Pharm 251 - Quiz #2 - Final Flashcards

Question 1

Q

Define analgesic.

Answer

A

Medications that relieve pain without causing loss of consciousness. Also known as “Painkillers”.

Question 2

Q

What are some key characteristics to be aware of regarding pain?

Answer

A

An unpleasant sensory and emotional experience associated with actual or potential tissue damage
A personal and individual experience
Whatever the patient says it is
Exists when the patient says it exists

Question 3

Q

Define acute pain.

Answer

A

Pain that is sudden in onset, usually subsides when treated, and typically occurs over less than a 6-week period.

Question 4

Q

Define addiction.

Answer

A

Strong psychological or physical dependence on a drug or other psychoactive substance, usually resulting from habitual use, that is beyond normal voluntary control.

Question 5

Q

Define adjuvant analgesic drugs.

Answer

A

Drugs that are added for combined therapy with a primary drug and may have additive or independent analgesic properties, or both.

Question 6

Q

Define agonist-antagonist substances.

Answer

A

Substances that bind to a receptor and cause a partial response that is not as strong as that caused by agonists (also known as partial agonists).

Question 7

Q

Define analgesic ceiling effect.

Answer

A

The effect that occurs when a particular pain drug no longer effectively controls a patient’s pain despite the administration of the highest safe dosages.

Question 8

Q

What is the pain called that occurs between doses of pain medications?

Answer

A

Breakthrough pain

Question 9

Q

What is involved with central pain?

Answer

A

Pain resulting from any disorder that causes central nervous system damage.

Question 10

Q

What is the gate control theory?

Answer

A

A common and well-described theory of pain transmission and pain relief. It uses a gate model to explain how impulses from damaged tissues are sensed in the brain.

Question 11

Q

Pain that results from a disturbance of function or pathological change in a nerve.

Answer

A

Neuropathic pain

Question 12

Q

Pain that arises from mechanical, chemical, or thermal irritation of peripheral sensory nerves (e.g., after surgery or trauma or associated with degenerative processes). Two subtypes of nociceptive pain are visceral and somatic.

Answer

A

Nociceptive pain

Question 13

Q

What are two subtypes of nociceptive pain?

Answer

A

visceral pain
- somatic pain

Question 14

Q

A large, chemically diverse group of drugs that possess analgesic, anti-inflammatory, and antipyretic activity, but are not corticosteroids.

Answer

A

Nonsteroidal anti-inflammatory drugs (NSAIDS)

Question 15

Q

Synthetic drugs that bind to opiate receptors to relieve pain.

Answer

A

Opioid analgesics

Question 16

Q

What does it mean to be opioid naive?

Answer

A

A description of patients who are receiving opioid analgesics for the first time or intermittently for a brief period of time and who therefore are not accustomed to their effects.

Question 17

Q

What does it mean to be opioid tolerant?

Answer

A

The opposite of opioid naive; a description of patients who have been receiving opioid analgesics (legally or otherwise) for a period of time (1 week or longer) and who are at greater risk of opioid withdrawal syndrome upon sudden discontinuation.

Question 18

Q

What is opioid withdrawal?

Answer

A

The signs and symptoms associated with abstinence from, withdrawal of, or dose reduction of an opioid analgesic when the body has become physically dependent on the substance.

Question 19

Q

Define pain.

Answer

A

An unpleasant sensory and emotional experience associated with actual or potential tissue damage.

Question 20

Q

The level of stimulus that results in the sensation of pain.

Answer

A

pain threshold

Question 21

Q

The amount of pain a patient can endure without its interfering with normal function.

Answer

A

pain tolerance

Question 22

Q

Define persistent pain.

Answer

A

Recurring pain that is often difficult to treat. Includes any pain lasting longer than 3 to 6 months, pain lasting longer than 1 month after healing of an acute injury, or pain that accompanies a nonhealing tissue injury. (Also referred to as chronic or long-term pain).

Question 23

Q

Pain experienced in an area of the body part that has been surgically or traumatically removed.

Answer

A

phantom pain

Question 24

Q

What is psychological dependence?

Answer

A

A pattern of compulsive use of opioids or any other addictive substance characterized by a continuous craving for the substance and the need to use it for effects other than pain relief (also called addiction).

Question 25

Q

Pain occurring in an area away from the organ of origin.

Answer

A

referred pain

Question 26

Q

A progressively decreased responsiveness to a drug, resulting in a need for a larger dose of the drug to achieve the effect originally obtained by a smaller dose.

Answer

A

Tolerance

Question 27

Q

Pain that results from pathology of the vascular or perivascular tissues.

Answer

A

vascular pain

Question 28

Q

Pain that originates from internal organs or smooth muscles.

Answer

A

Visceral pain

Question 29

Q

What kinds of things can lower pain tolerance?

Answer

A

anger
anxiety
depression
discomfort
fear
isolation
persistent pain
sleeplessness
- tiredness

Question 30

Q

What kinds of things can increase pain tolerance?

Answer

A

Diversion
empathy
rest
sympathy
- medications (analgesics, antianxiety drugs, antidepressants)

Question 31

Q

What are some ethnocultural implications regarding pain?

Answer

A

Pain is experienced by individuals, not by a culture
There are both environmental and ethnocultural variations in the pain experience
Recognize the effect of social determinants of health on pain experience, pain expression, and treatment access
Pain behaviour and report best understood in the context of social interactions
Be aware of communication about cultural and religious variation
- Remain aware of ethnocultural influences on health related behaviours

Question 32

Q

What does pain result from physiologically?

Answer

A

Pain results from stimulation of sensory nerve fibres called nociceptors.
These receptors transmit pain signals from various body regions to the spinal cord and brain.

Question 33

Q

What are some important characteristics to be aware of related to pain tolerance?

Answer

A

Varies from person to person
Subjective response to pain, not a physiological function
Varies by attitude, personality, environment, culture, ethnicity

Question 34

Q

List the five distinct processes of nociceptive pain.

Answer

A

Transduction
Conduction
Transmission
Perception
Modulation

Question 35

Q

What are the three receptors believed to be involved in pain?

Answer

A

Mu receptors (in the dorsal horn of the spinal card; appear to plat the most crucial role)
Kappa receptors
- Delta receptors

Question 36

Q

When the number of receptors is high, is pain sensitivity augmented or diminished?

Answer

A

Sensitivity is diminished.

Question 37

Q

What is involved in pain transduction?

Answer

A

Transformation of stimuli into electrochemical energy
Release of pain-medicating chemicals
Nociceptors

Question 38

Q

During pain transduction, what is released when there is tissue injury and what do they do (generally)?

Answer

A

Bradykinin
Histamine
Potassium
Prostaglandins
Serotonin
Substance P

Generally, they stimulate nerve endings, starting the pain process

Question 39

Q

Where is the point of spinal cord entry for nerve impulses related to pain?

Answer

A

Dorsal horn

Question 40

Q

What are the two types of nociceptor pain fibers?

Answer

A

Large-diameter, A-delta fibres, and
small-diameter C fibres

Question 41

Q

What are some important characteristics to remember regarding pain perception?

Answer

A

Subjective phenomenon of pain
Identical stimulus can evoke different pain from one individual to another
“How it is felt”
Complex behavioural, psychological, and emotional factors
The number of mu receptors in the dorsal horn appear to play a crucial role in pain perception and emotional well-being
The larger the number of mu receptors , the less pain is perceived

Question 42

Q

What is involved in pain modulation?

Answer

A

Neural activity that controls pain transmission to neurons
Both peripheral and central nervous systems
Descending pain system
Enkephalins and endorphins (released to fight pain and are the bodies pain killers)

Question 43

Q

What is the term ‘endorphin’ short for?

Answer

A

endogenous morphine

Question 44

Q

Why does massaging an area often reduce the pain?

Answer

A

Relates to the gate theory. Massaing an area causes large sensory A nerve fibres to inhibit impulse transmission and therefore, causes the gate to close.

Question 45

Q

What is patient-controlled analgesia?

Answer

A

IV route; commonly used in hospital setting; patient able to self-medicate by pressing a button on a PCA infusion pump; shown to be effective and reduce total opioid dose used; morphine sulphate and fentanyl are commonly given by PCA.

Question 46

Q

What are two adjuvant drugs that are used for neuropathic pain?

Answer

A

Amitriptyline (antidepressant)
Gabapentin or pregabalin (anticonvulsants)

Question 47

Q

What do adjuvant drugs do?

Answer

A

They assist the primary drugs in relieving pain. Adjuvant drug therapy may include NSAIDs, antidepressants, antiepileptic drugs, and corticosteroids.

Question 48

Q

What is allodynia?

Answer

A

Hypersensitivity or hyperalgesia to mild stimuli such as light touch or a pinprick, or the bed sheet’s on a person’s foot.

Question 49

Q

What are the three steps of the WHO Three-step analgesic ladder?

Answer

A

Step 1: Nonopioids with or without adjuvant medications after the pain has been identified and assessed. If pain persists or increases, treatment moves to:

Step 2: Opioids with or without nonopioids and with or without adjuvants. If pain persists or increases, management then rises to:

Step 3: Opioids indicated for moderate to severe pain, administered with or without nonopioids or adjuvant medications

Question 50

Q

What are opioid drugs?

Answer

A

Synthetic drugs that bind to the opiate receptors to relieve pain.

Question 51

Q

What are the two classifications of opioid drugs and examples of each?

Answer

A

Mild agonists: codeine, hydrocodone
Strong agonists: morphine, hydromorphone hydrochloride, oxycodone, meperidine, fentanyl, methadone

Question 52

Q

Why is meperidine not recommended for long-term use?

Answer

A

Because of the accumulation of a neurotoxic metabolite, normeperidine, which can cause seizures. Can cause delirium in older adults, and serotonin syndrome.

Question 53

Q

What is an opioid ceiling effect?

Answer

A

Drug reaches a maximum analgesic effect. Analgesia does not improve, even with higher doses.

Codeine phosphate
Pentazocine
Nalbuphine

Question 54

Q

What are the three classifications of opioid analgesics?

Answer

A

Agonists (Bind to an opioid pain receptor in the brain and cause an analgesic response)
Agonists–antagonists (Bind to a pain receptor and cause a weaker pain response than full agonists)
Antagonists (nonanalgesic)(Reverse the effects of these drugs on pain receptors; bind to a pain receptor and exert no response)

Question 55

Q

What are the Indications for opioid analgesics?

Answer

A

Mainly used to alleviate moderate to severe pain
Often first line agents analgesic in immediate post operative setting
Often given with adjuvant analgesic drugs to assist primary drugs with pain relief
Balanced anaesthesia
Opioids are also used for:
- Cough centre suppression
- Treatment of diarrhea

Question 56

Q

What are the contraindications for opioid analgesics?

Answer

A

Known drug allergy
Severe asthma
Use with extreme caution in patients with the following:
Respiratory insufficiency
Elevated intracranial pressure
Morbid obesity or sleep apnea
Paralytic ileus
Pregnancy

Question 57

Q

What are the adverse effects of opioid analgesics?

Answer

A

Central nervous system (CNS) depression
Leads to respiratory depression (Most serious adverse effect)
Nausea, vomiting, constipation, biliary tract spasm
Urinary retention
Hypotension, palpitations, flushing
Itching, rash, wheal formation
Pinpoint pupils indicating a possible overdose

Question 58

Q

What do biological response-modifying drugs do?

Answer

A

Alter the body’s response to diseases such as cancer and autoimmune, inflammatory, and infectious diseases

Question 59

Q

What are two types of BRM drugs?

Answer

A

Hematopoietic drugs
Immunomodulating drugs

Question 60

Q

What are the four categories of immunomodulating drugs?

Answer

A

Interferons (IFNs)
Monoclonal antibodies (MABs)
Interleukin (IL) receptor agonists and antagonists
Miscellaneous drugs

Question 61

Q

What are the main functions of immunomodulating drugs?

Answer

A

Medications that therapeutically alter a patient’s immune response to malignant tumour cells
Drugs that modify the body’s own immune response so that it can destroy various viruses and cancerous cells

Question 62

Q

What are the four possible components of cancer therapy?

Answer

A

Surgery
Chemotherapy
Radiation
Immunomodulating drugs

Question 63

Q

What other diseases is immunomodulating drugs used for?

Answer

A

Autoimmune disease
Inflammatory disease
Infectious disease

Question 64

Q

What are the mechanisms of action for biological response-modifying drugs?

Answer

A

Enhancement of hematopoietic function
Enhancement or regulation of the host’s immune system defenses against the tumour
Inhibition of metastases, prevention of cell division, or inhibition of cell maturation

Answer 65

A

Humoral immunity

Answer 66

A

cell-mediated immunity

Answer 67

A

A nonspecific immunostimulant that enhances overall immune function rather than stimulating the function of a specific immune system cell or cytokine through specific chemical reactions.

Answer 68

A

Immunoglobulins produced by lymphocytes in response to bacteria, viruses, or other antigenic substances.

Answer 69

A

Substances that are capable of inducing specific immune responses and reacting with the specific products of those responses, such as antibodies and specifically sensitized T lymphocytes. Antigens can be soluble (e.g., a foreign protein) or particulate or insoluble (e.g., a bacterial cell).

Answer 70

A

A disorder that occurs when the body’s tissues are attacked by its own immune system.

Answer 71

A

Leukocytes of the humoral immune system that develop into plasma cells and then produce the antibodies that bind to and inactivate antigens. B cells are one of the two principal types of lymphocytes; T lymphocytes are the other.

Answer 72

A

A broad class of drugs that includes hematopoietic drugs and immunomodulating drugs; often referred to as biological response modifiers, they alter the body’s response to diseases such as cancer as well as autoimmune, inflammatory, and infectious diseases. Examples are cytokines (e.g., interleukin, interferons), monoclonal antibodies, and vaccines. They are also called biomodulators or immunomodulating drugs. Biological response–modifying drugs may be adjuvants, immunostimulants, or immunosuppressants.

Answer 73

A

One of two major parts of the immune system. CMI consists of nonspecific immune responses mediated primarily by T lymphocytes (T cells) and other immune system cells (e.g., monocytes, macrophages, neutrophils) but not antibody-producing cells (B lymphocytes).

Answer 74

A

Cytokines that regulate the growth, differentiation, and function of bone marrow stem cells.

Answer 75

A

Nonantibody proteins released by specific cell populations (e.g., activated T cells) on contact with antigens. Cytokines act as intercellular mediators of an immune response.

Answer 76

A

Differentiated T cells that can recognize and lyse (rupture) target cells that bear foreign antigens on their surfaces; also called natural killer cells. These antigens are recognized by the corresponding antigen receptors that are expressed (displayed) on the cytotoxic T cell surface.

Answer 77

A

An important part of normal cellular growth in which immature cells mature into specialized cells.

Answer 78

A

Disease-modifying antirheumatic drugs. Medications used in the treatment of rheumatic diseases that have the potential to arrest or slow the actual disease process instead of providing only anti-inflammatory and analgesic effects.

Answer 79

A

All of the body’s processes originating in the bone marrow that result in the formation of various types of blood components (adjective: hematopoietic); includes the three main processes of differentiation (see earlier): erythropoiesis (formation of red blood cells, or erythrocytes), leukopoiesis (formation of white blood cells, or leukocytes), and thrombopoiesis (formation of platelets, or thrombocytes).

Answer 80

A

All immune responses mediated by B cells, which ultimately work through the production of antibodies against specific antigens; humoral immunity acts in collaboration with cell-mediated immunity.

Answer 81

A

Proteins belonging to any of five structurally and antigenically distinct classes of antibodies present in the serum and external secretions of the body.

Answer 82

A

A drug that enhances immune response through specific and nonspecific chemical interactions with particular immune system components; an example is interleukin-2.

Answer 83

A

Drugs that decrease or prevent an immune response.

Answer 84

A

One type of cytokine that promotes resistance to viral infections in uninfected cells and can also strengthen the body’s immune response to cancer cells.

Answer 85

A

All subtypes of white blood cells; leukocytes include granulocytes (neutrophils, eosinophils, and basophils), monocytes, and lymphocytes (B cells and T cells); some monocytes also develop into tissue macrophages.

Answer 86

A

Cytotoxic T cells that have been activated by interleukin-2 and therefore have a stronger and more specific response against cancer cells than other cytotoxic T cells.

Answer 87

A

Cytokines that are produced by sensitized T lymphocytes on contact with antigen particles.

Answer 88

A

Cells involved in the humoral immune system that remember the exact characteristics of a particular foreign invader or antigen for the purpose of an expediting immune response in the event of future exposure to this antigen.

Answer 89

A

A group of identical cells or organisms derived from a single cell.

Answer 90

A

Cells derived from B cells found in the bone marrow, connective tissue, and blood. They produce antibodies.

Answer 91

A

Any of several disorders characterized by inflammation, degeneration, or metabolic derangement of connective tissue structures, especially joints and related structures.

Answer 92

A

Cells that promote and direct the actions of other cells of the immune system.

Answer 93

A

Leukocytes of the cell-mediated immune system; unlike B cells, they are not involved in the production of antibodies but instead occur in various cell subtypes (e.g., T helper cells, T suppressor cells, and cytotoxic T cells); they act through direct cell-to-cell contact or through production of cytokines that guide the functions of other immune system components (e.g., B cells, antibodies).

Answer 94

A

Cells that regulate and limit the immune response, balancing the effects of T helper cells.

Answer 95

A

Chemical compounds expressed on the surfaces of tumour cells. They signal to the immune system that these cells do not belong in the body, labelling the tumour cells as foreign.

Answer 96

A

M (primary antibody produced after contact with antigen)

A (found in saliva, breast milk, and colostrum, secr. in GI and resp)

D (may be involved in parasitic infections)

G (main antibody - long-lasting memory)

E (mediates allergic reactions)

Answer 97

A

Cytotoxic T cells
T-helper cells
T-suppressor cells

Answer 98

A

Enhancement of hematopoietic function
Regulation or enhancement of the immune response, including cytotoxic or cytostatic activity against cancer cells
Inhibition of metastases, prevention of cell division, or inhibition of cell maturation

Answer 99

A

Promote the synthesis of various types of major blood components by promoting the growth or differentiation and the function of their precursor cells in the bone marrow

Answer 100

A

Decrease the duration of chemotherapy-induced anemia, neutropenia, and thrombocytopenia
Enable higher doses of chemotherapy to be given

Answer 101

A

darbepoetin alfa

Answer 102

A

filgrastim

Answer 103

A

Promotes the proliferation, differentiation, and activation of the cells that make granulocytes (primary defence against bacterial and fungal infections)
Prevents or treats febrile neutropenia

Answer 104

A

Filgrastim must be taken before a patient develops an infection but not within 24 hours before or after myelosuppressive chemotherapeutic drugs.

Answer 105

A

Decrease the duration of chemotherapy-induced anemia, neutropenia, and thrombocytopenia
Allow for higher dosages of chemotherapy
Decrease bone marrow recovery time after bone marrow transplantation or irradiation
Stimulate other cells in the immune system to destroy or inhibit the growth of cancer cells, as well as virus- or fungus-infected cells

Answer 106

A

Do not start until 24hrs after chemo is completed
Keep refrigerated, take out minimum 30 minutes to warm up before use
Use abdomen or back of arms for SC location
Discontinue after the ANC has reached 1 x 10⁹ / L
Note: Nadir is when the blood counts (mainly ANC and platelet counts) are at their lowest. Nadir could start 7-10 days post chemo and last as longs as 28 days

Answer 107

A

Used for patients who have experienced destruction of bone marrow cells as a result of cytotoxic chemotherapy.
Decrease the duration of low neutrophil counts, thus reducing the incidence and duration of infections.
Enhance the functioning of mature cells of the immune system, resulting in greater ability to kill cancer cells as well as virus- and fungus-infected cells.
Enhance red blood cell and platelet counts in patients with bone marrow suppression resulting from chemotherapy.
Allow higher doses of chemotherapy, resulting in the destruction of a greater number of cancer cells.

Answer 108

A

Usually mild
Most common include:
- Fever
- Muscle aches
- Bone pain
- Flushing

Answer 109

A

Antiviral
Antitumour
Immunomodulating

Answer 110

A

Protect human cells from virus attack
Prevent cancer cells from dividing and replicating
Increase the activity of other immune system cells, such as macrophages, neutrophils, and NK cells

Answer 111

A

Antiviral/Antitumor/Immune Modulator/Suppress
Restore the immune system’s function if it is impaired
Augment the immune system’s ability to function as the body’s defense
Inhibit the immune system from working
- Helpful in autoimmune disorders

Answer 112

A

Viral infections
- Cancer

Answer 113

A

Autoimmune disorders such as multiple sclerosis

Answer 114

A

Flulike effects:
- Fever
- Chills
- Headache
- Myalgia

Answer 115

A

chronic active hepatitis B
chronic Hepatitis C
chronic myelogenous leukemia
multiple myeloma
non-Hodgkins lymphoma
malignant melanoma
AIDS-related Kaposi sarcome

Answer 116

A

chronic active hepatitis B or chronic hepatitis C

Answer 117

A

Treatment of relapsing-remitting multiple sclerosis;

contraindicated for allergies to human albumin

Answer 118

A

For treatment of cancer, rheumatoid arthritis (RA), multiple sclerosis, and organ transplantation

Answer 119

A

Specifically target cancer cells and have minimal effect on healthy cells
Fewer adverse effects than traditional antineoplastic medications

Answer 120

A

Because of their immunosuppressive qualities.

Answer 121

A

A cytokine involved in systemic inflammation and is a member of a group of cytokines that stimulate the acute phase reaction. It is produced chiefly by activated macrophages, although it can be produced by other cell types as well

Answer 122

A

Drugs that help stop inflammation. They’re used to treat diseases like rheumatoid arthritis (RA), juvenile arthritis, psoriatic arthritis, plaque psoriasis, ankylosing spondylitis, ulcerative colitis (UC), and Crohn’s disease. They’re also called TNF blockers, biologic therapies, or anti-TNF drugs.

Answer 123

A

Adalimumab
Infliximab
Rituximab
Natiluzumab

Answer 124

A

Moderate to severe rheumatoid arthritis, alone or in combination with methotrexate or other DMARDs
Psoriatic arthritis, ankylosing spondylitis, Crohn’s disease, ulcerative colitis, and psoriasis.

Answer 125

A

Patients with active infectious process, whether localized or infectious, acute or chronic.

Answer 126

A

It is similar to adalimumab and is indicated for ankylosing spondylitis, Crohn’s disease, and rheumatoid arthritis.

Answer 127

A

Patients with severe heart failure
Reported cases of fatal tuberculosis and fungal infections; recommended that they are tested for latent tuberculosis before administration,

Answer 128

A

Treatment of RRMS

Answer 129

A

Follicular low-grade non-Hodgkin lymphoma for patients for whom previous therapy has failed

Answer 130

A

Premedication with acetaminophen and diphenhydramine hydrochloride before each infusion of the drug to reduce well-known infusion-related adverse effects.

Answer 131

A

Antitumour action: IL-2 is produced by activated T cells in response to macrophage-“processed” antigens and secreted IL-1.
IL-2 derivative aldesleukin: stimulates or restores immune response
Aldesleukin: binds to receptor sites on T cells, which stimulates the T cells to multiply
Lymphokine-activated killer cells: recognize and destroy only cancer cells and ignore normal cells

Answer 132

A

Commonly complicated by severe toxicity.
Caused by Capillary Leak Syndrome
Capillaries lose ability to retain vital colloids in the blood; these substances are “leaked” into the surrounding tissues.
Result: massive fluid retention
- Respiratory distress
- Heart failure
- Myocardial infarction
- Dysrhythmias
Reversible after IL therapy is discontinued

Answer 133

A

Severe toxicity of aldesleukin therapy
Capillaries lose ability to retain vital colloids in the blood; these substances are “leaked” into the surrounding tissues.
Result: massive fluid retention
- Respiratory distress
- Heart failure
- Myocardial infarction
- Dysrhythmias

Reversible after IL therapy is discontinued

Answer 134

A

Treatment of metastatic renal cell carcinoma and metastatic melanoma
Contraindicated in those with organ transplants
Available only for injection

Answer 135

A

Shoulders, elbows, wrists, knees, and ankles, and it often affects the joints on both sides of the body equally.

Answer 136

A

Modify the disease of RA
Exhibit anti-inflammatory, antiarthritic, and immunomodulating effects
Inhibit the movement of various cells into an inflamed, damaged area, such as a joint
Slow onset of action of several weeks versus minutes to hours for NSAIDs
Also referred to as slow-acting antirheumatic drugs

Answer 137

A

methotrexate
leflunomide

Answer 138

A

First line therapy recommended by Canadian Rheumatology Association usually in a combo of two
Given PER WEEKLY not daily basis (oral most common)
Lower doses than for cancer (7.5mg – 20 mg/wk)
Bone marrow suppression is most common adverse effect; stomatitis may also occur fairly commonly
Folic acid supplement taken concurrently to lessen adverse effects
Onset of action 3-6weeks, half-life 3-10 hours

Answer 139

A

adalimumab
etanercept
infliximab
abatacept

Answer 140

A

It is a selective co-stimulation modulator; it inhibits T-cell activation.

Answer 141

A

is an rDNA-derived TNF-blocking drug. It binds to TNF and blocks its interaction with cell surface receptors.

Answer 142

A

It has antiproliferative, anti-inflammatory, and immunosuppressive activity.

Answer 143

A

Used to treat rheumatoid arthritis (including juvenile rheumatoid arthritis) and moderate to severe chronic plaque psoriasis
Patients must be screened for latex allergy (some dosage forms may contain latex).
Onset of action: 1 to 2 weeks
Contraindicated in presence of active infections
- Reactivation of hepatitis and tuberculosis has been reported.

Answer 144

A

Used to treat RA
Caution if the patient has a history of recurrent infections or chronic obstructive pulmonary disease
Patients must be up to date on immunizations before starting therapy.
May increase risk of infections associated with live vaccines
May decrease response to dead or live vaccines

Answer 145

A

Assess for allergies, specifically allergies to egg proteins and IgG.
Assess for conditions that may be contraindications.
Assess baseline blood counts; perform cardiac, kidney, and liver studies.
Assess for presence of infection.
Follow specific guidelines for preparation and administration of drugs.
Monitor the patient’s response during therapy.
With some BRMs, treatment with opioids, antihistamines or anti-inflammatory drugs may be required for management of bone pain and chills.
Aniemetics used for nausea and vomiting
Teach patients to report signs of infection immediately.
- Sore throat
- Diarrhea
- Vomiting
- Fever of 38.1°C or higher
- Watching for febrile neutropenia; needs urgent treatment and monitoring
Monitor therapeutic responses.
- Decrease in growth of lesion or mass
- Improved blood counts
- Absence of infection, anemia, and hemorrhage
- Observe for and monitor adverse effects.
Remember we are looking for signs of immune system triggered** or **immune system suppressed

Answer 146

A

A common physiological result of chronic opioid treatment
State of adaptation
Result: larger dose is required to maintain the same level of analgesia

Answer 147

A

Addiction: a pattern of compulsive drug use characterized by a continued craving for an opioid and the need to use the opioid for effects other than pain relief

Answer 148

A

Use naloxone hydrochloride. Severe respiratory depression is the cardinal sign. Regardless of withdrawal symptoms, when a patient experiences severe respiratory depression, an opioid antagonist should be given. Naloxone has a high affinity for opioid receptors and will knock the opioids off the receptors for about 30 - 90 minutes, allowing the person to breathe again and reverse the overdose. May need to dose multiple times as it wears off.

Answer 149

A

Within 2 weeks of starting to take opioids

Answer 150

A

Alcohol
Antihistamines
Barbiturates
Benzodiazepines
Promethazine
Monoamine oxidase inhibitors
Others

Answer 151

A

Natural opiate alkaloid (Schedule I) obtained from opium
Less effective
Ceiling effect
More commonly used as an antitussive drug
Gastrointestinal (GI) disturbance

Answer 152

A

Synthetic opioid (Schedule I) used to treat moderate to severe pain
Parenteral injections, transdermal patches (Duragesic Mat^®), sublingual effervescent tablet (Fentora^®)

Answer 153

A

Hydromorphone. It is a very potent opioid analgesic; Schedule I drug. 1 mg of intravenous (IV) or intramuscular (IM) hydromorphone is equivalent to 7 mg of morphine.

Answer 154

A

Synthetic opioid analgesic (Schedule I)
Opioid of choice for detoxification treatment of opioid addicts in methadone maintenance programs
Renewed interest in the use of methadone for chronic (e.g., neuropathic) and cancer-related pain
Prolonged half-life of the drug: cause of unintentional overdoses and deaths
Cardiac dysrhythmias

Answer 155

A

Naturally occurring alkaloid derived from the opium poppy
Drug prototype for all opioid drugs; Schedule I controlled substance
Indication: severe pain
Oral, injectable, and rectal dosage forms; also extended-release forms

Answer 156

A

Structured similar to morphine
Synthetic opioid
Often combined with acetaminophen (Percocet tablets: typical is 325 mg acetaminophen and 5 mg of oxycodone)

Answer 157

A

Pure opioid antagonist
Drug of choice for the complete or partial reversal of opioid-induced respiratory depression
Indicated in cases of suspected acute opioid overdose
Failure of the drug to significantly reverse the effects of the presumed opioid overdose indicates that the condition may not be related to opioid overdose.

Answer 158

A

acetaminophen (Tylenol)

Answer 159

A

Blocks pain impulses peripherally by inhibiting prostaglandin synthesis.

Answer 160

A

Mild to moderate pain
Fever
Inability to take aspirin products

Answer 161

A

Maximum daily dose for healthy adults is 4 g/day, but Health Canada is considering lowering*
2 000 mg for older adults and those with liver disease
Inadvertent excessive doses may occur when different combination drug products are taken together.
Be aware of the acetaminophen content of all medications taken by the patient (OTC and prescription).

Answer 162

A

Should not be taken in the presence of following:
- Drug allergy
- Liver dysfunction
- Possible liver failure
- G6PD deficiency
Dangerous interactions may occur if taken with alcohol or other drugs that are hepatotoxic.

Answer 163

A

Even though available OTC, lethal when overdosed
Overdose, whether intentional or resulting from chronic unintentional misuse, causes hepatic necrosis: hepatotoxicity.
Long-term ingestion of large doses also causes nephropathy.
Recommended antidote: acetylcysteine regimen

Answer 164

A

Central acting analgesic
Treatment of moderate to moderately severe pain
Potential adverse effects: seizures (with excess dosages) and serotonin syndrome (if taken with SSRIs)
Frequently combined with acetaminophen (Tramacet)

Answer 165

A

Related to the marigold family
Anti-inflammatory properties
Used to treat migraine headaches, menstrual cramps, inflammation, and fever
May cause GI distress, altered taste, muscle stiffness, joint pain
May interact with aspirin and other NSAIDs, as well as anticoagulants

Answer 166

A

Perform a thorough pain assessment, including pain intensity and character, onset, location, description, precipitating and relieving factors, type, remedies, and other pain treatments.

Level of pain is now considered a “fifth vital sign.”
Rate pain on a 0–10 or similar scale.

Answer 167

A

Thyroxine (T₄)
Tri-iodothyronine (T₃)
Calcitonin

Answer 168

A

Regulate protein, lipid and carbohydrate metabolism
Assist with normal growth & development
Control thermoregulatory centre
Effect cardiovascular, neuromuscular, and endocrine systems

Answer 169

A

primary hypothyroidism

Answer 170

A

secondary hypothyroidism

Answer 171

A

tertiary hypothyroidism

Answer 172

A

Hyposecretion of thyroid hormone during adulthood
Decreased metabolic rate, loss of mental and physical stamina, weight gain, loss of hair, firm edema, yellow dullness of the skin

Answer 173

A

Cold intolerance
Unintentional weight gain
Depression
Dry, brittle hair and nails
- Fatigue

Answer 174

A

levothyroxine (Synthroid^®, Eltroxin^®, Euthyrox^®)ØSynthetic thyroid hormone T₄

Answer 175

A

Cardiac dysrhythmia

Answer 176

A

Enhance warfarin so reduce dose
Reduce efficacy of digoxin and insulin so increased dosage may be needed

Answer 177

A

Never discontinue abruptly
Give same time each day to maintain consistent blood levels
- Take in am to decrease insomnia
DO NOT INTERCHANGE BRANDS!
- Brands are not equivalent in dosing and can destabilize treatment

Answer 178

A

Graves’ disease
Multinodular disease
Plummer’s disease (rare)•
Thyroid storm (induced by stress or infection)•Severe and potentially life threatening

Answer 179

A

Diarrhea
Flushing
Increased appetite
Muscle weakness
Sleep disorders
Altered menstrual flow
Fatigue
Palpitations
Nervousness
Heat intolerance
Irritability

Answer 180

A

Liver and bone marrow toxicity

Answer 181

A

Radioactive iodine (I¹³¹): works by destroying the thyroid gland “ablation”
Surgery to remove all or part of the thyroid gland (Lifelong thyroid hormone replacement will be needed).
Antithyroid drugs: thioamide derivatives
Radioactive iodine (iodine 131)

Answer 182

A

leukopenia (manifested as fever, sore throat, lesions)

Answer 183

A

It may take 3-4 weeks for thyroid drugs to take effect

Answer 184

A

Hemostasis

Answer 185

A

Fibrinolysis

Answer 186

A

Initiates the breakdown of clots and serves to balance the clotting process

Answer 187

A

Hemophilia

Answer 188

A

Factor VII deficiency
Factor VIII deficiency or factor IX deficiency, or both

Answer 189

A

Inhibit the action or formation of clotting factors
Prevent clot formation

Answer 190

A

Inhibit platelet aggregation
Prevent platelet plugs

Answer 191

A

ØAlter platelet function without preventing the platelets from working

Answer 192

A

Lyse (breakdown) existing clots

Answer 193

A

Promote blood coagulation

Answer 194

A

True. Prevent intravascular thrombosis by decreasing blood coagulabilityUsed prophylactically to prevent:

ØClot formation (thrombus)

ØAn embolus (dislodged clot)

Answer 195

A

myocardial infarction

Answer 196

A

Pulmonary embolism

Answer 197

A

Deep vein thrombosis.

Answer 198

A

False; this is not needed.

Answer 199

A

Prevent clot formation for circumstance that may lead to stroke, heart attack, pulmonary embolism, DVT
Also used (both heparin & LMWs) as bridge therapy when a patient stops warfarin for surgery or other invasive procedures

Answer 200

A

Inhibits vitamin K synthesis by bacteria in the gastrointestinal tract
Action: inhibit vitamin K–dependent clotting factors II, VII, IX, and X which are normally synthesized in the liver
Final effect is the prevention of clot formation

Answer 201

A

Gradual reduction in platelets
- Heparin therapy can generally be continued.

Answer 202

A

Acute fall in the number of platelets (more than 50% reduction from baseline)
Discontinue heparin therapy.

Answer 203

A

Careful monitoring of the prothrombin time(PT)/international normalized ratio (INR)

Answer 204

A

A normal INR (without warfarin) is 0.8 to 1.2, but a therapeutic INR (with warfarin) ranges from 2 to 3.5, depending on the indication for use of the drug (e.g., atrial fibrillation, thromboprevention, prosthetic heart valve).

Answer 205

A

ØUsed for stroke prevention (you have seen low dose therapy of 81mg ECASA daily)

Answer 206

A

Shown to be better than aspirin at reducing number of MI’s, strokes and vascular deaths for at-risk patients* see notes section
Used for above issues plus preventing TIAs and post MI thrombotic prevention

Answer 207

A

Used to treat acute unstable angina, MI and during PCI (pericoronary interventions such as angioplasty)

Answer 208

A

Intravenous doses are usually double-checked with another nurse.
Ensure that subcutaneous doses are given subcutaneously, not intramuscularly.
Subcutaneous doses should be given in areas of deep subcutaneous fat, and sites should be rotated.

Answer 209

A

ØMay cause hematoma formation

Answer 210

A

Capsicum pepper
Garlic
Ginger
Ginkgo
St. John’s wort
Feverfew

Answer 211

A

insulin
hydromorphone hydrochloride
- heparin

Answer 212

A

Distraction and interruptions during the act of medication administration.

Answer 213

A

Recognizes that systems are generally at fault when error occurs
- Need for accountability
- Remediation of
  - Workplace culture
  - Reporting structure
  - Management behaviour
- When professionals do not follow policies or have repeated errors
  - Need for accountability
  - Remedial education

Answer 214

A

A general term that encompasses all types of clinical problems resulting from medication use.

Answer 215

A

central nervous system drugs
anticoagulants
chemotherapeutic drugs

Answer 216

A

TALLman lettering

Answer 217

A

Prescribing
Administering
Dispensing
Transcription

Answer 218

A

Organizational issues
Educational system issues
Sociological factors
Abbreviations

Answer 219

A

Near miss
- Did not reach the patient
- Results in no harm
No harm event
- Reaches patient
- Results in no harm
Medication Error
- Causes harm
Critical Incident
- Results in serious harm

Answer 220

A

Multiple systems of checks and balances should be implemented to prevent medication errors.
Prescribers must write legible orders that contain correct information, or orders should be entered electronically.
Authoritative resources such as pharmacists or current (within the past 3 to 5 years) drug references or literature must be consulted.
Nurses need to always check the medication order three times before giving the drug.
Faculty members should not be the student’s research source regarding medications.
The rights of medication administration should be used consistently.

Answer 221

A

Continuous assessment and updating of patient medication information:

Verification
Clarification
Reconciliation

Answer 222

A

A best possible medication history

Answer 223

A

At entry into the facility
Upon transfer from surgery
Into or out of the intensive care unit
At discharge

Answer 224

A

Very-low-density lipoprotein
- Produced by the liver
- Transports endogenous lipids to peripheral cells
Intermediate-density lipoprotein
Low-density lipoprotein (LDL)
High-density lipoprotein (HDL)
- Responsible for “recycling” of cholesterol
- Also known as “good cholesterol”

Answer 225

A

Hydroxymethylglutaryl–coenzyme A (HMG–CoA) reductase inhibitors (statins)
Bile acid sequestrants
B vitamin niacin (vitamin B₃, nicotinic acid)
Fibric acid derivatives (fibrates)
Cholesterol absorption inhibitor (Ezetrol^®)

Answer 226

A

Lower blood cholesterol levels by decrease rate of production
When less cholesterol is produced, the liver increases the number LDL receptors to recycle LDL from circulation
- Needed for synthesis of steroids, bile, cell membranes

Answer 227

A

Breakdown of muscle protein
Myoglobinuria: urinary elimination of the muscle protein myoglobin
Can lead to acute kidney injury and even death
When recognized reasonably early, rhabdomyolysis is usually reversible with discontinuation of the statin drug.
Instruct patients to immediately report any signs of toxicity, including muscle soreness or changes in urine colour (tea-coloured).

Answer 228

A

Oral anticoagulants
Drugs metabolized by CYP3A4

Answer 229

A

Dosed once daily, usually with the evening meal or at bedtime to correlate with diurnal rhythm

Answer 230

A

Prevent resorption of bile acids from small intestine
Bile acids are necessary for absorption
of cholesterol.
The more the bile acids are excreted, the more the liver converts cholesterol to bile acids, reducing cholesterol in liver and circulation
Commonly used as an adjunct to statin therapy

Answer 231

A

All drugs must be taken at least 1 hour before or 4 to 6 hours after the administration of bile acid sequestrants.
High doses of a bile acid sequestrant decrease the absorption of fat-soluble vitamins (A, D, E, and K).

Answer 232

A

It is also a vitamin (B3)

Lipid-lowering properties require much higher doses than when used as a vitamin.
Effective, inexpensive, often used in combination with other lipid-lowering drugs
Often given as adjunct to statins

Answer 233

A

Believed to work by activating lipoprotein lipase, which breaks down cholesterol
Also suppress the release of free fatty acid from adipose tissue, inhibit the synthesis of triglycerides in the liver, and increase the secretion of cholesterol in the bile

Answer 234

A

Inhibits absorption of cholesterol and related sterols from the small intestine
Results in reduced total cholesterol, LDL cholesterol, apolipoprotein B, and triglyceride levels
Also increases HDL cholesterol levels
Often combined with a statin drug
Can be used as monotherapy

Answer 235

A

Small doses of aspirin or NSAIDs may be taken 30 minutes before niacin to minimize cutaneous flushing

Brainscape's Knowledge GenomeTM

Pharm 251 - Quiz #2 - Final Flashcards

Brainscape's Knowledge Genome^TM