Week 5 Flashcards

Question 1

Q

What are the indications for pulmonary pharmacological interventions?

Answer

A

• Reduce bronchospasm
• Reduce inflammation/allergic
reaction
• Reduce mucous production
• Treat bacterial infection
• Improve Oxygenation 
• Special Considerations:
  - Cough suppressant
  - Smoking cessation

Question 2

Q

What role does the sympathetic nervous system play in pulmonary?

Answer

A

Causes bronchodilation by increase cAMP, resulting in:
• Facilitates smooth muscle relaxation
• Inhibition of Mast Cells (inflammatory response and mucous production)

Question 3

Q

What role does the parasympathetic nervous system play in pulmonary?

Answer

A

Causes bronchocontrstriction by increasing cGMP resulting in:
• Facilitates smooth muscle constriction
• Facilitation of Mast Cells (inflammatory response and mucous production)

Question 4

Q

What is the primary method of drug administration to the lungs?

Answer

A

Primarily through inhalation (aerosol)

• May also be delivered orally or IV

Question 5

Q

What are the benefits of a Metered Dose Inhaler (MDI) or Dry Powder Inhaler (DPI)?

Answer

A

Rapid delivery and absorption of medication
Large Surface area
Delivered Directly to tissue
Less systemic effects

Question 6

Q

What are the limitations of a Metered Dose Inhaler (MDI) or Dry Powder Inhaler (DPI)?

Answer

A

Unable to predict exact dosage
Delivery is dependent on inspiratory flow
Can be irritating to tissues

Question 7

Q

How is an inhaler used properly?

Answer

A

• Shake for 2-5 seconds, remove cap, inspect inhaler
• If the inhaler hasn’t been used in a while, may need to prime it.
• Breathe out all the way.
• Start breathing in slowly through your mouth, then press down on the inhaler 1
time.
• Keep breathing in slowly, as deeply as you can.
• Hold breath and slowly count to 10.
• Wait about 1 minute before you take your next puff (Beta agonists only)

Question 8

Q

What is a spacer?

Answer

A

Also known as aerosol-holding
chambers, add-on devices and
spacing devices, long tubes that slow the delivery of medication from pressurized MDIs.

Question 9

Q

What are the characteristics of a spacer?

Answer

A

• Helps improve delivery of
medication.
• Often used for inhaled
corticosteroids and with younger patients

Question 10

Q

What is a nebulizer?

Answer

A

A device that mix drugs with air to form a fine mist that is inhaled through a mask

Question 11

Q

What are the characteristics of a nebulizer?

Answer

A

• Prolongs the delivery of the medication (10minutes)
• Originally thought to improve delivery of medication to distal bronchioles (Inconclusive)
• Useful for patients who cannot perform MDI technique correctly
- Young children
- Patients in acute distress

Question 12

Q

What are the general classifications of bronchodilators for pulmonary pharmacology?

Answer

A

(SNS) Adernergic Agonists (Sympathomimmetics)
(PNS) Cholinergic antagonists (Anti-cholinergic)
Methylxanthines

Question 13

Q

What are the characteristics of bronchodilator: Epinephrine (Epi-Pen)?

Answer

A

Non specific beta agonist
Used most often in emergent cases (anaphylaxis and sepsis/resp failure)
Can be delivered (IV, IM, SubCut or Inhalation)
Short time to effect 3-15minutes
Short peak effect time ~20minutes
Will affect other tissues with beta and alpha receptors

Question 14

Q

What are the characteristics of Bronchodilator Adernergic Agonist: SABA-Short acting (rescue)?

Answer

A

Albuterol (Ventolin) (most common)
Time to effect 5-15min
Duration: 3-6hrs

Question 15

Q

What are the characteristics of Bronchodilator Adernergic Agonist: LABA-Long acting (maintenance)?

Answer

A

Salmeterol (Serevent)
• Time to effect: 10-20minutes
• Duration: 12hrs

Question 16

Q

What are the side effects for Bronchodilator Adernergic Agonist?

Answer

A

Tachycardia,
Tremors
Nervousness,
Restlessness
Weight Loss

Question 17

Q

What does Bronchodilators: Cholinergic antagonists do?

Answer

A

Block the muscarine receptors in the bronchioles (LAMA)

Question 18

Q

What are the characteristics of Bronchodilators: Cholinergic antagonists?

Answer

A

• Drug of choice for COPD
• Not used as often for asthma
• Not absorbed well into bloodvstream
• Less side effects than Beta Agnonists
• Most Common:
   - Ipratropium (Atrovent) 3 4/day
   - Tiotropium (Spiriva) 1/day

Question 19

Q

What medicine provides a mix between SABA and LAMA?

Answer

A

Combivent
• Ipratropium bromide and
albuterol sulfate.

Question 20

Q

What are the characteristics of Bronchodilators: Methylxanthines?

Answer

A

Aka Xanthine deriviatives
• Common examples:
- Theophylline, Theobromine and caffeine
• Inhibit phosodiesterase enzyme
(PDE).
- Increases cAMP
- May also act as an adenosine antagonist
• Most common delivery route is oral, may also be injected (IV)

Question 21

Q

What are the side effects of Bronchodilators: Methylxanthines?

Answer

A

Tachycardia, HA, irritability, restlessness

* Theophylline Toxicity: can cause arrthymias and seizures

Question 22

Q

What is the mechanisms of action of anti-inflammatory: glucocorticoids?

Answer

A

Control inflammatory mediated bronchospasm
Inhibit production of pro-inflammatory products (cytokines, prostaglandins, leukotrienes etc)
Decreases vascular permeability
Immunosuppression: Inhibits migration of neutrophils and monocytes
Increases the effect of Beta Agonsits

Question 23

Q

What are the characteristics of inhaled anti-inflammatory: glucocorticoids?

Answer

A

Used often for long term maintenance of Asthma

• Budenoside (Pulmicort), Beclemethasone (Belcovent), Fluticasone (Flovent)

Question 24

Q

What are the characteristics of oral anti-inflammatory: glucocorticoids?

Answer

A

Used often with acute infections, or exacerbations, 1-3weeks max
• Prednisone

Question 25

Q

What are the characteristics of IV anti-inflammatory: glucocorticoids?

Answer

A

Use in severe asthma attacks (status asthmaticus) or respiratory distress
• Methylprendisolone (Medrol)

Question 26

Q

What are the side effects of anti-inflammatory: glucocorticoids?

Answer

A

Hyperglycemia, HTN, Osteoporosis, Myopathy, Mood Swings.

• Less side effects with Inhaled Delivery

Question 27

Q

What is the suffix for anti-inflammatory: glucocorticoids?

Question 28

Q

What do leukotrienes cause?

Answer

A

Airway hyperresponsiveness
Inflammation
Smooth muscle hypertrophy
Mucous secretion
Heavily involved in asthma

Question 29

Q

What are the characteristics of leukotriene inhibitors?

Answer

A

• Montelukast (Singulair)
   • Inhibits the effects of leukotrienes
  - Airway hyperresponsiveness
  - Inflammation
  - Smooth muscle hypertrophy
  - Mucous Secretion
• Great for Asthma, “OK” for COPD
• Delivered in pill form
• Enhance effects of glucocorticoids and allows for smaller dosages.
   - Often prescribed together

Question 30

Q

What are the characteristics of pulmonary fibrosis medications?

Answer

A

• Pirfenidone (Esbriet) and nintedanib (Ofev)
• Anti-Fibrotic medication
• Inhibit pathways that lead to fibrosis and scaring of lungs
- Suppress fibroblast proliferation, reduces fibrogenic mediator production,
• Prior to these medications there were no true IPF meds
- Oxygen and Steroids (not ideal)

Question 31

Q

What is histamine?

Answer

A

A endogenous chemical involved in regulating modulating several physiological functions:
• CNS neural modulation, gastric secretions and hypersensitivity reactions
• 4 receptor subtypes (H1-H4)
• H1 are involved with the respiratory system and
hypersensitivity
- Nasal Congestion, sinusisitis, rhinitis, mucousal
irritation,

Question 32

Q

What are effects of antihistamines?

Answer

A

Block these receptors, most are non specific

Question 33

Q

What are the side effects of antihistamines?

Answer

A

Sedation, fatigue, dizziness,

incoordination

Question 34

Q

What is the most common form antihistamine?

Answer

A

Diphenhydramine (Benadryl)

Question 35

Q

What is the function of nasal decongestants?

Answer

A

Relieve nasal congestion in the upper respiratory tract

Question 36

Q

What is the most common nasal decongestants?

Answer

A

Alpha-1 agonist

Question 37

Q

What are the characteristics of nasal decongestants?

Answer

A

Pseudoephedrine (Sudafed)
• Causes vasoconstriction in nasal
passages
• Essentially “dries up” muscousal
vasculature and reduces nasal
congestion
• Oral or Nasal Spray

Question 38

Q

What are the functions of mucolytics?

Answer

A

Decrease viscosity (thickness) of respiratory secretions

* Allows for easier mobilization of secretions up the “muco-cilliary elevator”

Question 39

Q

How are mucolytics delivered?

Answer

A

Often delivered orally
• Guanefisine (Mucinex)
• Guanefisine and antitussive
(Robitussin)
  - dextromethorphan (DM)
  - Codeine (DAC)

Question 40

Q

What are the functions of antitussive?

Answer

A

Suppress coughing response/ reflex

• Due to irritation in airways and sinuses

Question 41

Q

What are the characteristics of antitussive not always being indicated?

Answer

A

• Makes it difficult to get rid of the mucus that
collects in the lungs and airways.
• May increase secretions
• Asthma and young children

Question 42

Q

What are the general types of antitussive?

Answer

A

• Central mediated inhibition: codeine and dextromethorphan (DM)
- Opiates, Act on brainstem
• Local mediated inhibitors: Antihistamines and local anesthetics
- Act on respiratory tissue

Question 43

Q

What are the functions of antibiotics?

Answer

A

• Treatment of acute exacerbation or infection
- Increased dyspnea, Increased chest congestion AND FEV1 < 50%.
• Treatment of acute bronchitis or pneumonia
• Prevention of acute exacerbation (prophylactic antibiotics)

Question 44

Q

What are the most common forms of antibiotics?

Answer

A

• Bactericidal
- Penicillins: Penicillin and Amoxicillin,
- Cephalosporins: Ciprofloxacin (Cipro)
• Bacterostatic:
- Macrolides: Azithromycin (Zpack)

Question 45

Q

What are the characteristics of influenza vaccines?

Answer

A

• Reduce serious illness and mortality in patients with COPD
• GOLD and CDC recommends annual vaccine for:
- Patients with COPD
- Patients with pulmonary fibrosis
- Patients with asthma >6months of age
- The elderly, ages >50years of age
- Young Children, ages 6months-4years of age
- Health-care personnel
- Morbidly Obese patients BMI>40
- Immunosuppressed patients

Question 46

Q

What are the indications for oxygen therapy?

Answer

A

Hypoxemia
Reduce work of breathing
Reduce work of the heart (especially RV)

Question 47

Q

What type of patients is oxygen therapy typically for?

Answer

A

For patients with Pulse Oximetry <88% or SpO2 <55mmHg
• May also be prescribed for patients with PAH and RV HF
• Patients with chronic COPD may have different guidelines

Question 48

Q

What is the general pulse oximetry goal for patients on oxygen therapy during exercise?

Answer

A

Above 90%

Question 49

Q

____ is the main risk factor in the development of COPD

Answer

A

Smoking is the main risk factor in the development of COPD

Question 50

Q

What are the benefits of smoking cessation?

Answer

A

Improves Respiratory symptoms
Reduces Bronchial hyperresponsiveness
Prevents accelerated decline in lung function and may improve FEV1.
In all smokers

Question 51

Q

How fast does lung function improve when someone stopped smoking?

Answer

A

Within a week

Question 52

Q

What predicts the difficulty of smoking cessation?

Answer

A

How much one smokes on a daily basis

* Within 30 minutes of waking up each day.

Question 53

Q

What are medications usually prescribed to help with during smoking cessation?

Answer

A

Help reduce the craving for tobacco; Bupropion (Zyban)
Help reduce withdrawal symptoms; Varenicline (Chantix).
Nicotine replacement therapy: most helpful for people who smoke >.75PPD

Question 54

Q

How do we assess respiratory muscle strength?

Answer

A

By measuring Maximum Inspiratory (MIP & Expiratory Pressure (MEP)

Question 55

Q

How do we assess Chest Wall Mobility?

Answer

A

Posture, Chest wall excursion, Rib and Thoracic Spine

Mobility

Question 56

Q

How do we assess Respiration?

Answer

A

Arterial Blood Gases (ABG), Pulse Oximetry (SpO2)

Question 57

Q

How do we assess Ventilation?

Answer

A

Spirometry (FVC and FEV1), Respiratory Rate (RR),

Question 58

Q

How do we assess Lung Segment Examination?

Answer

A

Fremitus, Voice Sounds, Breath Sounds

Question 59

Q

How do we assess Cough function?

Answer

A

Independence, Sputum Assessment

Question 60

Q

How do we assess Quality of Life and Subjective Report?

Answer

A

VAS, RPE, MMRC Dyspnea Scale, St George’s Respiratory Scale, Dyspnea Index

Question 61

Q

How do we assess Exercise Capacity?

Answer

A

6MWT, Max Test, Submax

Question 62

Q

How do we assess Balance?

Answer

A

BERG, POMA, DGI, BEST

Question 63

Q

How do we assess Mobility?

Answer

A

5 or 10m Gait Speed, TUG,

Question 64

Q

How do we assess Strength?

Answer

A

5Ttime Sit to Stand, 30 Sec Sit to stand

Answer 64

A

Disposition: Distress, Short of breath, Somnolent etc

* Skin: Edema, JVD, Cyanosis, Sweating

Answer 65

A

Normal, Barrel Chest, slouched, guarding, pes escavatum or Pectus carinatum

Answer 66

A

• Rate and Depth
- Neck, Chest, Abdomen
• Accessory muscle usage
• Asymmetrical Paradoxical Chest Wall Movements
• Nasal Flaring
• Pulse Oximetry RA or with supplementation

Answer 67

A

• Have the patient flex neck slightly
• Place your index finger in the suprasternal notch
• Place the top of finger in suprasternal notch medial to left SC joint.
• Push inwards toward the cervical spine
• Repeat on right side
• Normal test
- No obstruction to the advancement of the finger.
• Most Common Cause of deviation: Midline shift due to Pneuomothorax (moves away from lesion)

Answer 68

A

If there is chest pain, a mass seen on inspection, breast masses, or draining sinuses.

Answer 69

A

• Examine for tenderness and masses
- Soft tissues (also assess for crepitus
- Large thoracic muscles
- Costal cartilages, intercostal spaces, costochondral junctions and xiphisternal
• Palpate the ribs for point tenderness, swelling, crepitus, and pain on chest compression.

Answer 70

A

With one hand supporting the back, compression of the sternum with the other elicits pain at the untouched fracture site.

Answer 71

A

• Place a hand on each side of the chest wall
• Extend thumbs so their tips meet in the midline.
• Have the patient inspire deeply permitting your palms to move freely with the chest while your fingers are anchored on the chest wall.
• Normally, the thumbs move laterally from midline in equal distances.
• Asymmetric excursions suggest a lesion on the lagging side in the chest wall,
the pleura, or the upper lobe of the lung.

Answer 72

A

Trapezius

Answer 73

A

Latissimus Dorsi

Answer 74

A

Lateral Ribs

Answer 75

A

Place measuring tape around chest wall
• Xiphoid process is Most reliable landmark
• May also use Axilla and interval between
xiphoid and umbilicus
• Normal excursion is 2-3inches or 4-6cm

Answer 76

A

• Increased transmission of sound, can be detected as fremitus over the affected area
while the patient repeatedly vocalizes
- “one, two, three” or “99”
• The examiner moves his or her palms systematically over the two hemithoraces.
• Common Causes of increased fremitus (Vibration)
- Consolidation of the lung
• Conversely, impairment of sound transmission, as by a pleural effusion, diminishes
vocal fremitus.
• A good test to start chest exam
- Not very specific however due to size of hands
- If differences are appreciated always follow up with auscultation

Answer 77

A

Evaluates regional or side-to-side differences in lung density
• Normal lung density willsound resonant (table)
• Areas of increased density (e.g. consolidation, atelectasis) will sound dull. (quads)
• Areas of decreased density (e.g. emphysema) will sound hyperresonant. (puffed out cheeks or bloated belly)

Answer 78

A

• Place pad of middle finger of non dominant hand on the subject’s chest in the intercostal space.
• Using the middle finger of your dominant hand, tap the knuckle of the middle finger of
your non dominant hand .
- Keep Percussing finger rigid, tap like woodpecker
• Listen for the pitch of the sound produced and note the vibrations from the chest with your finger

Answer 79

A

Inflammatory cells, enter the airways and alveoli in response to lower airway infection.
May be yellow, green, or dirty gray.

Answer 80

A

Acute bronchitis, resolving pneumonia, small tuberculous cavities, or lung abscess

Answer 81

A

Bacterial Pneumonia, Lung abscess, bronchiectasis, or bronchopleural fistula communicating with an
empyema.

Answer 82

A

Anaerobic infection (PNA) and/or lung abscess.

Answer 83

A

Increased mucous production and mucous plugs occur in asthma; during resolution retained mucous and mucous plugs are mobilized.

Answer 84

A

Coughing up blood or bloody mucous

* Hallmark sign of Pulmonary Embolism, may also occur with trauma, pneumonia

Answer 85

A

inflammation in the nose, nasopharynx, gums, larynx, or bronchi.
Sometimes it occurs after severe paroxysms of coughing and minor airway trauma

Answer 86

A

Alveoli and respiratory bronchioles are flooded with fluid from the capillaries
Producing thin secretions containing air bubbles, frequently colored with hemoglobin.
Hallmark sign of pulmonary edema

Answer 87

A

Patient lays supine with anterior chest exposed
Palpate anterior chest well with thumbs over costal margins so tips meet at xiphoid
Instruct patient to sniff of take deep breath, allow thumbs to move with chest wall
Normal test is equal upward movement of the costal margins

• ***Can also be done in sitting using percussion and markings pre and post
inspiration,
• Normal should see ascent to T10 expiration, descent to T12 inspiration

Answer 88

A

My having the subject expire
to a residual volume (RV) (ie, fully expire) and then perform a maximum inspiratory maneuver.
• Opposite for Expiratory Pressures

Answer 89

A

As the most negative (MIP) or positive (MEP) pressure attained after the first second of effort

Answer 90

A

One that demonstrates a 2-s plateau of inspiratory effort. Take average of 3 trials, values should be within 10% of largest measure

Answer 91

A

Effort and understanding of test, age, gender, height, weight, fitness level and smoking status

Answer 92

A

Type of mouthpiece, presence of a small leak, number of trials and lung volume at the starting point of test performance

Answer 93

A

To assess the strength of the diaphragm

Answer 94

A

Indirectly measures the oxygen saturation of hemoglobin in
arterial blood (SpO2)
• SaO2 is a direct measurement of oxygensaturation, taken from ABG

Answer 95

A

95% – 100%

• Percent error of 90%

Answer 96

A

Bright ambient light on probe
Nail thickness (including nail polish)
Skin pigmentation
Low peripheral perfusion states
Hypoxemia (<80% SaO2)
Motion artifact
Carbon monoxide poisoning

Answer 97

A

12-20 breaths/min

Answer 98

A

Respiratory rate above 20 breaths/min

Answer 99

A

Respiratory rate above 12 breaths/min

Answer 100

A

Max volume air contained in lung at end of max inspiration, 5-7L

Answer 101

A

Maximum volume of air that can be expired in single breath after max inspiration,
Men: 5.0L; Women 3.8L,
FVC = maximally forced VC

Answer 102

A

Amount of air expired in first second of FVC; normal 80%

Answer 103

A

Normal breath; volume gas expired during unforced respiratory cycle (one breath), 0.4-0.7L

Answer 104

A

Amount of air expired per min (TV x RR), 4L/min; The Cardiac Output of Ventilation

Answer 105

A

Amount of air remaining in lungs after max expiration: 1L

Answer 106

A

Diffusion Capacity,: Normal >80%

Answer 107

A

Volume of additional air that can be inhaled after a normal tidal breath in

Answer 108

A

Volume of additional air that can be pushed out after the end expiratory level of normal breathing

Answer 109

A

Volume of gas that remains in lungs at end of normal tidal breath outequilibrium point (ERV + RV)

Answer 110

A

• Haemoptysis (of unknown origin)
• Pneumothorax
• Unstable cardiovascular status, recent myocardial infarction or pulmonary
embolism
• Thoracic, abdominal or cerebral aneurysms
• Recent eye surgery
• Acute disorders affecting test performance, such as nausea or vomiting
• Recent thoracic or abdominal surgical procedures

Answer 111

A

Age
Height
Gender
Ethnicity

Answer 112

A

• Patient must inhale maximally to total lung capacity, then blast the air out
• There should be no cough or hesitation during the first second of the maximal exhalation
• The patient must continue to exhale forcefully for at least 6 seconds and until a plateau is reached (3 seconds for children under age 10)
• The largest and second largest FVC and FEV1 values should be repeatable within 150 ml (100 ml if the FVC is less than 1.00 L)
• A minimum of 3 acceptable trials is required
• The largest FVC and FEV1
from acceptable efforts are reported; the FEV1/FVC is calculated from these values

Answer 113

A

Sit upright: there should be no difference in the amount of air the patient can exhale from a sitting position compared to a standing position as long as they are sitting up straight and there are no restrictions.
Feet flat on floor with legs uncrossed: no use of abdominal muscles for leg position.
Loosen tight-fitting clothing: if clothing is too tight, this can give restrictive pictures on spirometry (give lower volumes than are true).
Dentures normally left in: it is best to have some structure to the mouth area unless dentures are very loose.
Use a chair with arms: when exhaling maximally, patients can become light-headed and possibly sway or faint

Answer 114

A

• Different techniques for performing spirometry.
• Before performing the forced expiration, tidal (normal) breaths can be taken first,
then a deep breath taken in while still using the mouthpiece, followed by a further quick, full inspiration.
• Or; Alternatively, a deep breath can be taken in then the mouth placed tightly
around the mouthpiece before a full expiration is performed.
• Or; The patient can be asked to completely empty their lungs then take in a quick
full inspiration, followed by a full expiration.
• The patient takes a deep breath in, as large as possible (using whichever technique most effective), and blows out as hard and as fast as possible and keeps going until there is no air left.
• Nose clips are essential for as air can leak out

Answer 115

A

• 24 item, Interviewer-administered rating of severity of dyspnea at a single state across 3 domains
• TDI measures changes in dyspnea severity from the baseline as established by
the BDI.
• Provides a multidimensional measurement of dyspnea based on 3 components
that evoke dyspnea in activities of daily living, in symptomatic individuals.

Answer 116

A

A concise measure of health related quality of life

Answer 117

A

MMRC dyspnea scale. May detect changes in QoL faster

than GOLD classifications

Answer 118

A

Grade of dyspnea 0: Not troubled by breathlessness except on strenuous exercise
Grade of dyspnea 1: Shortness of breath when hurrying on the level or walking up a slight hill
Grade of dyspnea 2: Walks slower than people of the same age on the level because of breathlessness or has to stop for breath when walking at own pace on the level
Grade of dyspnea 3: Stops for breath after walking about 100, or after a few minutes on the level
Grade of dyspnea 4: Too breathless to leave the house when dressing or undressing

Answer 119

A

• 50 question, Disease-specific instrument designed to measure impact on overall health, daily life, and perceived well-being in patients with obstructive
airways disease.
• Scores range from 0 to 100, with higher scores indicating more limitations.
• MCID: a mean change score of 4 units is associated with slightly efficacious treatment, 8 units for moderately efficacious change and 12 units for very efficacious treatment

Answer 120

A

Find the clavicle and go right above it. In the middle of the belly of the upper trap

Answer 121

A

Find the clavicle and move straight down, right below the angle of louie

Answer 122

A

Find the xiphoid, and move superior lateral to it. AN inch over and up

Answer 123

A

Start at the xiphoid, and go all the way after the clavicular line almost to the mid axillary line

Answer 124

A

Right above the spine of the scapula, over the posterior belly of the trap

Answer 125

A

Find the spine of the scapula, come lateral to almost mid spine of the scapula. Have the patient give themselves a hug to move the bone out of the area. Right around T3

Answer 126

A

Find the border of the scapula, then come up. Right between the spine of the scapula and the inferior angle. More para-sternally. Between T4 and 7

Answer 127

A

Go to the inferior angle of the scapula, and go straight down. In rib spaces 7, 8, 9, and 10, before the mid line of the scapula

Answer 128

A

Have patient take deep breaths through the mouth while you listen through one complete respiratory cycle (inspiration and expiration) in each locations, segment by segment.
Listen from side to side, comparing the sounds and noting any differences.
Breath sounds in the same area of the lung should sound the same of the right and left side.

Answer 129

A

Over the trachea
- They are a bit higher pitched, and we hear more expiration than inspiration, because the bore of the airway is wider, so more air flow because it is more turbulent

Answer 130

A

Where we appreciate the 1st divisions of the bronchiole tree, which is around the angle of louie. At the manubrium and upper interscapular region.

Where they are a bit more harsher. moderately loud, medium pitch, rustling
1: 1 ratio exp:insp

Answer 131

A

Primarily over the lungs fields, at the Peripheral lung fields
- Hear air going through the small airways of the alveoli in the respiratory bronchioles. Only hear inspiratory sound, may not hear expiratory sound, because there is not a lot of air flow there due to the smaller airway, there is not as much flow here compared to the proximal segments

Answer 132

A

Loud, high pitch, tubular

- 1:2 ratio exp:insp

Answer 133

A

Soft, low pitched, and with a gentle rustling quality

- May not appreciate expiration phase

Answer 134

A

Air or fluid in or around the lungs (pneumonia, heart failure, and pleural effusion)
Over-inflation (emphysema)
Reduced airflow to part of the lungs (rib fracture, pneumorthorax)
Increased chest wall thickness

Answer 135

A

• Normally breath sounds in peripheral fields are vesicular
• Bronchiovesicular in peripheral fields indicate
- Partial pulmonary consolidation or compression transmitting airway sounds with increased efficiency.
- Usually heard on periphery of consolidation or compression
• If Compression or consolidation increases breath sounds become bronchial in nature.

Answer 136

A

Faint and the syllables indistinct, except over the main bronchi.

Answer 137

A

Consolidation, atelectasis, or fibrosis, which improve sound transmission

Answer 138

A

Detecting pulmonary consolidation, and atelectasis. Whispered tend to be better than spoken for detecting subtle differences

Answer 139

A

A form of bronchophony in which the spoken “Eee” is changed to “Ay,”

Answer 140

A

When spoken syllables are normally heard indistinctly, with lung consolidation syllables are distinct and sound close to the ear.

Answer 141

A

When consolidations transmit whispered syllables distinctly, even when too small to produce bronchial breathing

Answer 142

A

The “popping”; opening and closing of alveoli compressed by fluid (atelectasis)

Answer 143

A

During (inspiration). Sounds like Velcro

Answer 144

A

Atelectasis and Pneumonia
Typically present in one lung field
Resolves with coughing or deep breaths

Answer 145

A

Pulmonary Edema from HF
Present in bilateral lungs fields (especially bases)
Does not resolve with coughing or deep breaths
Resolves with sidelying positioning

Answer 146

A

Obstruction to airway flow, Asthma, mucous in airway, airway inflammation, tumor, or obstructing foreign bodies

Answer 147

A

Typically considered an expiratory sound due to forcing airflow through abnormally narrow or collapsed airways. May occur during both inspiration and expiration in asthma
- Non-cardiogenic should decrease with cough

Answer 148

A

Foreign body in the upper airway or esophagus, an acquired lesion of the airway (e.g., carcinoma in adults)

Answer 149

A

Wheeze-like sound
Usually due to a blockage/obstruction of airflow in trachea, upper airway or in the back of the throat.
Predominantly inspiratory and best heard over the neck.

Answer 150

A

Coarse, grating, or leathery sound

- Usually heard late in inspiration and early in expiration

Answer 151

A

Posterior lung bases or lower axilla

Answer 152

A

Increased friction due to Inflammation of the pleural linings, multiple causes

Answer 153

A

Bronchial breath sounds in periphery

Answer 154

A

Coarse crackles, expiratory wheezing

Answer 155

A

Decreased

Answer 156

A

Inspiratory and expiratory wheezes

Answer 157

A

Coarse crackles, wheezes that clear with cough

Answer 158

A

Decreased sounds over consolidation, Bronchial sounds in periphery.

Answer 159

A

Inspiratory crackles

Answer 160

A

Decreased to absent

Answer 161

A

A-airway
B-bone
C-cardiac
D-diaphragm
E&F-equal (lung) fields
G-gastric bubble
H-hilum (and mediastinum)

Answer 162

A

A PA (posterioranterior) and lateral chest x-ray.
• The PA exam is viewed as if the patient is standing in front of you with their right side on your left.
• The patient is facing towards the left on the lateral view

Answer 163

A

• Look at the trachea and its branches: check the 4’s
- Site, size, shape, and shadow (4 S’s).
• Is it patent, or narrowed indicating stenosis or Edema?
• Is it central? (in children it should be straight but in adults it can deviate to the
right due the aortic arch)

Answer 164

A

• Look at and compare the bony structures paying attention to site, size, shape,
shadows and borders:
- (clavicles, ribs, scapulae, thoracic vertebrae, and humeri).
• Fractures? Using a pointer follow along the smooth edges of each bone looking for an interruption of the smooth line.
• Lytic lesions? Look for discrete darker areas or a change in bone density.
• Deformity? Extra or missing bones?

Answer 165

A

• Site: is it located on the right or left?
• Size: is it less than half the transthoracic diameter? (i.e. is the largest diameter
of the heart less than half the largest diameter of the thorax)
• Shape: is it ovoid with the apex pointing to the left?
• Shadows: any change in density?
• Borders: is it clear or well defined?
- unclear right border suggest middle lobe consolidation.
- unclear left border suggest lingular lobe consolidation.

Answer 166

A

• The outline of the diaphragm should be clear and smooth.
• Right hemidiaphragm should be higher (2-3cm) than the left
• Are the costophrenic angles well defined?
- whiteness immediately above the diaphragm indicates pleural effusion or consolidation.
- the presence of fluid will produce a meniscus (Meniscus Sign) or a concave upper border
• Is there air below each hemidiaphragm indicating bowel perforation?
• Is the diaphragm below the anterior end of the 6th rib on the right?
- Indicates hyperinflation

Answer 167

A

• Divide lung fields into zones: upper, middle, and lower zones
- upper: from the apex to 2nd costal cartilage
- middle: between 2nd and 4th costal cartilage
- lower: between 4th and 6th costal cartilage
• Look for equal radiolucency (or blackness due to air filling) between the left and the right
lungs zones.
• Look for any discrete or generalized grey/white shadows (described as opacity/patchy
shadows)
• Look for vascular markings:
- indicating pulmonary hypertension pruning
• Bat’s wing distribution: bilateral opacification spreading from the hilar regions into the lungs
- pulmonary edema in heart failure, fluid overload, hypoproteinemia, blood transfusion reaction, and others

Answer 168

A

• GASTRIC FUNDUS
- Look for an air bubble under the left hemidiaphragm.
• Look for diaphragmatic hernia on the right or left.
• Look at the hilum (which consists of main bronchus and pulmonary arteries) -the left
should be higher than the right.
• Compare the convex shapes and densities on both sides.
• The paratracheal lines are thin lines of the right and left tracheal margins which are
thickened in lymphadenopathy

Answer 169

A

They are both fluid in the lungs, however pleural effusion is restricted to one side, while pulmonary edema is bilateral

Answer 170

A

An airway clearing technique, where you breathe in slowly through the nose, hold the breath for 3 secs, and then exhale with an open mouth

Answer 171

A

If moves mucus from the small airways up into the larger airways, then a deeper breath followed by a forceful exhale moves the mucus from the larger airways, out of the lungs, then you cough to clear the mucus out of the airways

Answer 172

A

It is designed to get air behind the mucus, making it easier to cough up

Answer 173

A

Breathing control: gently breathe in through your nose, to relax the airways.
Chest expansion exercise: inhale deeply and hold the breath for 3 secs, which will get air behind the mucus, and loosen it, making it move up into the larger airways more easily
Forced expiratory technique: huff-cough to move the mucus from the larger airways and out of the body

Answer 174

A

A technique that uses controlled breathing in 3 phases

Answer 175

A

Phase 1: take in shallow breaths, to unstick mucus from the sides of the small airways
Phase 2: collect mucus by holding breath for 3 secs
Phase 3: move mucus out of the airway with a hard huff- cough

Answer 176

A

When another person uses cupped hands and percussion to loosen mucus from airways, this happens while the patient lies in position that uses gravity to drain the mucus from smaller airways, the patient then huffs or coughs the mucus out of their lungs

Answer 177

A

Works by compressing the chest in and out to create airflow, which loosens mucus from the airway walls

Answer 178

A

Uses resistance to open the airways and get air behind the mucus, loosening it and moving it from smaller airways to larger ones, where it is huffed or coughed out

Answer 179

A

Resistance forces airways to open, the vibrations from the device, called oscillations also shake mucus, loosening it from the airway walls, once the mucus has moved up into the larger airways, patient huff-cough it out of the airway

Answer 180

A

Hemoptysis
Untreated tension pneumothorax
Platelet count < 20,000 per mm^3
Unstable hemodynamic status
Open wounds or burns in the thoracic area
Pulmonary embolism
Subcutaneous emphysema
Recent skin grafts or flaps on thorax

Answer 181

A

Uncontrolled bronchospasm
Osteoporosis
Rib fractures
Metastatic cancer to ribs
Rumor obstruction of airway
Anxiety
Coagulopathy
Convulsive or seizure disorder
Recent pacemaker

Answer 182

A

Place one hand over the other, and move upper hand side to side for 2-3 mins, with gentle to high frequency force, at 12-20 Hz
Applied throughout expiration, if performed during ventilation, coordinate with the ventilator

Answer 183

A

Similar to vibration, but it is more aggressive, but with bouncing movement rathe r than side to side movements. Apply for 2-3 mins during expiration at a frequency of 2 Hz

Answer 184

A

Primarily during expiration, and its due to the fact that the inspiratory pressures and inter-pleural pressures are much higher than inter- pulmonary pressures, which results in collapse

Answer 185

A

Consists of exhaling through tightly pressed (pursed lips) and inhaling through nose with mouth closed.

Answer 186

A

• The patient inhales through their nose, keeping
their mouth closed.
- Trying to inhale for 2 seconds.
• Exhale slowly through pursed lips,
- Trying to exhale for 4 to 6 seconds.
- “Make the birthday candles flicker but don’t blow them out”
- “Blowing on hot soup

Answer 187

A

• Improves Ventilation
• Reduces respiratory rate
• Prevents premature airway collapse by increasing back pressure (positive pressure) in
airways
• Prolonging the breathing cycle, may allow for greater opportunity for diffusion at the alveolar capillary interface.
• Slowing respiration may be relaxing and thus reduce anxiety
• Great for patients with COPD!!!

Answer 188

A

DSB, 6-8breaths/min, has been shown to improve symptoms of pain, both chronic and acute.
Autonomic responses such as increased heart rate variability and reduced skin conductance (markers of increased parasympathetic tone) have been observed following DSB,
More recent evidence suggests that the effects of DSB are likely more due to achieving a relaxed state or distraction from the noxious stimuli.
Therefore these changes in autonomic activity in following DSB are more likely a reflection of supraspinal activity due to achieving a relaxed or non-threatened state than the cause.
In short, breathing slowly and controlled may relax a patient and improve pain rating and the changes in autonomic function are reflection of that change not the mechanism.

Answer 189

A

• Manual contacts to the thoracic wall
- Quick stretch or sustained facilitatory proprioceptive stimulus.
- “Breathe Into my Hands”
• Often used to facilitate breathing in the lower lateral segments in patients with
impaired chest wall expansion.
- Commonly referred to interchangeably as “Diaphragmatic breathing”
- Not too effective for patients with COPD
• Often done in semi-fowlers position to allow for better diaphragm movement
• Can also be done on individual segments elsewhere on the chest well
- “Segmental Breathing”
• Can be done by provider or patient

Answer 190

A

• Volitional coordination of breathing during activity.
• Expiration is primarily a passive activity.
- Having a patient expire during exertion may prevent dyspnea during an activity
• Example
- Inhale while walking 2 steps then, Exhale while walking 4 steps, and repeat
- Take a deep breath to start and exhale while climbing 2 stairs, and repeat
• Often used incorporating PLB, DSB or “Diaphragmatic Breathing” into functional
activities.

Answer 191

A

• Used often over areas of chest wall that are painful
- Post-operative site, rib fracture etc
• The sustained supportive pressure can stabilize or brace the segment of the
chest wall
- Allows for better ventilation
- Reduces atelectasis
• Can be done by provider or patient
- Can use hands or pillows

Answer 192

A

• With the arms supported the
accessory muscles can act on the chest wall and allow for greater ventilation.
• Supporting the spine may “unload” the diaphragm from it’s postural control role

Answer 193

A

Cystic Fibrosis
Asthma
COPD; especially Chronic Bronchitis
Bronchiectasis
Acute Pulmonary Diseases
Mechanical Ventilator Dependency
Status Post Surgery

Answer 194

A

Improved SaO2 or SpO2
Decreased Respiratory rate
Decreased Dyspnea
Resolution of pathological breath sounds
Improved chest radiograph
Improved Spirometry

Answer 195

A

Rhythmically percussing the chest wall with cupped hands.

Answer 196

A

• Hand should be firm with thumb adducted, wrists and elbows loose
- Motion comes from shoulder
- Wrist acts like a whip almost
- Should hear hollow thumping or cupping noise
- Slapping sounds indicate poor technique
• Percussion 3-5 minutes each segment
• Effective treatment to all segments can take up to 30-45minutes

Answer 197

A

• The palmar aspect of the clinicians hand is placed in full contact with the chest wall.
- May use hand over hand technique
• At the end of a deep inspiration the clinician exerts
a downward pressure while performing an isometric contraction the arm through expiration.
- This isometric contraction creates the vibration and
helps mobilize secretions
• Often done in conjunction with postural drainage.
• 3-5 minutes per segment

Answer 198

A

• Time/duration: usually 5-10minutes 2-5times/day
• Can be expensive
• Foundations often offer grants or donated units
• As effective as manual percussion for mobilization of secretions/mucous
- Especially for patients with CF
- Often applied with nebulizer treatment of bronchodilators and mucolytics

Answer 199

A

• Exhaling slowly through these devices creates back pressure (positive pressure)
and transmits vibrations in large and small airways.
• This back pressure opens airways and vibration dislodges and mobilizes mucus.
• After blowing through the device 10-12 times, the person huff coughs.
• Acapella™, Aerobika™, Flutter™
• Aerobika can be connected to nebulizer too

Answer 200

A

• ACB uses a series of maneuvers to help mobilize secretions
• Cycle of normal tidal breaths to deep breaths, followed by coughing
- 3 normal breaths
- 3 Deep breaths
- Repeat 3 times
• Finish with coughing technique (usually a Huff Cough)
• Easy to educate patients

Answer 201

A

• Holding a breath after a maximum inspiration
• Patient is instructed to hold his breath without Valsalva for 2-3sec
• This increases back pressure and stretch on Type 2 Alveolar Cells
• Can be used in conjunction with other airway clearance techniques
- Active Cycle Breathing, Oscillating Expiratory Pressure, Vibration

Answer 202

A

Irritation
Inspiration
Compression
Expulsion

Answer 203

A

• Deep inspiration followed by a forced expiration without glottal closure.
- Mouth and throat should be open
• Often done after ACB or other secretion mobilization techniques
• An inspiratory hold if often used
• Patients can often use body movements to help generate expiratory pressure
• Great for elderly patients and those who have pain with coughing

Answer 204

A

• Place one hand, below xiphoid, and the heel
of the other hand
- Upper abdomen
• Patient will take a breath and cough as they exhale
• The clinician pushes inward and upwards as the patient cough.
• A pillow or towel can often be used for comfort
• Used for patients with a high lesion or low abdominal tone

Answer 205

A

Breathe out (exhale) normally.
Breathe in (inhale) SLOWLY.
Goal is to get this marker to rise as high as possible.
make sure this ball stays in the middle of the chamber while you breathe in.
Hold your breath for a 3 to 5 seconds. Then slowly exhale.
10 to 15 breaths spirometer every 1 to 2 hours.
Good for preventing atelectasis (alveolar collapse) and mobilizing secretions
Used to maintain airways, especially in patients who are sitting around a lot

Answer 206

A

Full body exercise and mobility!
Exercise facilitates increases in ventilation, airflow, chest wall movement and the mobilization of secretions.
One of the best chest physical therapy techniques is getting patients moving!

Answer 207

A

Posterior Basal

Answer 208

A

Peripheral

Answer 209

A

Pneumonia

Answer 210

A

Atelectasis

Answer 211

A

Pneumothorax

Answer 212

A

Active Cycle of Breathing with Huff

Answer 213

A

Pursed Lip Breathing

Answer 214

A

Low Perfusion, High Ventilation

Answer 215

A

Splinted Cough

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Week 5 Flashcards

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