Pulmonary Physiology Week 2

Question 1

Pulmonary arteries enter each lung at the _____ and travel adjacent to and branch with each airway generation to _________

Answer 1

hilum, respiratory bronchiole

Question 2

Pulmonary veins carry _____ blood from lungs to ______

Answer 2

oxygenated, left atrium

Question 3

Left pulmonary veins pass _______ whereas right pulmonary veins pass ______

Answer 3

in front of descending thoracic aorta; behind rt atrium and SVC

Question 4

Pulmonary capillaries are direct apposed to the _____ and about 0.6 microns thick

Answer 4

alveoli

Question 5

What is the normal pulmonary artery pressure [at the level of main pulm artery]?

Answer 5

15 mmHg

Question 6

Low pre-capillary arterial resistance leads to pulsatile motion in the microvascular bed. This motion is lost in severe __________

Answer 6

pulmonary arterial HTN

Question 7

Pulmonary vascular resistance is about ____ of systemic vascular resistance. There are no arterioles to regulate blood flow in this system.

Answer 7

1/10

Question 8

As pressure in the left atrium increases, what will happen to pulmonary vascular resistance as a function of increasing pulmonary artery pressure?

Answer 8

will no longer decrease because vascular bed is nearly fully distended

Question 9

If alveolar pressure is greater than capillary pressure, what happens to capillaries?

Answer 9

they collapse

Question 10

At what three levels does gas exchange occur?

Answer 10

within the tissues, within the blood and the alveoli (lungs themselves), [from environment into lungs]

Question 11

Each airway in the respiratory system divides into two daughter airways at each branching points. How many generations branch in the lungs from trachea to alveoli/alveolar sacs?

Answer 11

23

Question 12

The first 16 branching generations are the _______. Why is this area referred to as anatomical dead space?

Answer 12

conducting zone; air is passing through but there is no gas exchange

Question 13

Branches 17-23 are the _______ where alveoli are and gas exchange occurs between blood and lungs

Answer 13

transitional and respiratory zone

Question 14

True/False: As move down pulmonary tree, diameter of airways gets bigger and length gets shorter.

Answer 14

FALSE, get smaller [but do get shorter]

Question 15

As move down pulmonary tree, total cross sectional area gets ______

Answer 15

larger [ more branching you have - more cross sectional area you have ]

Question 16

The bronchi, trachea, bronchioles and terminal bronchioles make up the ________

Answer 16

conducting zone

Question 17

The respiratory bronchioles, alveolar ducts, alveolar sacs make up a functional unit called a _____ and are part of the _____ (final 7 generations)

Answer 17

acinus, respiratory zone

Question 18

Gas exchange occurs at the _____

Answer 18

alveoli

Question 19

The _______ is the entire amount that you can bring into your lungs [volume following MAXIMAL inspiration]

Answer 19

total lung capacity

Question 20

After maximal expiration, the amount left over is the ______

Answer 20

residual volume

Question 21

If you expel as much as you can from your lungs that volume is called the ________

Answer 21

vital capacity

Question 22

Vital capacity is not utilized very often. The volume inspired under normal resting conditions is called the ______

Answer 22

tidal volume

Question 23

The difference between volume in the lungs at end of tidal volume and 0 is the _______ [ volume remaining at end of normal tidal expiration]

Answer 23

functional residual capacity

Question 24

_________ is the difference between volume in lungs in normal inspiration vs the maximal amount to inspire [volume inspired during maximal inspiratory effort starting at end of normal tidal inspiration]

Answer 24

inspiratory reserve volume

Question 25

________ is the difference between volume in lungs at normal tidal expiration and maximal amount expired to get to residual volume [volume expelled during maximal forced expiration starting at the end of normal tidal expiration]

Answer 25

expiratory reserve volume

Question 26

The ______ is the volume inspired during maximal inspiration starting after at the end of normal tidal expiration

Answer 26

inspiratory capacity (IC)

Question 27

The inspiratory capacity and functional residual capacity are each about 1/2 of _________. These volumes change based on certain factors however.

Answer 27

total lung capacity.

Question 28

What happens to the functional residual capacity and inspiratory capacity when you lie down? Why?

Answer 28

inspiratory capacity becomes smaller, whereas functional residual capacity becomes larger. This is because the contents of your abdominal cavity push up against the diaphragm and make it harder to inspire.

Question 29

Spirometer is handy for measuring lung volumes except for which 3?

Answer 29

residual volume, functional residual capacity, and total lung capacity because you cannot expire all the way down to 0

Question 30

What are the three alternate ways that functional residual capacity can be measured?

Answer 30

nitrogen washout, helium dilution, plethysmography

Question 31

Describe the nitrogen washout and helium dilution techniques.

Answer 31

Basically, our air is about 80% nitrogen. So can measure nitrogen content in spirometer while blowing pure O2 into person and eventually when nitrogen “washes out” will be able to figure out functional residual capacity. Helium dilution similar concept but with rare gas helium instead.

Question 32

Describe pulmonary plethymography

Answer 32

Patient is placed in booth with single mouthpiece. Patient asked to inspire after last normal breath. Boyle’s law is used to find the functional residual volume (PiVi = PfVf)

Question 33

In a person that needs mechanical assistance to breathe, this can achieved by creating a pressure gradient how?

Answer 33

positive pressure at mouth which forces air into lungs

Question 34

In a normal person that can breathe independent, how is a pressure gradient generated to move air into the lungs?

Answer 34

Create negative pressure around the lungs which allows the lungs to expand and allows air to move into the lungs.

Question 35

Basically a person on mechanical ventilation breathes via ______ whereas a normal person breathes via ____

Answer 35

positive pressure breathing, negative pressure breathing

Question 36

Negative pressure around the lungs is normally _____ in magnitude than inside the lungs due to having to work against _________

Answer 36

larger, elastic recoil pressure

Question 37

The most important muscle for inspiration is the _______

Answer 37

diaphragm

Question 38

Describe what happens to the chest cavity when the diaphragm contracts

Answer 38

The volume of the chest cavity increases [diaphragm moves downward] while the abdominal contents are forced down and forward

Question 39

During inspiration, contraction of the _______ muscles also contributes by pulling the ribs upward, which expands the chest cavity

Answer 39

external intercostals [bucket handle]

Question 40

What are the accessory muscles involved in inspiration? When are these used?

Answer 40

scalene and sternomastoid; used in exercise or COPD

Question 41

The ____ muscles lift the first two ribs while the ______ raise the sternum

Answer 41

scalene, sternomastoid

Question 42

Why is expiration normally a passive process?

Answer 42

The lung and chest wall are elastic and tend to return to their equilibrium positions upon relaxation of inspiratory muscles

Question 43

When does expiration become active?

Answer 43

exercise

Question 44

What are the most important muscles for active expiration?

Answer 44

abdominal and internal intercostals [pull rib cage down]

Question 45

Name the three types of abdominal muscles involved in expiration

Answer 45

rectus abdominus, internal and external obliques, transversus abdominus

Question 46

At functional residual capacity (FRC), ________ or the pressure inside the lungs is equal to atmospheric or barometric pressure (Pb)

Answer 46

alveolar pressure

Question 47

The _________ or the pressure in the space between the lungs and chest wall is negative relative to the atmospheric pressure

Answer 47

intrapleural

Question 48

There is a ___________ gradient that results which is the difference between the alveolar pressure and intrapleural pressure

Answer 48

transpulmonary pressure

Question 49

The transpulmonary pressure reflects the elastic recoil properties of the lung and is sometimes referred to as the _______

Answer 49

elastic recoil P

Question 50

Changes in ______ are due to changes in transpulmonary pressure

Answer 50

lung volume

Question 51

During inspiration, which muscles contract which causes expansion of the chest cavity?

Answer 51

diaphragm and external intercostals

Question 52

What happens to transpulmonary pressure as lung volume increases?

Answer 52

it increases too (wants to recoil like a balloon)

Question 53

Changes in transpulmonary pressure are associated with changes in what two values?

Answer 53

transrespiratory pressure, transthoracic pressure

Question 54

Explain the changes in interpleural P, lung volume, chest cavity volume, lung pressure, alveolar space pressure that occurs when breathing in and out

Answer 54

For inspiration, chest cavity expands, interpleural P becomes more negative, which leads to increase in lung volume, which decrease lung P, which creates a negative P in the alveolar space, which drives flow of air into lungs. Eventually gradient equilibrates. Then, decrease in interpleural P leads to decrease in lung volume which leads to dec in alveolar P which moves air out of the lungs

Question 55

Expiration is driven by the _______ properties of the lung

Answer 55

elastic

Question 56

________ is the change in volume for given change in pressure and is the INVERSE of _____

Answer 56

compliance, elastance

Question 57

Elastance is equal to _____ whereas compliance is equal to ___

Answer 57

P/V, V/P

Question 58

True/False: The lung is much more compliant at high lung volumes

Answer 58

FALSE, much less compliant

Question 59

Compliance varies in different disease states. Compliance decreases with _______ while it increases with ______

Answer 59

pulmonary fibrosis; emphysema

Question 60

Why is the pressure in the intrapleural space less than atmospheric?

Answer 60

elastic recoil properties of the lung

Question 61

The elastic properties of the lungs are due to the ____ and ____ fibers that surrounds the bronchi and alveoli

Answer 61

elastin, collagen

Question 62

The relationship between lung volume and intrapleural P differ between inspiration and expiration. This is called _____

Answer 62

hysteresis

Question 63

T/F: The lung volume at any given intrapleural P is greater during inflation (inspiration) than deflation (expiration)

Answer 63

FALSE - greater during expiration

Question 64

True/False: When there is no transpulmonary gradient, there is still some air in the lung (volume is not zero)

Answer 64

True

Question 65

Why does filling a lung with saline increase compliance and eliminate hysteresis?

Answer 65

Reduces surface tension so lung is more compliant. The difference in compliance (volume/pressure) is due to the additional energy required during inspiration to recruit and inflate additional alveoli. During expiration, alveoli are smaller so surface tension is reduced.

Question 66

Surface tension reflects the attractive forces that exist between adjacent molecules of liquid. in lungs, surface tension is due to the _________

Answer 66

liquid film lining the alveoli

Question 67

The surface tension creates a force in the lung that contributes to the ______ and therefore decreases ______

Answer 67

elastic recoil pressure, lung compliance

Question 68

Pressure generated by surface tension is directly proportional to ______ and inversely proportional to _____

Answer 68

surface tension, radius of sphere

Question 69

If pressure is inversely proportional to radius, then why don’t small alveoli collapse and large alveoli burst?

Answer 69

Because of surfactant! WOOT!

Question 70

Surfactant is secreted by _______ and the main component is the amphipathic phospholipid dipalmitoyl phosphatidylcholine

Answer 70

type II alveolar cells

Question 71

True/False: Hysteresis is due to surfactant

Answer 71

FALSE - due to surface tension; surfactant acts to DEC surface tension

Question 72

True/False: Surfactant decreases hysteresis and increases complaince

Answer 72

TRUE DAT

Question 73

Infant respiratory distress syndrome is common in infants born more than ___ weeks prematurely, and affects all infants born more than ___ weeks prematurely. It is caused by lack of _____.

Answer 73

6, 12, surfactant

Question 74

______ is when hypoxia leads to a decrease in surfactant

Answer 74

acute respiratory distress syndrome

Question 75

What are the effects of loss of surfactant on the compliance of the lungs and alveoli

Answer 75

decreased compliance so increases effort required to inflate the lungs and increases tendency for alveoli to collapse

Question 76

The elastic recoil properties of the lung that tend to _____ lung volume are offset by the elastic recoil properties of the chest wall that tend to _____ the chest cavity. These opposing forces at what contributes to the _____ intrapleural pressure at rest

Answer 76

recoil, expand, negative

Question 77

What happens in the case of a pneumothorax to the atmospheric and intrapleural pressures

Answer 77

They equalize so lung volume gets smaller and chest cavity gets larger [boyle’s law no longer applies]

Question 78

_______ is determined by the balance between the _____ elastic recoil properties of the chest wall and the ____ elastic recoil properties of the lung

Answer 78

functional residual capacity, outward, inward

Question 79

True/False: At the functional residual capacity, elastic recoil of chest wall and of lung are equal and opposite and therefore neither wants to collapse or expand [equilibrium]

Answer 79

True

Question 80

Describe what happens to functional residual capacity in a patient with emphysema

Answer 80

In emphysema, elasticity of lung decreases which increases compliance of the lung [steeper curve]. Because of this, they have extreme difficulty exhaling air. The high compliance of the lung results in many collapsed alveoli which makes inhalation difficult. Overall, the lung compliance is increased and the tendency for the lungs to collapse is decreased. The tendency of the lungs to collapse is less than the tendency of the chest wall to expand. The lung-chest wall system will seek a new, higher FRC which to balance the two forces which results in a barrel-shaped chest.

Question 81

Describe what happens to the functional residual capacity in a patient with fibrosis

Answer 81

Lung compliance decreases will fibrosis and the tendency for the lungs to collapse is increased. Therefore, tendency of lungs to collapse is great than tendency of the chest wall to expand. The lung-chest wall system will seek a new, lower FRC so that opposing forces will be balanced again.

Question 82

The effect of gravity contributes to a gradient of intrapleural P. At the base of the lung, what is the difference in intrapleural pressure compared to the apex of the lung? What effect does this have on the alveoli?

Answer 82

At base of lung, the effect of the weight of the lung is greatest, the intrapleural pressure is less negative than it is at the apex of the lung. Therefore, the alveoli at base are more compressed [ have lower volume ].

Question 83

At base of lungs, are the alveoli less or more compliant?

Answer 83

Alveoli in base of lung are operating at a low volume, so lung is very compliant according to pressure/volume relationship. As such, small changes in transmural pressure tend to cause a greater change in volume.

Question 84

At the apex of the lungs, are the alveoli less or more compliant?

Answer 84

Alveoli in the apex are operating at a higher volume, and therefore has lower compliance. As such, small changes in transmural pressure tend to cause less of a chance in volume.

Question 85

Where in the lung are the alveoli best ventilated?

Answer 85

Base, because more able to change volume.

Question 86

Other than elastic resistance, what are the two forms of non-elastic resistance encountered in lungs?

Answer 86

airflow and viscous

Question 87

Air flows through tubes when there is a pressure gradient and what two types of flow?

Answer 87

a) laminar airflow (at low flow rates); b) turbulent airflow (at high flow rates)

Question 88

What is the most important ways you can affect airflow?

Answer 88

changing the radius (via pousielle’s law)

Question 89

True/False: The rate of turbulent air flow is directly proportional to the radius

Answer 89

FALSE - true for laminar. turbulent relies more on pressure gradient.

Question 90

True/False: A lower Reynolds number is more likely to indicate turbulent flow

Answer 90

HIGHER - FALSE

Question 91

In terms of air flow, ______ will be found in the trachea whereas _____ will be further down in the bronchial tree

Answer 91

turbulent [especially during exercise], laminar [such as terminal bronchioles]

Question 92

Turbulent flow is more likely when what three factors are present?

Answer 92

high velocity, large radius, dense gas

Question 93

True/False: Turbulent flow creates less airway resistance than laminar flow

Answer 93

FALSE MORE

Question 94

True/False: The resistance peaks at the terminal bronchioles

Answer 94

FALSE - the resistance peaks at the medium sized bronchioles and then decreases because total cross sectional area increases with branching

Question 95

Airway radius is the principal factor affecting airway resistance. What affects airway radius?

Answer 95

lung volume

Question 96

True/False: At low lung volumes, small airways can completely closed especially at the base of the lung

Answer 96

True

Question 97

Why do patients with increased airway resistance tend to breathe at high lung volumes?

Answer 97

Going to reduce the resistance by expanding airway bc of increased volume

Question 98

Bronchial _______ regulates airway radius and thus resistance

Answer 98

smooth muscle contraction

Question 99

What is the action of sympathetic stimulation on airways?

Answer 99

Circulating epinephrine activates beta-2 adrenergic receptors which relax smooth muscle and decrease resistance –> dilate airway

Question 100

What is the action of parasympathetic stimulation on airways?

Answer 100

Stimulation involves direct activation of MUSCARINIC receptors by Ach which contracts smooth muscle and increases resistance

Question 101

What is the action of inflammatory mediators such as leukotrienes and histamine released during asthma attacks/allergix rxns on airways?

Answer 101

Cause bronchial smooth muscle constriction which increases airway resistance

Question 102

True/False: Airway resistance can be affected by degree of expiratory effort

Answer 102

TRUE - to a degree

Question 103

Describe flow rate during expiration

Answer 103

FLow rises to a high volume but then declines for the remainder of expiration

Question 104

_______ results when intrapleural pressure equals or exceeds alveolar pressure, causing dynamic collapsing of the lung airways

Answer 104

Dynamic compression of the airways

Question 105

What is the limiting factor in dynamic compression of the airways?

Answer 105

the effect that the increase in intrapleural P has on transpulmonary P along the airway

Question 106

Describe the intrapleural pressure, alveolar pressure, and transpulmonary pressure in a lung pre-inspiration

Answer 106

intrapleural pressure will be negative, alveolar pressure in equilibrium with atm, transpulm P is positive and gradient is uniform [difference between alveolar and intrapleural pressure]

Question 107

What happens to intrapleural pressure, alveolar pressure and transpulmonary pressure during inspiration?

Answer 107

Contraction of inspiratory muscles causes volume of thorax to increase. This increases lung volume which leads to decreases in alveolar pressure. The alveolar P becomes less than atmospheric pressure which creates a pressure gradient bringing O2 into the lung. With increasing lung volume, elastic recoil strength of the lung increases so intrapleural pressure becomes even more negative than at rest.

Question 108

What happens at the end of the inspiration?

Answer 108

Intrapleural pressure is still more negative than preinspiration; alveolar pressure regains equilibrium with atmospheric pressure and transpulm pressure gradient once again uniform

Question 109

What happens during forced expiration?

Answer 109

Intrapleural pressure increases dramatically, alveolar pressure becomes higher than atmospheric pressure, transpulm gradient no longer uniform

Question 110

What happens to resistance close to the mouth during forced expiration?

Answer 110

intrapleural pressure actually becomes positive, decreasing airway diameter and increasing resistance

Question 111

Recruitment (opening of previously closed capillaries), distention (increased caliber of already open capillaries) and expansion of lung volume all decrease ______

Answer 111

pulmonary vascular resistance

Question 112

How did the Swan-Ganz catheter measure pulmonary vascular resistance?

Answer 112

It recorded the pulmonary artery wedge P by measuring the static fluid P in the pulmonary circuit [reflected left atrial P and total body fluid balance]

Question 113

True/False: In mild exercise, there is a decrease in the regional differences of blood flow

Answer 113

True

Question 114

In an upside down human, apical blood flow is ______ than basal blood flow

Answer 114

greater

Question 115

Describe the distribution of blood flow in the lungs in terms of the relative alveolar, arterial and venous pressures when a person is standing.

Answer 115

In the apex of the lungs, the alveolar pressure is greater than the arterial (venous is lowest) - this can lead to compression of the capillaries and therefore blood flow is lowest in this area. Basically, apex is ventilated but not perfused. In the middle of the lungs, arterial pressure is greater than alveolar (venous is till the lowest) so blood flow is medium - driven by difference in arterial and alveolar [arterial increased because of gravity “waterfall effect.” At the base of the lungs, arterial greatest, followed by venous and alveolar is least. This leads to the greatest blood flow in the lungs.

Question 116

In hypoxia, do the smooth muscle walls of the lungs contract or relax? What is the effect of this and why?

Answer 116

Hypoxic vasoconstriction occurs in the lungs (contraction of smooth muscle). This local vasoconstriction redirects blood flow away from poorly ventilated, hypoxic regions of the lung to well-ventilated regions.

Question 117

Nitrous oxide is derived from what amino acid?

Answer 117

L-arginine

Question 118

True/False: NO is great for decreasing pulmonary hypoxic vasoconstriction in the real world

Answer 118

FALSE only works in the lab

Question 119

What happens to pulmonary arterial pressure at high altitudes?

Answer 119

It increases due to generalized vasoconstriction - so someone who could breathe fine at sea level may be diagnosed with COPD at a higher level

Question 120

Describe fetal pulmonary vascular resistance before and after birth.

Answer 120

Before birth, PVR is very high because of generalized hypoxic vasoconstriction so Q through fetal lungs is low. upon birth and first breath, alveoli are oxygenated and PVR decreases, so pulmonary Q increases and becomes equal to CO

Question 121

True/False: Most people with issues with hypoxic vasoconstriction can take calcium channel blockers to treat these

Answer 121

FALSE ONLY HELPS 10%

Question 122

Where does fluid leakage from capillaries travel?

Answer 122

It goes into the interstitium of alveolar walls via perivascular and peribronchial lymph nodes

Question 123

In interstitial edema, transport of excess fluid goes to ______. When capacity of the lymphatics is exceeded, fluid pours into the _____.

Answer 123

hilar lymph nodes, alveoli [ interferes with gas exchange]

Question 124

Describe neurogenic pulmonary edema and its affects on capillaries.

Answer 124

Increased intracranial pressure leads to increased pulmonary capillary pressure which causes trauma to capillaries and increased capillary permeability

Question 125

What is the mechanism for high-altitude pulmonary edema?

Answer 125

Unknown, but does cause hypoxia-induced vasoconstriction at pre-capillary sites

Question 126

In _________, there is an accumulation of proteinaceous fluid in the alveoli due to a number of causes which leads to a significant ________

Answer 126

adult respiratory distress syndrome (ARDS), V/Q mismatch

Question 127

What are four causes of adult respiratory distress syndrome (ARDS)?

Answer 127

severe trauma, sepsis, pancreatitis and pneumonia (aspiration or community-acquired)

Question 128

What is the best treatment for ARDS?

Answer 128

low tidal volume ventilation [ prevents trauma ]

Question 129

ARDS has 60-70% mortality rate at 30 days. This rate is lower in ____ and higher in ______

Answer 129

trauma victims (tend to be yougner and healthier), alcohol abusers (immunosuppression)

Question 130

A variant of ARDS is _____ which occurs with massive blood product transfusion, most commonly fresh frozen plasma

Answer 130

Transfusion-related acute lung injury (TRALI)

Question 131

What is thought to be the mechanism for TRALI?

Answer 131

Development of anti-granulocyte antibodies that then attack recipient’s granulocytes - initiates an inflammatory response in pulm capillaries

Question 132

What are the symptoms of TRALI?

Answer 132

1-2 hours post transfusion: fever, tachycardia, tachypnea; pink, frothy sputum;

Question 133

True/False: Other functions of pulmonary circulation include a reservoir for blood (due to decreased PVR) and filtration (small thrombi, WBCs)

Answer 133

true

Question 134

True/False: Angiotensin converting enzyme is found in the small pits of capillary endothelial cells

Answer 134

True

Question 135

______ is released during anaphylaxis and transferred to platelets in the lung

Answer 135

serotonin

Question 136

______ keeps ductus arteriosus patent in fetus

Answer 136

prostaglandin E2

Question 137

All prostaglandins cause platelet _____ and ______ in asthma

Answer 137

platelet aggregation, bronchoconstriction

Question 138

The protein framework of lungs consists of collagen and elastin. This can be broken down by _____. _______ will act to stop that. An inherited disorder that causes emphysema in young, non-smokers is _________

Answer 138

trypsin, antitrypsin, alpha 1 antitrypsin deficiency

Question 139

What part of the brain coordinates sensory info?

Answer 139

the brain stem

Question 140

The ______ is located in the reticular formation, a poorly defined collection of neurons, and includes two groups: ______ and ______

Answer 140

medullary respiratory center, dorsal respiratory group, ventral respiratory group

Question 141

The dorsal respiratory group is primarily responsible for ______; whereas the ventral respiratory group is primary responsible for _______

Answer 141

inspiration [generates basic rhythm for breathing]; expiration

Question 142

Input to the dorsal respiratory group comes from which nerves? How do these nerves relay information?

Answer 142

a) vagus nerve - relays info from peripheral chemoreceptors and mechanoreceptors in the lung
b) glossopharyngeal nerve relays info from peripheral chemoreceptors

Question 143

True/False: The ventral respiratory group is not active during normal, quiet breathing

Answer 143

True

Question 144

The ____ is located in the ____ pons and _______ inspiration, producing a deep and prolonged inspiratory gasp known as ___

Answer 144

apneustic center, lower pons, stimulates, apneusis

Question 145

The _____ center is located in the ____ pons and _____ inspiration and therefore regulates inspiratory volume and respiratory rate

Answer 145

pneumotaxic center, upper, inhibits inspiration

Question 146

True/False: Hypoventilation (breath holding) is limited by the resulting increase in PCO2 and decrease in PO2.

Answer 146

true

Question 147

The medullary respiratory system is located in the reticular formation below the ______ and contains the ______ which is an intrinsic respiratory rhythm generator

Answer 147

fourth ventricle, Pre-Botzinger complex

Question 148

The Pre-Botzinger complex is found _____ to the Botzinger complex and ______ to the ventral respiratory group. It is located in the ___________ (RVLM)

Answer 148

inferior, superior, rostral ventrolateral medulla

Question 149

In the Pre-Botzinger complex, crescendo of action potentials leads to stronger ______ muscle activity and once the action potentials cease the tone falls to pre-level

Answer 149

inspiratory

Question 150

If the ______ in the medullary respiratory center is destroyed, this can lead to respiratory failure.

Answer 150

Nucleus ambiguus

Question 151

When the pneumotaxic center turns off the inspiratory ramp, inspiration is shortened and therefore respiratory rate _____

Answer 151

increases

Question 152

The nucleus ambiguus is the motor nucleus of the glossopharyngeal and vagus nerves, which terminate in the ______ close to the inspiratory center.

Answer 152

tractus solitarus

Question 153

True/False: Ventilation in the normal quiet breathing state is achieved by active contraction of inspiratory muscles and passive relaxation of the chest wall and not by the medulla

Answer 153

TRUE

Question 154

Transient apnea may be caused by a lesion in the ______ lobe

Answer 154

temporal

Question 155

Permanent apnea involves the ______ and ______

Answer 155

lower pons, medulla (nucleus ambiguus)

Question 156

________ are 10-20 second periods of apnea followed by equal periods of hyperapnea and are frequency seen in high altitude, severe heart disease, or severe neuro injury.

Answer 156

cheynes-stroke respirations

Question 157

True/False: The Cortex can override the function of the brainstem within limits.

Answer 157

True

Question 158

True/False: Voluntary hyperventilation can halve the PCO2 to the point of muscular tetany

Answer 158

true

Question 159

The limbic system and hypothalamus play a role in affective states such as _____ and ____

Answer 159

fear, rage

Question 160

Central chemoreceptors are located in the ______ lateral to pyramids and medial to CN 7 to 10 rootlets and in the ______ lateral to pyramids and medial to CN 12 rootlet

Answer 160

rostral zone, caudal zone

Question 161

What change do chemical chemoreceptors respond to and how?

Answer 161

Central chemoreceptors respond to changes in [H+]. [H+] does not cross the blood brain barrier but CO2 does where it combines with H2O to produce H+ and HCO3-. Therefore, when chemical chemoreceptors sense an increase in [H+] in the CSF they stimulate hyperventilation to decrease PCO2

Question 162

What is the result of rising arterial PCO2 on cerebral blood flow?

Answer 162

Cerebral vasodilation occurs which results in an increase in CO2 washout in brain PCO2 levels –> reduced brain acidification –> reduction in increased ventilatory drive from central chemoreceptors

Question 163

The _______ is the point at which rhythmic ventilation ceases at a given PCO2

Answer 163

apneic threshold

Question 164

True/False: The normal pH of CSF is less than the normal pH of arterial blood

Answer 164

TRUE - normally 7.32 - due to reduced protein in fluid and less buffering capacity

Question 165

True/False: The change in CSF pH for a given pCO2 is much greater than with blood

Answer 165

true

Question 166

If CSF pH is displaced for a prolonged period of time, a compensatory change in _______ occurs as a result of transport across the blood-brain barrier. ______ takes 2-3 days and is more rapid than it is for arterial systems

Answer 166

HCO3-; renal compensation takes 2-3 days

Question 167

_______ are located in the bifurcation of the common carotid arteries=______ and above and below the arch of the aorta=__________

Answer 167

peripheral chemoreceptors, carotid bodies, aortic bodies

Question 168

How do peripheral chemoreceptors react to changes in arterial PO2?

Answer 168

If there is a decrease in PO2 below 75mmHg, breathing rate is increased ; if there is an increase in PO2 it also stimulates an increase in breathing rate

Question 169

True/False: The response of the peripheral chemoreceptors to CO2 is more important than the response of the central chemoreceptors

Answer 169

FALSE LESS IMPORTANT [ do respond to increases in CO2 tho]

Question 170

How do peripheral chemoreceptors react to changes in arterial [H+]?

Answer 170

Changes in pH stimulate the carotid body peripheral chemoreceptors directly, independent of changes in PCO2 - when increased, hyperventilation induced

Question 171

True/False: Peripheral chemoreceptors are responsible for all of the increase in ventilation in response to arterial hypoxemia

Answer 171

TRUE DAT

Question 172

What happens to the peripheral chemoreceptor response in hypotension?

Answer 172

There is decreased blood flow (O2 delivery) to the carotid bodies and subsequently an increase in ventilation.

Question 173

What are the four lung receptors?

Answer 173

lung stretch, irritant, J (juxtacapillary), joint and muscle

Question 174

________ receptors are located between the airway epithelial cells and are stimulated by noxious substances

Answer 174

irritant

Question 175

_______ are located in the alveolar walls, close to the capillaries. They are stimulated by engorgement of pulmonary capillaries, such as in left heart failure which leads to _______

Answer 175

J (juxtacapillary) receptors - rapid, shallow breathing

Question 176

________ receptors are located in the smooth muscle of airways and when stimulated by distention of the lungs produce a reflex decrease in breathing frequency

Answer 176

lung stretch receptors

Question 177

_______ receptors are activated during movement of the limbs are are involved in early stimulation of breathing during exercise

Answer 177

joint and muscle receptors

Question 178

True/False: Pulmonary stretch receptor reflex is inactive in adults unless large tidal volumes are encountered

Answer 178

True

Question 179

True/False: Transient bilateral blockage of vagus nerve affects respiratory rate/volume

Answer 179

FALSE does not

Question 180

________ receptors respond to mechanical and chemical stimulation. These are an extension of irritant receptors whose responses include sneeze, cough, bronchoconstriction, and laryngeal spasm

Answer 180

Nasal and upper airway

Question 181

_______ in intercostal muscles and diaphragm sense elongation and involves in the sensation of dyspnea

Answer 181

gamma system

Question 182

How do arterial baroreceptors react to changes in BP [in terms of ventilation]?

Answer 182

An increase in BP leads to hypoventilation or apnea; whereas a decrease in BP leads to hyperventilation

Question 183

True/False: Pain and heating of skin both lead to hypoventilation

Answer 183

FALSE both lead to hyperventilation. Pain causes apnea at first doe.

Question 184

The most important factor in control of ventilation under normal conditions is _______

Answer 184

arterial pCO2

Question 185

PO2 has little effect in day to day management of minute ventilation. When would ithave an effect?

Answer 185

high altitude ascent - large inc in Ve

Question 186

Why would high FIO2 depress total ventilation rate in those with chronic lung disease?

Answer 186

Hypoxic ventilatory drive is very important for these individuals and CO2 retention is chronic

Question 187

T/F: Hypoxemia has no effect on central chemoreceptors

Answer 187

True

Question 188

T/F: IN the absence of peripheral chemoreceptors, hypoxemia stimulates respiratoryrate

Answer 188

FALSE causes respiratory depression [ unless grossly prolonged then can lead to acidosis and increase in VE]

Question 189

Arterial pH falls with heavy exercise due to ______

Answer 189

lactic acidosis

Question 190

Clubbing of fingernails indicates ____

Answer 190

hypoxia

Question 191

A lession in the ______ and _______ would lead to cheyne-stokes respirations

Answer 191

diffuse cerebral cortex, diencephalon