Chapter 35 - Oxygenation (Week 4 quiz)

Question 0

memory tips for heart and lungs:

Tri = right (three lobes/tricuspid valve)
Bi = left (two lobes/bicuspid valve)

apex is opposite (Heart bottom, lung top)

Answer 0

:)

Question 1

The pulmonary, cardiovascular , mucsoskeletal and neurological systems work together to achieve _______

Answer 1

oxygenation

Question 2

Type II alveolar cells produce ________, a lipoprotein that lowers the surface tension within alveoli to allow them to inflate during breathing

Answer 2

surfactant

Question 3

Two major processes occur in the pulmonary system. ______ which is the movement of air into/out of the lungs

__________ is the exchange of oxygen/carbon dioxide
Alveolar capillary/capillary cell membrane

Answer 3

Ventilation (physical)
Movement of air into/out of the lungs which is called inhalation/exhalation

Respiration (chemical)
Exchange of oxygen/carbon dioxide
takes place in Alveolar capillary/capillary cell membrane

Question 4

During _______ the diaphragm contracts, causing expansion of chest cavity (intercostals pull up and out) and lungs (creates negative pressure-and air is drawn in).

______ occurs when the diaphragm and intercostals relax, chest returns to normal resting size.

Answer 4

inhalation

exhalation

Question 5

In vital signs we covered repisratory rate, depth, hyperventillation, hypoxemia, hypoventilation. Describe each!

Answer 5

Respiratory rate (# of times a person breathe in a full minute; count for full minute is new pt and to ensure accuracy vs for 15-30)

depth (tidal volume is the amt of air taken in on inspiration) - can be deep, shallow, or normal

rhythm-regular or irregular (cheyne stokes in the dying, Biot’s, kussmauls)

effort-effortless, dyspnea (labored breathing), orthopnea (inability to breath lying down), bradypnea, tachypnea

hyperventillation is rapid and deep breathing resulting in excess loss of CO2 (hypocapnea). Too much carbon monoxide can cause this. Pt may complain of feeling light-headed and tingly HYPOXEMIA is a mild form og hyperventillation except it is when there is a low level of oxygen in the blood. EMIA!!!

hypoventillation is when the rate and depth of respirations are decreased (small amount) and CO2 is retained. Can result in hypoxia (O2 def to tissues)

Question 6

_______ _____ refers to the ease of lung inflation. It can be reduced by conditions that cause elastin fibers to be replaced with scar tissues, edema or loss of surfactant.

Answer 6

lung compliance

Question 7

__________ _________ refers to tendency of elastin fibers to return to their original position (like a rubber band stretched and then snapped). This causes it to lose recoil over time. Lung can inflate easily but not deflate, leaving air trapped in alveoli

Answer 7

Lung elasticity

Question 9

Usually _____ ____ is minimal. HOwever, during bronchospasm, the slightest reduction in diameter can cause trouble.

Answer 9

airway resistance

Question 10

Which diagnostic test/exam would best measure a client’s level of hypoxemia?

a. chest x-ray
b. pulse oximeter reading
c. ABG
d. peak expiratory flow rate

Answer 10

Correct answer: C

The term “hypoxemia” means low levels of oxygen in the blood. Arterial blood gas sampling is the most direct way in which the level of oxygen in the blood can be measured.

Question 11

What is the difference between internal and external respiration?

Answer 11

External takes place between alveoli and capillary (will touch the external world as some point going in and out)

Internal takes place between the capillary and tissue (cell membrane)
(takes place soley inside capillaries/cells)

http://www.youtube.com/watch?v=qM1A4O3urGE
AP2: RESPIRATORY SYSTEM: EXTERNAL & INTERNAL RESPIRATION

Question 12

Breathing is controlled by _________ located int he medulla, brainstem, carotid arteries and the aorta which detect changes in pH, O2, CO2.

Normally, the blood CO2 level provides the primary stimulus to breathe.

In addition, lung ______ located in the lung and chest wall are sensitive to breathing patterns/lung expansion/compliance/airway resistance/and respiratory irritants. Resp ctr uses feedback from these to adjust ventillation.

Answer 12

chemoreceptors

Question 13

What allows us to control breathing in order to talk?

Answer 13

voluntary control of breathing via motor cortex

Question 14

What factors infuence pulmonary function?

Answer 14

Developmental stage:
Less than 35 wk gestational - do not have full developed alveolar surfactant system/at risk for RDS (atelectasis - alveoli collapse), hypoxemia/hypercarbia; apnea;

Infants - susceptible to nfection
TOddlers put toys in their mouths - ingesting germs; possibly choking; drowning

Adolescents - start using tobacco

Young/middle/older adults - lack of exercise, smoking; organ decline; reduced lung expansion; difficulty expelling mucus, declining immune response, GERD

Environment:
stress
allergies
air quality
altitude

lifestyle:
pregnancy - O2 demand increases; limited diaphragm movement
occupational hazards - chemicals, fine particles, etc
nutrition
obesity - causes sleep apnea AND fat preses upward on diaphragm, preventing chest expansion which leads to hypovent.dyspnea;increase risk of lung infection
exercise
smoking
substance abuse

Medications - that depress CNS (anesthesia/opioids/antianxiety med/diazepam (valium), neuromuscular bloicking agents.

pathophysiological conditions - prob with gas exchange, resp infections, pulmonary system/circulation , cns and neuromuscular abnormalties,

Question 15

Difference between hypoxia and hypoxemia?

Answer 15

hypoxia - inadequate O2 in tissues/organs
hypoxemia - low arterial blood O2 levels

The location!

Question 16

What is the difference between hypercarbia and hypercapnia?

Answer 16

Nothing. The mean the same thing - excess of dissolved CO2 in the blood.

Question 17

T or F: Hypocarbia (aka hypocapnia) is a low level of dissolved CO2 in the blood. In most cases (except high altitude) blood O2 levels remain normal. Caused by hyperventilation.

Answer 17

True

Question 18

What is the differences in symptoms of URI vs Flu

Answer 18

Flu has the symptoms of URI (colds) BUT are more severe AND cause headache, fatigue, weakness, exhaustion and HIGH FEVER.

Question 19

What are some pulmonary system abnormalties?

Answer 19

structural - broken rib, pneumothorax, fluid
airway inflammation/obstruction - astham / swollen tonsils
alveolar-capillary membrane disorders - alveoli become stiff and diffcult to ventiliate/gas exchange impaired
Atelectasis - alveolar collaps

Question 20

What is a pulmonary embolus?

Answer 20

obstruction of pulmonary artery circulation due to clot/air/fat

Question 21

_________ ________ is elevated pressure in the pulmonary artery system. High pressure causes the heart to have to work harder and eventually leads to right-sided heart failure, w/reduced amt of blood pumped into circulation.

Answer 21

pulmonary hypertension

Question 22

Any CONDITION that alters CNS Function can interfere with the regulation of breathing. What are some common conditions?

Answer 22

Trauma
Stroke
Medications

Question 23

Know what these are:
eupnea
dyspnea 
orthopnea 
bradypnea/tachypnea
kussmaul's breathing
Biot's breathing
Cheyne-Stokes

Answer 23

eupnea 9normal breathing)
dyspnea (labored breathing),
orthopnea (inability to breath lying down),
bradypnea/tachypnea (slow/fast)
kussmaul’s breathing (youtube this! http://www.youtube.com/watch?v=TG0vpKae3Js )
Biot’s breathing https://www.youtube.com/watch?v=FpKdq-_ZvsI
Cheyne-Stokes ( note: may be alarming! https://www.youtube.com/watch?v=6_kxzDyV6J8 )

Question 24

What is the best way to assess a cough?

Answer 24

OLDCART +

Is the cough dry,productive or hacking?

Question 25

_____ ____ is a noninvasivce est. or arterial blood O2 saturation (SaO2). SaO2 relfects % of hgb carrying oxygen. Normal is 95-100%

Answer 25

pulse oximetry

hgb = iron contraining pigment of red blood cells

SaO2 - saturation of Oxygen that is actually bound to hemoglobin

Question 26

There are two methods for measuring O2 and CO2 levels in the body. What are they? Which is most reliable?

Answer 26

ABG (Most reliable) - measure PAO2/PC02/Bicarbonate
Pulse ox - measures )2 saturation with a light beam

Def:
P02 (pp of O2 in blood) - amt of O2 availble to combine wih hgb to make Oxyhemoglobin; normal 80-100mmHg n arterty/40mg in vein

PC02 (pp of CO2),
Bicarbonate - blood pH

Question 27

Capnography is used to measure ventilation and indirectly measure the partial pressure of CO2. Name some situations when this is used…

Answer 27

1. when pt receiving opioids
2. during general anesthesia
3. monitoring infants w/resp distress
4. for adjusting parameter settings in mechanically ventilated patients
5. for validating ET placement (if wrong little or no CO2 will be present.

Question 28

______ is used to measure air that moves into and out of the lungs.

Answer 28

Spirometry

Question 29

T or F: DUe to fraction of inspired oxygen (Fio2=21%), if a pt receives 100% O2 for a few minutes, it is possible to have 500-600 mmgH (5-6 times higher than normal), while SaO2 remains at 100%

Answer 29

True!

Hemoglobin cannot be filled with more than 100% O2 (If there is 100 seats in a theatre (100 hgb), you cannot fill 101).

Question 30

T or F: If gas exchange is impaired as a result of disease, Po2 and Sao2 levels will fall and there is no way to fix this.

Answer 30

False! Oxygen supplement will improve these levels!

Question 31

What is the normal arterial Pco2?

Answer 31

35-45 mmHG

Fact: even in the face of obstacles, such as thickened membranes or alveolar fluid, CO2 readily diffuses. So unless there is a severe disorder, the level remains normal.

Question 32

________ measures the amount of air that can be exhaled with forcible effort.. Expressed in liters. Asthma patients use this to measure daily during flare ups.

Answer 32

peak flow (PEFR - peak expiratory flow rate)

Steps to use:

1. take deep breath and forcefully exhale into it. (use three readings and record highest)
2. Teach pt to maintain/adjust med according to highest reading. (color coded system used)

Question 33

What are the five A’s for treating tobacco use:

Answer 33

ASk - about tobacco use and document
Advise - to quit.
Assess - willingness to quit
Assist - in quit attempt
Arrange-arrange follow up or cessation classes

Question 34

An —— or ——– position pulls abdominal organs down, allowing max diaphragm excursion and lung expanstion

Answer 34

upright or elevated

Question 35

_______ promotes deep inhalation and forceful expulsion of secretions.

Answer 35

coughing

Interventions that help enhance coughing and mobilize secretions include deep breathing, coughing exercises and HYDRATION (matinain systemic hydration/humidify inhaled air - use humidifier or nebulizer)

Question 36

______ _______ moves secretions to the large, central airway for expectoration or suctioning. It involves postural drainage, chest percussion and chest vibration.

Answer 36

chest physiotherapy

Question 37

What is an O2 concentrator?

Answer 37

removes nitrogen from room air and concentrates O2.

Question 38

Various devices are used to deliver O2 to the pt. They differ in amt of O2 they can deliver and the degree to which they enclose the pt. They are all capable of reaching 100% O2. What are some examples of low-flow devices? High-flow devices?

Answer 38

Low flow = nasal cannula, simple face masks, rebreather masks

High flow=venturi masks, aersol face masks, face tents, and tracheostomy collars.

Question 39

Oxygen toxicity can develop when O2 concentrations of more than _____% are adminsitered for longer than ____ to ____ hours

Answer 39

50%

48-72 hours

Question 40

If a person is unconscious, should you use an OPA (oropharyngeal airway) or NPA (nasopharyngeal airway)?

Answer 40

OPA. Can you use OPA on conscious? No because of gag reflex

Question 41

Why do tracheostomy tubes requires a device to warm and humidify inhaled air?

Answer 41

because they bypass the upper airway (which normally warms/humidifes)

Question 42

T or F: Even after the osotomy is well healed, the airway is at risk of collapsing.

Answer 42

False!

Once the ostomy is well healed, the airway will not collapse if the tracheostomy tube is dislodged.

Question 43

T or F: Both a resp therapist and nurse are responsible for suctioning and trach care. You will need to collaborate with the resp therapist in managing the pt’s airway.

Answer 43

True

Question 44

What is the biggest risk in using positive pressure ventilators?

Answer 44

drop in cardiac output as the positive pressure in the chest decreases venous return to the heart

Question 45

VAP is associated with high mortality rates. What is VAP?

Answer 45

ventilator associated pneumonia

Question 46

Normally there is neg. pressure in the pleural space and only a thin layer of fluid.

Accumulation of fluid and blood in the pleural space is called ________; it interferes with lung expansion, ventilation and gas exchange.

Air in the pleural space is called _______ and creates pos pressure, causing lung tissue to collapse.

Answer 46

hemothorax

pneumothorax

Chest tubes are used to remove air or fluid from the pleural space ( animation of it: https://www.youtube.com/watch?v=IMifvHjAKbE )

Question 47

This is the sequence of?

ANS sends signal–>SA–>AV–>bundles of hiss–> left and right bundle branches–>purkinje fibers

Answer 47

electrical conduction

From KC’s:

Normal electrical impulses in the heart follow this path:
● The sinoatrial (SA) node initiates impulses that trigger each heart beat.
● Each impulse travels rapidly down the atrial conduction system so that both atria contract as a unit.
● There is a slight delay at the atrioventricular node (AV) node.
● From the AV node, impulses pass into the left and right bundles of His and into the Purkinje fibers.

Question 48

T or F: The heart has it’s own supply of blood

Answer 48

True - though coronary arteries.

Question 49

Describe oxygenation and perfusion

Answer 49

● Oxygenation refers to how well cells, tissues, and organs are supplied with oxygen.
● Perfusion refers to the circulation of blood to all body regions.

Question 50

What is the importance of diastole to perfusion of the heart?

Answer 50

Answer:

During diastole, the coronary arteries are the only arteries in the body that fill.

Question 51

Knowledge Check 35-15

● How are oxygen and carbon dioxide transported in the blood?

Answer 51

Answer:
The gases are transported in the blood as follows:
● Oxygen (O2) is carried in the blood bound to hemoglobin (97%) or in a dissolved state (3%). At the tissue level, oxygen leaves the hemoglobin, becomes dissolved in the blood, and passes through the capillary membrane. Only the dissolved form of oxygen can pass through capillary membranes. Oxygen bound to hemoglobin serves as a reservoir, holding oxygen until it is needed in the dissolved state.
● Carbon dioxide (CO2) can be carried in the blood in three ways: a dissolved state, bound to hemoglobin, or as a bicarbonate ion. It leaves the cells by passing through the cellular–capillary membrane in the dissolved state. In the blood, about 7% remains dissolved in plasma, 23% attaches to hemoglobin, and 70% is converted into bicarbonate ions. At the alveolar–capillary membrane, dissolved carbon dioxide diffuses into the alveoli for exhalation from the lungs

Question 52

Does poor peripheral perfusion increase risk for hypoxemia?

Answer 52

Answer:

No, poor peripheral perfusion increases the risk for tissue hypoxia.

Question 53

What does stress do to the cardiovascular function?

Answer 53

Releases catecholamines - increased HR/contractility/vasoconstriction/inc tend to clot.

Supresses immune/inflammatory response
Release of cortisol - alters glucose, fat and protein metabolism.

Sustained stimulation of SNS can lead to cardiovascular disease.

Question 54

What does heat and cold do to cardiovascular function?

Answer 54

Cold slows cell metabolsim, reducing O2 demand; causes vasoconstriction, slows HR

Heat causes vasodilation, increase Cardiac Output and oxygenation. Also increases metabolism. This is why people are sedentary when its hot

Question 55

What does pregnancy do to cardiovascular function?

Answer 55

MOm’s blood incr. 30%
Requires addl iron to produce the blood and meet fetal requirements; failure to meet results in maternal anemia, reducing tissue oxygenation to mom and baby

Question 56

Effects of calcium and potassium on heart

Not in reading… JIC

Answer 56

An excess of potassium ions in the extracellular environment markedly reduces the heart rate as well as the strength of contraction.

Excessive levels of sodium ions result in depression of cardiac function, which is thought to stem from their competition with calcium ions at some critical site during the contractile process.

Question 57

an inadequate blood supply to an organ or part of the body, especially the heart muscles.

Answer 57

ischemia

Question 58

How does carbon monoxide cause problems?

Answer 58

binds to hemoglobin at O2 receptor sites, making it impossible for hemoglobin to carry O2

Question 59

How can you differentiate between pleuritis/rib fracture causing pain versus cardiac pain?

Answer 59

Cardiac pain usually in the ctr or on the left side of the chest and radiates to the left arm (at least in men); inhalation does not change the pain.

Question 60

What is the purpose of ECG monitoring?

Answer 60

1. ID pt baseline rhythm/rate
2. Recog. sig. change in baseline
3. Recog. lethal dysrhythmias (abnormal heart rhythm)

Question 61

There are three parts of the cardiac cycle. What are they and what do they represent?

Answer 61

P wave - firing of SA node and impulse through atria (memory - PSA - public service announcement)
QRS complex- ventricular depolarization leading to contraction
T wave - return of ventricles to an electrical resting state

Question 62

What is ectopy?

Answer 62

extra beat

Question 63

What does it mean if a dysrhythmia is junctional?

Answer 63

means it is within the av node

Question 64

What is the diff between thrombus and embolus?

Answer 64

thrombus is adhering to wall of vessel, embolus is traveling in the blood

Question 65

T or F: Cardiovascular meds are used to enhance cardiac output, thus providing increased blood flow and oxygenation to organs and tissues.

Answer 65

True

Question 66

T or F: Beta-adregeneric agents block stimulation of beta receptors, which are located primarily in heart/lungs/blood vessels. They decrease HR, slow conduction through AV, decrease myocardial oxygen demand by reducing myocardial contractility

Answer 66

true

Question 67

Positive inotropes ____ cardiac contractility. Used to make heart a more effective pump.

Answer 67

increase