAVE FOUR GENERAL CATEGORIES

Answer 182

1. Pharmacological reaction
2. Hypersensitivity (allergic) reaction
3. Idiosyncratic reaction
4. Drug interaction

Question 183

Adverse effects

Answer 183

• Predictable, well-known reactions that result in little or no change in patient management
• Predictable frequency
• Related to the size of the dose
• Usually resolve when the drug is discontinued

Question 184

TERATOGENIC EFFECTS

Answer 184

Drugs or other chemicals result in structural defects in the fetus.

Question 185

MUTAGENIC EFFECTS

Answer 185

permanent changes in the genetic composition of living organisms and consist of alterations in the chromosome structure, the number of chromosomes, or the genetic code of the deoxyribonucleic acid (DNA) molecule.

Question 186

CARCINOGENIC EFFECTS

Answer 186

cancer-causing effects of drugs, other chemicals, radiation, and viruses.

Question 187

Pharmacognosy:

Four main sources for drugs

Answer 187

1. Plants: e.g. foxglove
2. Animals: Insulin, estrogen
3. Minerals: aluminum hydroxide
4. Laboratory synthesis: most drugs

Question 188

Evidence-Informed Practice

Answer 188

Applying current, valid, and relevant information when making clinical decisions

Question 189

HOW TO APPLY EVIDENCE INFORMED PRACTICE

3

Answer 189

1. Systematically reviewing randomized clinical trials (RCTs)
2. Reading descriptive and qualitative studies
3. Acknowledging expert opinions

Question 190

PROS OF EVIDENCE INFORMED PRACTICE

3

Answer 190

Leads to more:

• Accurate diagnoses
• Effective and efficient interventions
• Improved patient outcomes

Question 191

PREFERED SITE FOR Intramuscular injections

Answer 191

• Ventrogluteal site (preferred)
• Vastus lateralis site
• Deltoid site