Chapter 10: Pulmonary Flashcards

Question 1

Q

Three main respiratory disorders that are responsive to treatment

Answer

A

Asthma Allergic rhinitis Cough

Question 2

Q

Respiratory disorders that are less responsive to treatment

Answer

A

COPD Chronic bronchitis

Question 3

Q

What are bronchodilators usually used for

Answer

A

treat reversible bronchospasm in asthma

Question 4

Q

What receptors do bronchodilators stimulate

Answer

A

beta-1, beta-2, alpha-1 adrenergic receptors

Question 5

Q

stimulation of beta-1

Answer

A

cardiac stimulation

Question 6

Q

stimulation beta-2

Answer

A

vasodilation and bronchial dilation

Question 7

Q

stimulation of aplpha-1

Answer

A

bronchodilation, vasoconstriction, pressor effects

Question 8

Q

What may occur if HR>130

Answer

A

ventricular arrythmias

Question 9

Q

prolonged administration or excessive dosing of bronchodilators can cause

Answer

A

metabolic acidosis d/t increase in serum lactic acid

Question 10

Q

Directions for MDI formulations

Answer

A

wait 3-5 minutes between inhalations shake inhaler before use

Question 11

Q

LABA stand for

Answer

A

long acting beta-2 agonists

Question 12

Q

LABA mechanism of action

Answer

A

Stimulates beta-2 receptor to causes relaxation of bronchial, uterine, vascular smooth muscle

Question 13

Q

LABA clinical uses

Answer

A

control reversible airway obstruction prevent exercise induces asthma prevent bronchospasm in COPD emphysema

Question 14

Q

Examples of LABAs

Answer

A

salmeterol (Serevent Diskus)

bitolterol (Tornalate)

formoterol (Foradil)

Question 15

Q

Can LABAs be used for acute asthma attacks

Question 16

Q

LABA contraindications

Answer

A

preexisting arrhythmias angina palpitations chest pain narrow angle glaucoma

Question 17

Q

Types of bronchodilators

Answer

A

LABAs

SABAs

Xanthine derivatives

Anticholinergics

Question 18

Q

Why are LABAs prescribed with corticosteroids

Answer

A

increased risk of asthma related death with monotherapy of one or the other

Question 19

Q

LABA pharmacokinetics

Answer

A

absorption: not much absorbed systemically as most action is in the lungs
distribution: 90% protein bound
metabolism: any that is absorbed systemically is metabolized by liver
excretion: varies half-life: varies

Question 20

Q

Formoterol onset, excretion, half-life

Answer

A

Onset: 1-3 minutes
Excretion: urine
Half-life: 10 hours

Question 21

Q

salmeterol onset, excretion, half-life

Answer

A

Onset: 20 minutes
excretion: feces
half-life: 3-4 hours

Question 22

Q

duration of all LABAs

Question 23

Q

Bitolterol excretion, half-life

Answer

A

excretion: feces and urine
half-life: 3 hours

Question 24

Q

LABA adverse reactions

Answer

A

CV: palpitations, tachycardia GI: nausea, heartburn, GI distress, diarrhea
META: hypoglycemia, hypokalemia PULM: cough, dry throat

Question 25

Q

Conscientious considerations for LABAs

Answer

A

excessive use causes tolerance

not monotherapy

dosing is critical in children

Question 26

Q

LABA interactions

Answer

A

beta-blockers can decrease effectiveness

tricyclics

lasix

Question 27

Q

what should be considered equally for patients older than 5 who have moderate persistent asthma or asthma not controlled on lows dose ICS

Answer

A

increasing ICS adding LABA

Question 28

Q

What is the recommendation for a a patient older than 5 with severe persistent asthma or asthma inadequately controlled on step 3 care

Answer

A

combination of ICS and LABA

Question 29

Q

what does SABA stand for

Answer

A

short acting beta-2 agonist

Question 30

Q

SABA mechanism of action

Answer

A

stimulate beta-2 receptors in the lung causing relaxation of bronchial smooth muscle

Question 31

Q

SABA clinical uses

Answer

A

acute asthma exercised induced bronchospasm COPD

Question 32

Q

Are SABAs recommended for daily use

Question 33

Q

Examples of SABAs

Answer

A

albuterol (Ventolin, Proventil)

metaproterenol (Alupent)

pirbuterol (Maxair)

terbutaline (Brethine)

levabuterol (Xopenex)

Question 34

Q

SABA contraindications

Answer

A

preexisting arrythmias

angina

narrow angle glaucoma

Question 35

Q

SABA pharmacokinetics

Answer

A

absorption: inhaled - gradually from bronchi, oral - rapid from GI tract
metabolism: liver
excretion: urine
half-life: inhaled - 2.7-5 hours, oral - 2-3.8 hours

Question 36

Q

onset of action for SABAs

Answer

A

15-30 minutes

Question 37

Q

What is the preferred agent to combine with ICS for patients 12 and older

Question 38

Q

SABAs adverse reactions

Answer

A

CV: HTN, tachcardia, palpitations, arrhythmias, chest pain, MI, increased BP followed by decresed BP, doaphoresis, chills, skin blanching
GI: N/V
NEURO: headache, nervousness, tremor, dizziness

Question 39

Q

SABA interactions

Answer

A

lasix

beta blockers

MAOIs

tricyclics

Question 40

Q

How long should you wait between SABA and MAOI

Question 41

Q

Are SABAs scheduled regularly

Answer

A

No

not advised for daily use only prn

Question 42

Q

indications of poor asthma control with SABAs

Answer

A

usage more than twice/week to control bronchospasm needing refills sooner than allowed

Question 43

Q

What is the first choice for asthma control

Answer

A

Albuterol d/t lower incidence of side effects

Question 44

Q

Xanthine derivatives mechanism of action

Answer

A

directly relaxes bronchial airways relaxes pulmonary blood vessels increases the force of contraction of diaphragmatic muscles

Question 45

Q

examples of xanthine derivatives

Answer

A

theophylline

aminophylline

Question 46

Q

xanthine derivatives clincal use

Answer

A

weak bronchodilators

reserved for patients who are on maximal therapy with safer medications

Question 47

Q

Xanthine derivative pharmacokinetics

Answer

A

absorption: rapid and complete orally distribution: freely in fat free tissues
metabolism: aminophylline to theophylline then to caffein in liver
excretion: renal half-life: 4-8 hours

Question 48

Q

Do Xanthine derivatives cross placenta

Answer

A

Yes, and enter breast milk

Question 49

Q

what increases half-life of xanthine derivatives

Question 50

Q

dosage of xanthine derivatives

Answer

A

titrate to keep serum levels at 5-12mch/mL

Question 51

Q

xanthine derivatives adverse effects

Answer

A

CV: arrhythmias, angine, palpitations, TACHYCARDIA
GI: N/V, anorexia, cramps, increased GI acid
NEURO: seizures, anxiety, headache, restlessness, tremors, CNS stimulation

Question 52

Q

xanthine derivatives interactions

Answer

A

caffeine, herbls (St. John’s Wort) and ephedra increase levels

beta blockers decrease levels

Question 53

Q

xanthine derivatives contraindications

Answer

A

hyperthyroidism

geriatric

obesity

preexisting arrhythmias

angina

palpitations

narrow-angle glaucoma smokers

Question 54

Q

xanthine derivatives conscientious considerations

Answer

A

can occur near usual therapeutic leves

levels should be monitored every 6-12 months and when condition changes

serious side effects can occur with no preceding signs

Question 55

Q

Xanthine derivatives patient education

Answer

A

hydration to minimize airway secretions

avoid OTC cough medicine

take with H2O if GI upset occurs

call if effect seems to be waning

Question 56

Q

anticholinergics mechanism of action

Answer

A

cause bronchodilation and inhibit nasal secretions

Question 57

Q

anticholinergic clinical uses

Answer

A

prevent acute bronchospasm (bronchitis)

emphysema

rhinorrhea

COPD

Question 58

Q

examples of anticholinergics

Answer

A

ipratropium (Atrovent)

tiotropium (Spiriva)

Ipratropium/albuterol (Combivent)

Question 59

Q

Ipratropium pharmacokinetics

Answer

A

absorption: not much systemic
metabolism: liver, if absorbed
excretion: feces half-life: 1.5-4h

Question 60

Q

tiotropium pharmacokinetics

Answer

A

absorption: not much systemic
metabolism: largely unchanged if absorbed
excretion: urine half-life: 5-6 days

Question 61

Q

anticholinergic adverse effects

Answer

A

EENT: worsen angle-closure glaucoma causing severe eye pain and blurry vision
GI: nausea
GU: worsen enlarged prostates and bladder neck issues
NEURO: headache
PULM: cough, dry nose/mouth, nasal irritation

Question 62

Q

anticholinergic interactions

Answer

A

ipratropium can create additive anticholinergic effects

Question 63

Q

anticholinergic contraindications

Answer

A

narrow angle glaucoma

enlarged prostate

bladder blockages

sensitivity to atropine

Question 64

Q

anticholinergic patient education

Answer

A

MDI: wait 3-5 min between inhalations and shake spiriva

wont work for acute attacks

do not use OTC decongestants for 3-5 days

Answer 59

A

itching/rash

swelling of lips/tongue/throat

blurry vision/halos d/t corneal and conjunctival congestion

Answer 60

A

inhaled corticosteroids

systemic-oral corticosteroids

Answer 61

A

inhaled corticosteroids

Answer 62

A

prophylactic asthma treatment

allergic rhinitis

Answer 63

A

anti-inflammatory effects are believed to be mediated through glucocorticoid receptors widely expressed in most cell types throughout the body

Answer 64

A

Beclomethasone (QVAR)

Budesonide (Pulmicort)

Flunisolide (Aerobid)

Triamcinalone (Azmacort)

fluticasone (Flovetnt)

mometasone (Asmanex)

Answer 65

A

Beclomethasone (Beconase)

Ciclesonide (Omnaris)

Triamcinolone (Nasacort)

Fluticasone propionate (Flonase)

Answer 66

A

if it is swallowed instead of rinsed, it is absorbed in GI tract

escapes first pass metabolism and enters circulation in active form

Answer 67

A

absorption: pulmonary, nasal, GI tissue
distribution: 87% protein bound
metabolism: extensive first pass metabolism in liver

Answer 68

A

excretion: feces
half-life: 15 hours

Answer 69

A

excretion: urine
half-life: 3.5-4 hours

Answer 70

A

excretion: urine
half-life: 1.3-1.7 hours

Answer 71

A

excretion: excreted in bile
half-life: 5.8 hours

Answer 72

A

excretion: multiple organs
half-life: 0.7 hours

Answer 73

A

EENT: intranasal: naal burning, mucosal dryness, localized fungal infections, sore throat, ulceration of nasal mucosa, bloody nose, nasal candidiasis, eye pain
MISC: acute allergic reaction manifests as urticaria, bronchospasm, and angioedema
PUL: inhalation: throat irritation, dry mouth, hoarseness, cough, transient bronchospasm, esophageal candidiasis
SYSTEMIC: osteoporosis, reduced growth in children, thining of skin, cataracts

Answer 74

A

anything that inhibits CYP450 will increase levels

Answer 75

A

hypersensitivity

Answer 76

A

preventing exacerbations of chronic asthma

Answer 77

A

suppress inflammation and normal immune response system

Answer 78

A

asthma (short term)

COPD

replacement therapy for adrenal insufficiency

CHron’s

Answer 79

A

hydrocortisone (Solu-Cortef)

prednisone (Deltasone)

methylprednisolone (Solu-Medrol)

Answer 80

A

serious fungal, viral, or tubercle skin infection

Answer 81

A

absorption: rapid from any site
distribution: 65-91% protein bound
metabolism: hepatic converts from inactive to active state
excretion: urine
half-life:
- prednisone: 2.5-3.5 hours
- methylprednisolone: 3-3.5 hours
- hydrocortisone: 1.5-2 hours

Answer 82

A

DERM: acne, facial flushing, delayed wound healing
ENDO: suppress growth (aldolescents), cause Cushing’s syndrome, induce DM
GI: heartburn, abdominal distention, increased appetitie, diarrhea, constipation
MISC: high dose can be immunosuppressive (monitor for infection)
NEURO: insomnia, nervousness, mood swing, psychosis

Answer 83

A

insulin/oral hypoglycemics (increases BG_

ethanol increased gastric mucosal secretions

Answer 84

A

take with food if GI upset

prevent side effects by rinsing mouth after dose

Answer 85

A

Leukotriene receptor agonists (LTA)

oxygenase inhibitors

monoclonal antibodies

mast cell stabilizers

Answer 86

A

inhibits antigen-induced bronchospasm

Answer 87

A

monitor for possibility of reduction of other astma medications in 2-4 weeks

not for acute attacks (prophylactic)

consider pretreatment with bronchodilators to increase effectiveness

Answer 88

A

Cromolyn (Intal)

nedocromolyn (Tilade)

taken off market in 2010 for depleting ozone

Answer 89

A

help reverse the ability of leukotriene to constrict airway smooth muscle through inflammatory processess

(asthma, allergy, airway edema/bronchoconsriction)

Answer 90

A

LTA

5-lipoxygenase inhibitors

Answer 91

A

montelukast (Singulair) - >12

zafirlukast (Accolate) - >5

Answer 92

A

blocks leukotriene’s recptor so the enzyme that responds to it to cause inflammation can’t

Answer 93

A

long-term treatment for mild persistent asthma

as part of combo therapy with corticosteroids for moderate persistent asthma

Answer 94

A

absorption: food reduces (take on empty stomach)
distribution: 90-99% protein bound (peak concentration in 3hr)
metabolism: liver CYP450 pathway
excretion: urine if metabolized, feces if not
half-life:
- zafirlukast: 10 hours
- montelukast: 2.5-5 hours

Answer 95

A

EENT: pharyngitis, rhinitis
GI: gastritis, GI upset, serious liver dysfunction (rare)
HEM: eosinophil condition
NEURO: headache, weakness
- PULM: cough, may cause CHURG-STRAUSS syndrome (rare pulmonary vasculitis)

Answer 96

A

impaired liver function or disease

Answer 97

A

take even during asymptomatic periods

not for acute attacks

regular PFTs will be needed

Answer 98

A

LFTs periodically during 1st year

ALT q3 months for 1st year, then periodically

Answer 99

A

Bind to IgE receptors on mast cells and eosinophils preventing release of mediators to the allergic response

reduces/prevents number of asthma exacerbations

Answer 100

A

moderate-persistent asthma if reactive to periennial allergens or are not controlled by ICS

Answer 101

A

omalizumab (Xolair)

Answer 102

A

absorption: SQ injection (slowly absorbed)
distribution: serum protein
metabolism: hepatic
excretion: hepatic and reticuloendothelial
- half-life: 26 days

Answer 103

A

DERM: urticaria at injection site
EENT: sinusitis, pharyngitis
MISC: malignant neoplasms, viral infections, ANAPHYLAXIS
NEURO: headache

Answer 104

A

may increase benefit and decrease cost

Answer 105

A

salmeterol/fluticasone (Advair)

albuterol/ipratropium (Combivent)

Answer 106

A

heart disease

HTN

CHF

siezures

allergies to soy (soybeans and peanuts)

Answer 107

A

clinical differences in potency

adjust dosing when switching from on to another

delivery device influences effect (MDI, DPI. etc)

Answer 108

A

antihistamines

antitussives

Answer 109

A

decrease histamine-mediated contraction of smooth muscle of the bronchi, intestine, and uterus

Answer 110

A

prevent allergic response mediated by histamine

Answer 111

A

diphenhydramine (Benadryl)

chlorpheniramine (Chlor-Trimeton)

Answer 112

A

certirizine (Zyrtec)

desloratidine (Clarinex)

allegra

claritin

Answer 113

A

antacids with calcium and magnesium will decrease absorption

Answer 114

A

No one is better than any other

Answer 115

A

absorption: rapid after oral
distribution: 60-70% protein bound
metabolism: minimal
excretion: feces and urine
half-life: wide ranging (p. 173)

Answer 116

A

CV: potential for QT elongation
GI: N/V, GI distress
GYN: dysmenorrhea
NEURO: somnolence, headache, fatigue

Answer 117

A

act on cough center in the medulla by elevating its threshold for the cough reflex

Answer 118

A

cough suppression

throat irritation

Answer 119

A

benzocaine in throat lozenges

Answer 120

A

dextromethorphan (Delsym)

guaifenesin/hydrocodone (Hycotuss)

diphenhydramine/dextromethorphan (Duratuss DM)

Answer 121

A

absorption: rapid from GI tract
distribution: into CFS
metabolism: liver
excretion: renal

Answer 122

A

GI: abdominal discomfort, constipation, GI upset, nausea
NEURO: dizziness, drowsiness

Answer 123

A

can cause MAOI toxicity

alcohol could cause respiratory distress

Answer 124

A

danger to children

dont drink alcohol

Answer 125

A

beclomethasone (Beconase AQ)

triamcinalone (Nasacort AQ)

budesonide (Rhinocort Aqua)

fluticasone (Flonase, Veramyst)

mometasone (Nasonex)

ciclesonide (Omnaris)

Answer 126

A

azelastine (Astelin) - antihistamine

ipratropium bromide (Atrovent) - anticholinergic

oxymetazoline (Afrin) - sympathomimetic

Answer 127

A

p. 175-176

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Chapter 10: Pulmonary Flashcards

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